Warning: Permanently added '172.25.82.200' (ECDSA) to the list of known hosts. Running: /usr/bin/copr-rpmbuild --verbose --drop-resultdir --build-id 830446 --chroot epel-7-ppc64le --detached default Version: 0.22 Task: {'build_id': 830446, 'buildroot_pkgs': [], 'chroot': 'epel-7-ppc64le', 'enable_net': False, 'fetch_sources_only': True, 'git_hash': '91d5840d43451c9e75cffb9d53e3d0b30576bc07', 'git_repo': '@scitech/openmpi3.1/openmx', 'memory_reqs': 2048, 'package_name': 'openmx', 'package_version': '3.8.5-3.fc30', 'project_dirname': 'openmpi3.1', 'project_name': 'openmpi3.1', 'project_owner': '@scitech', 'repos': [{'id': 'copr_base', 'name': 'Copr repository', 'url': 'https://copr-be.cloud.fedoraproject.org/results/@scitech/openmpi3.1/epel-7-ppc64le/'}], 'source_json': {'clone_url': 'https://copr-dist-git.fedorainfracloud.org/git/@scitech/openmpi3.1/openmx.git', 'committish': '91d5840d43451c9e75cffb9d53e3d0b30576bc07'}, 'source_type': 8, 'submitter': 'orion', 'task_id': '830446-epel-7-ppc64le', 'timeout': 64800, 'use_bootstrap_container': False, 'with_opts': [], 'without_opts': []} Running: git clone https://copr-dist-git.fedorainfracloud.org/git/@scitech/openmpi3.1/openmx.git /tmp/tmpbohvhj0y/openmx --depth 500 --no-single-branch cmd: ['git', 'clone', 'https://copr-dist-git.fedorainfracloud.org/git/@scitech/openmpi3.1/openmx.git', '/tmp/tmpbohvhj0y/openmx', '--depth', '500', '--no-single-branch'] cwd: . rc: 0 stdout: stderr: Cloning into '/tmp/tmpbohvhj0y/openmx'... Running: git checkout 91d5840d43451c9e75cffb9d53e3d0b30576bc07 cmd: ['git', 'checkout', '91d5840d43451c9e75cffb9d53e3d0b30576bc07'] cwd: /tmp/tmpbohvhj0y/openmx rc: 0 stdout: stderr: Note: checking out '91d5840d43451c9e75cffb9d53e3d0b30576bc07'. You are in 'detached HEAD' state. You can look around, make experimental changes and commit them, and you can discard any commits you make in this state without impacting any branches by performing another checkout. If you want to create a new branch to retain commits you create, you may do so (now or later) by using -b with the checkout command again. Example: git checkout -b HEAD is now at 91d5840 automatic import of openmx 3.8.5-3.fc30 Running: cp -r . /tmp/tmphpzms_qs cmd: ['cp', '-r', '.', '/tmp/tmphpzms_qs'] cwd: /tmp/tmpbohvhj0y/openmx rc: 0 stdout: stderr: Generated rpkg config: [rpkg] preprocess_spec = True # auto-packing is deprecated: auto_pack = True [git] lookaside = https://copr-dist-git.fedorainfracloud.org/repo/pkgs/%(ns2)s/%(ns1)s/%(name)s/%(filename)s/%(hashtype)s/%(hash)s/%(filename)s anongiturl = https://copr-dist-git.fedorainfracloud.org/git/%(module)s Writing config into /tmp/tmpbohvhj0y/.config/rpkg.conf Running: rpkg -C /tmp/tmpbohvhj0y/.config/rpkg.conf sources --outdir /tmp/tmphpzms_qs cmd: ['rpkg', '-C', '/tmp/tmpbohvhj0y/.config/rpkg.conf', 'sources', '--outdir', '/tmp/tmphpzms_qs'] cwd: /tmp/tmpbohvhj0y/openmx rc: 0 stdout: Downloading openmx3.8.tar.gz from lookaside cache at copr-dist-git.fedorainfracloud.org Downloading patch3.8.5.tar.gz from lookaside cache at copr-dist-git.fedorainfracloud.org stderr: /usr/bin/tail: /var/lib/copr-rpmbuild/main.log: file truncated Running: unbuffer /usr/bin/mock --buildsrpm --spec /tmp/tmphpzms_qs/openmx.spec --sources /tmp/tmphpzms_qs --configdir /var/lib/copr-rpmbuild/results/configs --resultdir /var/lib/copr-rpmbuild/results --define %_disable_source_fetch 0 --uniqueext 1543326543.950485 -r child WARNING: Could not find required logging config file: /var/lib/copr-rpmbuild/results/configs/logging.ini. Using default... INFO: mock.py version 1.4.13 starting (python version = 3.6.5)... Start: init plugins INFO: tmpfs initialized INFO: selinux disabled INFO: chroot_scan: initialized INFO: compress_logs: initialized Finish: init plugins Start: run INFO: Start(/tmp/tmphpzms_qs/openmx.spec) Config(830446-epel-7-ppc64le) Start: clean chroot Finish: clean chroot Start: chroot init INFO: mounting tmpfs at /var/lib/mock/830446-epel-7-ppc64le-1543326543.950485/root. INFO: calling preinit hooks INFO: enabled root cache INFO: enabled HW Info plugin Mock Version: 1.4.13 INFO: Mock Version: 1.4.13 Start: yum install Yum command has been deprecated, use dnf instead. See 'man dnf' and 'man yum2dnf' for more information. copr_base | 3.5 kB 00:00 base | 3.6 kB 00:00 epel | 3.2 kB 00:00 extras | 2.9 kB 00:00 sclo-rh | 2.9 kB 00:00 updates | 2.9 kB 00:00 (1/6): copr_base/primary_db | 51 kB 00:00 (2/6): epel/primary | 3.4 MB 00:00 (3/6): sclo-rh/primary_db | 76 kB 00:00 (4/6): extras/primary_db | 162 kB 00:00 (5/6): base/primary_db | 4.7 MB 00:01 (6/6): updates/primary_db | 5.2 MB 00:01 epel 12142/12142 base/group_gz | 166 kB 00:00 epel/group_gz | 88 kB 00:00 Resolving Dependencies --> Running transaction check ---> Package bash.ppc64le 0:4.2.46-30.el7 will be installed --> Processing Dependency: rtld(GNU_HASH) for package: bash-4.2.46-30.el7.ppc64le --> Processing Dependency: libdl.so.2(GLIBC_2.17)(64bit) for package: bash-4.2.46-30.el7.ppc64le --> Processing Dependency: libc.so.6(GLIBC_2.17)(64bit) for package: bash-4.2.46-30.el7.ppc64le --> Processing Dependency: libtinfo.so.5()(64bit) for package: bash-4.2.46-30.el7.ppc64le --> Processing Dependency: libdl.so.2()(64bit) for package: bash-4.2.46-30.el7.ppc64le ---> Package bzip2.ppc64le 0:1.0.6-13.el7 will be installed --> Processing Dependency: bzip2-libs = 1.0.6-13.el7 for package: bzip2-1.0.6-13.el7.ppc64le --> Processing Dependency: libbz2.so.1()(64bit) for package: bzip2-1.0.6-13.el7.ppc64le ---> Package coreutils.ppc64le 0:8.22-21.el7 will be installed --> Processing Dependency: ncurses for package: coreutils-8.22-21.el7.ppc64le --> Processing Dependency: libcrypto.so.10(libcrypto.so.10)(64bit) for package: coreutils-8.22-21.el7.ppc64le --> Processing Dependency: libattr.so.1(ATTR_1.1)(64bit) for package: coreutils-8.22-21.el7.ppc64le --> Processing Dependency: libacl.so.1(ACL_1.0)(64bit) for package: coreutils-8.22-21.el7.ppc64le --> Processing Dependency: gmp for package: coreutils-8.22-21.el7.ppc64le --> Processing Dependency: libselinux.so.1()(64bit) for package: coreutils-8.22-21.el7.ppc64le --> Processing Dependency: libgmp.so.10()(64bit) for package: coreutils-8.22-21.el7.ppc64le --> Processing Dependency: libcrypto.so.10()(64bit) for package: coreutils-8.22-21.el7.ppc64le --> Processing Dependency: libcap.so.2()(64bit) for package: coreutils-8.22-21.el7.ppc64le --> Processing Dependency: libattr.so.1()(64bit) for package: coreutils-8.22-21.el7.ppc64le --> Processing Dependency: libacl.so.1()(64bit) for package: coreutils-8.22-21.el7.ppc64le ---> Package cpio.ppc64le 0:2.11-27.el7 will be installed ---> Package diffutils.ppc64le 0:3.3-4.el7 will be installed ---> Package epel-release.noarch 0:7-11 will be installed --> Processing Dependency: redhat-release >= 7 for package: epel-release-7-11.noarch ---> Package epel-rpm-macros.noarch 0:7-19 will be installed --> Processing Dependency: python2-rpm-macros for package: epel-rpm-macros-7-19.noarch --> Processing Dependency: python-srpm-macros for package: epel-rpm-macros-7-19.noarch --> Processing Dependency: python-rpm-macros for package: epel-rpm-macros-7-19.noarch ---> Package findutils.ppc64le 1:4.5.11-5.el7 will be installed ---> Package gawk.ppc64le 0:4.0.2-4.el7_3.1 will be installed ---> Package gcc.ppc64le 0:4.8.5-28.el7_5.1 will be installed --> Processing Dependency: libgomp = 4.8.5-28.el7_5.1 for package: gcc-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: cpp = 4.8.5-28.el7_5.1 for package: gcc-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: libgcc >= 4.8.5-28.el7_5.1 for package: gcc-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: glibc-devel >= 2.2.90-12 for package: gcc-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: binutils >= 2.20.51.0.2-12 for package: gcc-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: libz.so.1()(64bit) for package: gcc-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: libmpfr.so.4()(64bit) for package: gcc-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: libmpc.so.3()(64bit) for package: gcc-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: libgomp.so.1()(64bit) for package: gcc-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: libgcc_s.so.1()(64bit) for package: gcc-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: libatomic.so.1()(64bit) for package: gcc-4.8.5-28.el7_5.1.ppc64le ---> Package gcc-c++.ppc64le 0:4.8.5-28.el7_5.1 will be installed --> Processing Dependency: libstdc++-devel = 4.8.5-28.el7_5.1 for package: gcc-c++-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: libstdc++ = 4.8.5-28.el7_5.1 for package: gcc-c++-4.8.5-28.el7_5.1.ppc64le ---> Package grep.ppc64le 0:2.20-3.el7 will be installed --> Processing Dependency: libpcre.so.1()(64bit) for package: grep-2.20-3.el7.ppc64le ---> Package gzip.ppc64le 0:1.5-10.el7 will be installed ---> Package info.ppc64le 0:5.1-5.el7 will be installed ---> Package make.ppc64le 1:3.82-23.el7 will be installed ---> Package patch.ppc64le 0:2.7.1-10.el7_5 will be installed ---> Package redhat-rpm-config.noarch 0:9.1.0-80.el7.centos will be installed --> Processing Dependency: rpm >= 4.9.0 for package: redhat-rpm-config-9.1.0-80.el7.centos.noarch --> Processing Dependency: dwz >= 0.4 for package: redhat-rpm-config-9.1.0-80.el7.centos.noarch --> Processing Dependency: zip for package: redhat-rpm-config-9.1.0-80.el7.centos.noarch --> Processing Dependency: perl-srpm-macros for package: redhat-rpm-config-9.1.0-80.el7.centos.noarch --> Processing Dependency: perl(Getopt::Long) for package: redhat-rpm-config-9.1.0-80.el7.centos.noarch --> Processing Dependency: /usr/bin/perl for package: redhat-rpm-config-9.1.0-80.el7.centos.noarch ---> Package rpm-build.ppc64le 0:4.11.3-32.el7 will be installed --> Processing Dependency: pkgconfig >= 1:0.24 for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: elfutils >= 0.128 for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: perl(threads) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: perl(Thread::Queue) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: perl(File::Temp) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: libpopt.so.0(LIBPOPT_0)(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: libelf.so.1(ELFUTILS_1.0)(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: file for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: /usr/bin/gdb-add-index for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: librpmio.so.3()(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: librpmbuild.so.3()(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: librpm.so.3()(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: libpopt.so.0()(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: libnss3.so()(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: libmagic.so.1()(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: liblzma.so.5()(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: liblua-5.1.so()(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: libelf.so.1()(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le --> Processing Dependency: libdb-5.3.so()(64bit) for package: rpm-build-4.11.3-32.el7.ppc64le ---> Package sed.ppc64le 0:4.2.2-5.el7 will be installed ---> Package shadow-utils.ppc64le 2:4.1.5.1-24.el7 will be installed --> Processing Dependency: audit-libs >= 1.6.5 for package: 2:shadow-utils-4.1.5.1-24.el7.ppc64le --> Processing Dependency: setup for package: 2:shadow-utils-4.1.5.1-24.el7.ppc64le --> Processing Dependency: libsemanage.so.1(LIBSEMANAGE_1.0)(64bit) for package: 2:shadow-utils-4.1.5.1-24.el7.ppc64le --> Processing Dependency: libsemanage.so.1()(64bit) for package: 2:shadow-utils-4.1.5.1-24.el7.ppc64le --> Processing Dependency: libaudit.so.1()(64bit) for package: 2:shadow-utils-4.1.5.1-24.el7.ppc64le ---> Package tar.ppc64le 2:1.26-34.el7 will be installed ---> Package unzip.ppc64le 0:6.0-19.el7 will be installed ---> Package util-linux.ppc64le 0:2.23.2-52.el7_5.1 will be installed --> Processing Dependency: libuuid = 2.23.2-52.el7_5.1 for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libmount = 2.23.2-52.el7_5.1 for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libblkid = 2.23.2-52.el7_5.1 for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: pam >= 1.1.3-7 for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libuuid.so.1(UUID_1.0)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libutempter.so.0(UTEMPTER_1.1)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libudev.so.1(LIBUDEV_183)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libsystemd.so.0(LIBSYSTEMD_209)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libpam_misc.so.0(LIBPAM_MISC_1.0)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libpam.so.0(LIBPAM_1.0)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libmount.so.1(MOUNT_2.25)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libmount.so.1(MOUNT_2.23)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libmount.so.1(MOUNT_2.22)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libmount.so.1(MOUNT_2.21)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libmount.so.1(MOUNT_2.20)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libmount.so.1(MOUNT_2.19)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libblkid.so.1(BLKID_2.21)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libblkid.so.1(BLKID_2.20)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libblkid.so.1(BLKID_2.18)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libblkid.so.1(BLKID_2.17)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libblkid.so.1(BLKID_2.15)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libblkid.so.1(BLKID_1.0)(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: /etc/pam.d/system-auth for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libuuid.so.1()(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libutempter.so.0()(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libuser.so.1()(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libudev.so.1()(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libsystemd.so.0()(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libpam_misc.so.0()(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libpam.so.0()(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libmount.so.1()(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libcap-ng.so.0()(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le --> Processing Dependency: libblkid.so.1()(64bit) for package: util-linux-2.23.2-52.el7_5.1.ppc64le ---> Package which.ppc64le 0:2.20-7.el7 will be installed ---> Package xz.ppc64le 0:5.2.2-1.el7 will be installed --> Running transaction check ---> Package audit-libs.ppc64le 0:2.8.1-3.el7_5.1 will be installed ---> Package binutils.ppc64le 0:2.27-28.base.el7_5.1 will be installed ---> Package bzip2-libs.ppc64le 0:1.0.6-13.el7 will be installed ---> Package centos-release.ppc64le 0:7-5.1804.5.el7.centos.p will be installed ---> Package cpp.ppc64le 0:4.8.5-28.el7_5.1 will be installed --> Processing Dependency: filesystem >= 3 for package: cpp-4.8.5-28.el7_5.1.ppc64le ---> Package dwz.ppc64le 0:0.11-3.el7 will be installed ---> Package elfutils.ppc64le 0:0.170-4.el7 will be installed --> Processing Dependency: elfutils-libs(ppc-64) = 0.170-4.el7 for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libdw.so.1(ELFUTILS_0.167)(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libdw.so.1(ELFUTILS_0.165)(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libdw.so.1(ELFUTILS_0.158)(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libdw.so.1(ELFUTILS_0.149)(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libdw.so.1(ELFUTILS_0.148)(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libdw.so.1(ELFUTILS_0.138)(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libdw.so.1(ELFUTILS_0.130)(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libdw.so.1(ELFUTILS_0.127)(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libdw.so.1(ELFUTILS_0.126)(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libdw.so.1(ELFUTILS_0.122)(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libasm.so.1(ELFUTILS_1.0)(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libdw.so.1()(64bit) for package: elfutils-0.170-4.el7.ppc64le --> Processing Dependency: libasm.so.1()(64bit) for package: elfutils-0.170-4.el7.ppc64le ---> Package elfutils-libelf.ppc64le 0:0.170-4.el7 will be installed ---> Package file.ppc64le 0:5.11-33.el7 will be installed ---> Package file-libs.ppc64le 0:5.11-33.el7 will be installed ---> Package gdb.ppc64le 0:7.6.1-110.el7 will be installed --> Processing Dependency: libreadline.so.6()(64bit) for package: gdb-7.6.1-110.el7.ppc64le --> Processing Dependency: libpython2.7.so.1.0()(64bit) for package: gdb-7.6.1-110.el7.ppc64le --> Processing Dependency: libexpat.so.1()(64bit) for package: gdb-7.6.1-110.el7.ppc64le ---> Package glibc.ppc64le 0:2.17-222.el7 will be installed --> Processing Dependency: glibc-common = 2.17-222.el7 for package: glibc-2.17-222.el7.ppc64le --> Processing Dependency: libfreebl3.so(NSSRAWHASH_3.12.3)(64bit) for package: glibc-2.17-222.el7.ppc64le --> Processing Dependency: basesystem for package: glibc-2.17-222.el7.ppc64le --> Processing Dependency: libfreebl3.so()(64bit) for package: glibc-2.17-222.el7.ppc64le ---> Package glibc-devel.ppc64le 0:2.17-222.el7 will be installed --> Processing Dependency: glibc-headers = 2.17-222.el7 for package: glibc-devel-2.17-222.el7.ppc64le --> Processing Dependency: glibc-headers for package: glibc-devel-2.17-222.el7.ppc64le ---> Package gmp.ppc64le 1:6.0.0-15.el7 will be installed ---> Package libacl.ppc64le 0:2.2.51-14.el7 will be installed ---> Package libatomic.ppc64le 0:4.8.5-28.el7_5.1 will be installed ---> Package libattr.ppc64le 0:2.4.46-13.el7 will be installed ---> Package libblkid.ppc64le 0:2.23.2-52.el7_5.1 will be installed ---> Package libcap.ppc64le 0:2.22-9.el7 will be installed ---> Package libcap-ng.ppc64le 0:0.7.5-4.el7 will be installed ---> Package libdb.ppc64le 0:5.3.21-24.el7 will be installed ---> Package libgcc.ppc64le 0:4.8.5-28.el7_5.1 will be installed ---> Package libgomp.ppc64le 0:4.8.5-28.el7_5.1 will be installed ---> Package libmount.ppc64le 0:2.23.2-52.el7_5.1 will be installed ---> Package libmpc.ppc64le 0:1.0.1-3.el7 will be installed ---> Package libselinux.ppc64le 0:2.5-12.el7 will be installed --> Processing Dependency: libsepol(ppc-64) >= 2.5-6 for package: libselinux-2.5-12.el7.ppc64le --> Processing Dependency: libsepol.so.1(LIBSEPOL_1.0)(64bit) for package: libselinux-2.5-12.el7.ppc64le --> Processing Dependency: libsepol.so.1()(64bit) for package: libselinux-2.5-12.el7.ppc64le ---> Package libsemanage.ppc64le 0:2.5-11.el7 will be installed --> Processing Dependency: libustr-1.0.so.1(USTR_1.0.1)(64bit) for package: libsemanage-2.5-11.el7.ppc64le --> Processing Dependency: libustr-1.0.so.1(USTR_1.0)(64bit) for package: libsemanage-2.5-11.el7.ppc64le --> Processing Dependency: libustr-1.0.so.1()(64bit) for package: libsemanage-2.5-11.el7.ppc64le ---> Package libstdc++.ppc64le 0:4.8.5-28.el7_5.1 will be installed ---> Package libstdc++-devel.ppc64le 0:4.8.5-28.el7_5.1 will be installed ---> Package libuser.ppc64le 0:0.60-9.el7 will be installed --> Processing Dependency: libldap-2.4.so.2()(64bit) for package: libuser-0.60-9.el7.ppc64le --> Processing Dependency: libgobject-2.0.so.0()(64bit) for package: libuser-0.60-9.el7.ppc64le --> Processing Dependency: libgmodule-2.0.so.0()(64bit) for package: libuser-0.60-9.el7.ppc64le --> Processing Dependency: libglib-2.0.so.0()(64bit) for package: libuser-0.60-9.el7.ppc64le ---> Package libutempter.ppc64le 0:1.1.6-4.el7 will be installed ---> Package libuuid.ppc64le 0:2.23.2-52.el7_5.1 will be installed ---> Package lua.ppc64le 0:5.1.4-15.el7 will be installed ---> Package mpfr.ppc64le 0:3.1.1-4.el7 will be installed ---> Package ncurses.ppc64le 0:5.9-14.20130511.el7_4 will be installed ---> Package ncurses-libs.ppc64le 0:5.9-14.20130511.el7_4 will be installed --> Processing Dependency: ncurses-base = 5.9-14.20130511.el7_4 for package: ncurses-libs-5.9-14.20130511.el7_4.ppc64le ---> Package nss.ppc64le 0:3.36.0-7.el7_5 will be installed --> Processing Dependency: nss-util >= 3.36.0-1 for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: nss-softokn(ppc-64) >= 3.36.0-1 for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: nspr >= 4.19.0 for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: nss-system-init for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: nss-pem(ppc-64) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnssutil3.so(NSSUTIL_3.31)(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnssutil3.so(NSSUTIL_3.24)(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnssutil3.so(NSSUTIL_3.21)(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnssutil3.so(NSSUTIL_3.17.1)(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnssutil3.so(NSSUTIL_3.15)(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnssutil3.so(NSSUTIL_3.14)(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnssutil3.so(NSSUTIL_3.13)(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnssutil3.so(NSSUTIL_3.12.5)(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnssutil3.so(NSSUTIL_3.12.3)(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnssutil3.so(NSSUTIL_3.12)(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: /usr/sbin/update-alternatives for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: /usr/sbin/update-alternatives for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libplds4.so()(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libplc4.so()(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnssutil3.so()(64bit) for package: nss-3.36.0-7.el7_5.ppc64le --> Processing Dependency: libnspr4.so()(64bit) for package: nss-3.36.0-7.el7_5.ppc64le ---> Package openssl-libs.ppc64le 1:1.0.2k-12.el7 will be installed --> Processing Dependency: ca-certificates >= 2008-5 for package: 1:openssl-libs-1.0.2k-12.el7.ppc64le --> Processing Dependency: libkrb5.so.3(krb5_3_MIT)(64bit) for package: 1:openssl-libs-1.0.2k-12.el7.ppc64le --> Processing Dependency: libk5crypto.so.3(k5crypto_3_MIT)(64bit) for package: 1:openssl-libs-1.0.2k-12.el7.ppc64le --> Processing Dependency: libkrb5.so.3()(64bit) for package: 1:openssl-libs-1.0.2k-12.el7.ppc64le --> Processing Dependency: libk5crypto.so.3()(64bit) for package: 1:openssl-libs-1.0.2k-12.el7.ppc64le --> Processing Dependency: libgssapi_krb5.so.2()(64bit) for package: 1:openssl-libs-1.0.2k-12.el7.ppc64le --> Processing Dependency: libcom_err.so.2()(64bit) for package: 1:openssl-libs-1.0.2k-12.el7.ppc64le ---> Package pam.ppc64le 0:1.1.8-22.el7 will be installed --> Processing Dependency: libpwquality >= 0.9.9 for package: pam-1.1.8-22.el7.ppc64le --> Processing Dependency: cracklib-dicts >= 2.8 for package: pam-1.1.8-22.el7.ppc64le --> Processing Dependency: libcrack.so.2()(64bit) for package: pam-1.1.8-22.el7.ppc64le ---> Package pcre.ppc64le 0:8.32-17.el7 will be installed ---> Package perl.ppc64le 4:5.16.3-292.el7 will be installed --> Processing Dependency: perl-libs = 4:5.16.3-292.el7 for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Socket) >= 1.3 for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Scalar::Util) >= 1.10 for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl-macros for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl-libs for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(threads::shared) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(constant) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Time::Local) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Time::HiRes) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Storable) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Socket) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Scalar::Util) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Pod::Simple::XHTML) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Pod::Simple::Search) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Filter::Util::Call) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(File::Spec::Unix) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(File::Spec::Functions) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(File::Spec) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(File::Path) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Exporter) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Cwd) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: perl(Carp) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: libperl.so()(64bit) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: libgdbm_compat.so.4()(64bit) for package: 4:perl-5.16.3-292.el7.ppc64le --> Processing Dependency: libgdbm.so.4()(64bit) for package: 4:perl-5.16.3-292.el7.ppc64le ---> Package perl-File-Temp.noarch 0:0.23.01-3.el7 will be installed ---> Package perl-Getopt-Long.noarch 0:2.40-3.el7 will be installed --> Processing Dependency: perl(Pod::Usage) >= 1.14 for package: perl-Getopt-Long-2.40-3.el7.noarch --> Processing Dependency: perl(Text::ParseWords) for package: perl-Getopt-Long-2.40-3.el7.noarch ---> Package perl-Thread-Queue.noarch 0:3.02-2.el7 will be installed ---> Package perl-srpm-macros.noarch 0:1-8.el7 will be installed ---> Package perl-threads.ppc64le 0:1.87-4.el7 will be installed ---> Package pkgconfig.ppc64le 1:0.27.1-4.el7 will be installed ---> Package popt.ppc64le 0:1.13-16.el7 will be installed ---> Package python-rpm-macros.noarch 0:3-22.el7 will be installed ---> Package python-srpm-macros.noarch 0:3-22.el7 will be installed ---> Package python2-rpm-macros.noarch 0:3-22.el7 will be installed ---> Package rpm.ppc64le 0:4.11.3-32.el7 will be installed --> Processing Dependency: curl for package: rpm-4.11.3-32.el7.ppc64le --> Processing Dependency: /usr/bin/db_stat for package: rpm-4.11.3-32.el7.ppc64le ---> Package rpm-build-libs.ppc64le 0:4.11.3-32.el7 will be installed --> Processing Dependency: /usr/bin/gpg2 for package: rpm-build-libs-4.11.3-32.el7.ppc64le ---> Package rpm-libs.ppc64le 0:4.11.3-32.el7 will be installed ---> Package setup.noarch 0:2.8.71-9.el7 will be installed ---> Package systemd-libs.ppc64le 0:219-57.el7_5.3 will be installed --> Processing Dependency: libgcrypt.so.11(GCRYPT_1.2)(64bit) for package: systemd-libs-219-57.el7_5.3.ppc64le --> Processing Dependency: liblz4.so.1()(64bit) for package: systemd-libs-219-57.el7_5.3.ppc64le --> Processing Dependency: libgpg-error.so.0()(64bit) for package: systemd-libs-219-57.el7_5.3.ppc64le --> Processing Dependency: libgcrypt.so.11()(64bit) for package: systemd-libs-219-57.el7_5.3.ppc64le ---> Package xz-libs.ppc64le 0:5.2.2-1.el7 will be installed ---> Package zip.ppc64le 0:3.0-11.el7 will be installed ---> Package zlib.ppc64le 0:1.2.7-17.el7 will be installed --> Running transaction check ---> Package basesystem.noarch 0:10.0-7.el7.centos will be installed ---> Package ca-certificates.noarch 0:2018.2.22-70.0.el7_5 will be installed --> Processing Dependency: p11-kit-trust >= 0.23.5 for package: ca-certificates-2018.2.22-70.0.el7_5.noarch --> Processing Dependency: p11-kit >= 0.23.5 for package: ca-certificates-2018.2.22-70.0.el7_5.noarch ---> Package chkconfig.ppc64le 0:1.7.4-1.el7 will be installed ---> Package cracklib.ppc64le 0:2.9.0-11.el7 will be installed ---> Package cracklib-dicts.ppc64le 0:2.9.0-11.el7 will be installed ---> Package curl.ppc64le 0:7.29.0-46.el7 will be installed --> Processing Dependency: libcurl = 7.29.0-46.el7 for package: curl-7.29.0-46.el7.ppc64le --> Processing Dependency: libcurl.so.4()(64bit) for package: curl-7.29.0-46.el7.ppc64le ---> Package elfutils-libs.ppc64le 0:0.170-4.el7 will be installed --> Processing Dependency: default-yama-scope for package: elfutils-libs-0.170-4.el7.ppc64le ---> Package expat.ppc64le 0:2.1.0-10.el7_3 will be installed ---> Package filesystem.ppc64le 0:3.2-25.el7 will be installed ---> Package gdbm.ppc64le 0:1.10-8.el7 will be installed ---> Package glib2.ppc64le 0:2.54.2-2.el7 will be installed --> Processing Dependency: shared-mime-info for package: glib2-2.54.2-2.el7.ppc64le --> Processing Dependency: libffi.so.6()(64bit) for package: glib2-2.54.2-2.el7.ppc64le ---> Package glibc-common.ppc64le 0:2.17-222.el7 will be installed --> Processing Dependency: tzdata >= 2003a for package: glibc-common-2.17-222.el7.ppc64le ---> Package glibc-headers.ppc64le 0:2.17-222.el7 will be installed --> Processing Dependency: kernel-headers >= 2.2.1 for package: glibc-headers-2.17-222.el7.ppc64le --> Processing Dependency: kernel-headers for package: glibc-headers-2.17-222.el7.ppc64le ---> Package gnupg2.ppc64le 0:2.0.22-5.el7_5 will be installed --> Processing Dependency: pinentry for package: gnupg2-2.0.22-5.el7_5.ppc64le --> Processing Dependency: libassuan.so.0(LIBASSUAN_1.0)(64bit) for package: gnupg2-2.0.22-5.el7_5.ppc64le --> Processing Dependency: libpth.so.20()(64bit) for package: gnupg2-2.0.22-5.el7_5.ppc64le --> Processing Dependency: libassuan.so.0()(64bit) for package: gnupg2-2.0.22-5.el7_5.ppc64le ---> Package krb5-libs.ppc64le 0:1.15.1-19.el7 will be installed --> Processing Dependency: keyutils-libs >= 1.5.8 for package: krb5-libs-1.15.1-19.el7.ppc64le --> Processing Dependency: libkeyutils.so.1(KEYUTILS_1.5)(64bit) for package: krb5-libs-1.15.1-19.el7.ppc64le --> Processing Dependency: libkeyutils.so.1(KEYUTILS_1.0)(64bit) for package: krb5-libs-1.15.1-19.el7.ppc64le --> Processing Dependency: libkeyutils.so.1(KEYUTILS_0.3)(64bit) for package: krb5-libs-1.15.1-19.el7.ppc64le --> Processing Dependency: libverto.so.1()(64bit) for package: krb5-libs-1.15.1-19.el7.ppc64le --> Processing Dependency: libkeyutils.so.1()(64bit) for package: krb5-libs-1.15.1-19.el7.ppc64le ---> Package libcom_err.ppc64le 0:1.42.9-12.el7_5 will be installed ---> Package libdb-utils.ppc64le 0:5.3.21-24.el7 will be installed ---> Package libgcrypt.ppc64le 0:1.5.3-14.el7 will be installed ---> Package libgpg-error.ppc64le 0:1.12-3.el7 will be installed ---> Package libpwquality.ppc64le 0:1.2.3-5.el7 will be installed ---> Package libsepol.ppc64le 0:2.5-8.1.el7 will be installed ---> Package lz4.ppc64le 0:1.7.5-2.el7 will be installed ---> Package ncurses-base.noarch 0:5.9-14.20130511.el7_4 will be installed ---> Package nspr.ppc64le 0:4.19.0-1.el7_5 will be installed ---> Package nss-pem.ppc64le 0:1.0.3-4.el7 will be installed ---> Package nss-softokn.ppc64le 0:3.36.0-5.el7_5 will be installed --> Processing Dependency: libsqlite3.so.0()(64bit) for package: nss-softokn-3.36.0-5.el7_5.ppc64le ---> Package nss-softokn-freebl.ppc64le 0:3.36.0-5.el7_5 will be installed ---> Package nss-sysinit.ppc64le 0:3.36.0-7.el7_5 will be installed ---> Package nss-util.ppc64le 0:3.36.0-1.el7_5 will be installed ---> Package openldap.ppc64le 0:2.4.44-15.el7_5 will be installed --> Processing Dependency: nss-tools for package: openldap-2.4.44-15.el7_5.ppc64le --> Processing Dependency: libsasl2.so.3()(64bit) for package: openldap-2.4.44-15.el7_5.ppc64le ---> Package perl-Carp.noarch 0:1.26-244.el7 will be installed ---> Package perl-Exporter.noarch 0:5.68-3.el7 will be installed ---> Package perl-File-Path.noarch 0:2.09-2.el7 will be installed ---> Package perl-Filter.ppc64le 0:1.49-3.el7 will be installed ---> Package perl-PathTools.ppc64le 0:3.40-5.el7 will be installed ---> Package perl-Pod-Simple.noarch 1:3.28-4.el7 will be installed --> Processing Dependency: perl(Pod::Escapes) >= 1.04 for package: 1:perl-Pod-Simple-3.28-4.el7.noarch --> Processing Dependency: perl(Encode) for package: 1:perl-Pod-Simple-3.28-4.el7.noarch ---> Package perl-Pod-Usage.noarch 0:1.63-3.el7 will be installed --> Processing Dependency: perl(Pod::Text) >= 3.15 for package: perl-Pod-Usage-1.63-3.el7.noarch --> Processing Dependency: perl-Pod-Perldoc for package: perl-Pod-Usage-1.63-3.el7.noarch ---> Package perl-Scalar-List-Utils.ppc64le 0:1.27-248.el7 will be installed ---> Package perl-Socket.ppc64le 0:2.010-4.el7 will be installed ---> Package perl-Storable.ppc64le 0:2.45-3.el7 will be installed ---> Package perl-Text-ParseWords.noarch 0:3.29-4.el7 will be installed ---> Package perl-Time-HiRes.ppc64le 4:1.9725-3.el7 will be installed ---> Package perl-Time-Local.noarch 0:1.2300-2.el7 will be installed ---> Package perl-constant.noarch 0:1.27-2.el7 will be installed ---> Package perl-libs.ppc64le 4:5.16.3-292.el7 will be installed ---> Package perl-macros.ppc64le 4:5.16.3-292.el7 will be installed ---> Package perl-threads-shared.ppc64le 0:1.43-6.el7 will be installed ---> Package python-libs.ppc64le 0:2.7.5-69.el7_5 will be installed ---> Package readline.ppc64le 0:6.2-10.el7 will be installed ---> Package ustr.ppc64le 0:1.0.4-16.el7 will be installed --> Running transaction check ---> Package cyrus-sasl-lib.ppc64le 0:2.1.26-23.el7 will be installed ---> Package elfutils-default-yama-scope.noarch 0:0.170-4.el7 will be installed --> Processing Dependency: systemd for package: elfutils-default-yama-scope-0.170-4.el7.noarch --> Processing Dependency: systemd for package: elfutils-default-yama-scope-0.170-4.el7.noarch ---> Package kernel-headers.ppc64le 0:3.10.0-862.14.4.el7 will be installed ---> Package keyutils-libs.ppc64le 0:1.5.8-3.el7 will be installed ---> Package libassuan.ppc64le 0:2.1.0-3.el7 will be installed ---> Package libcurl.ppc64le 0:7.29.0-46.el7 will be installed --> Processing Dependency: libssh2(ppc-64) >= 1.4.3 for package: libcurl-7.29.0-46.el7.ppc64le --> Processing Dependency: libidn.so.11(LIBIDN_1.0)(64bit) for package: libcurl-7.29.0-46.el7.ppc64le --> Processing Dependency: libssh2.so.1()(64bit) for package: libcurl-7.29.0-46.el7.ppc64le --> Processing Dependency: libidn.so.11()(64bit) for package: libcurl-7.29.0-46.el7.ppc64le ---> Package libffi.ppc64le 0:3.0.13-18.el7 will be installed ---> Package libverto.ppc64le 0:0.2.5-4.el7 will be installed ---> Package nss-tools.ppc64le 0:3.36.0-7.el7_5 will be installed ---> Package p11-kit.ppc64le 0:0.23.5-3.el7 will be installed ---> Package p11-kit-trust.ppc64le 0:0.23.5-3.el7 will be installed --> Processing Dependency: libtasn1.so.6(LIBTASN1_0_3)(64bit) for package: p11-kit-trust-0.23.5-3.el7.ppc64le --> Processing Dependency: libtasn1.so.6()(64bit) for package: p11-kit-trust-0.23.5-3.el7.ppc64le ---> Package perl-Encode.ppc64le 0:2.51-7.el7 will be installed ---> Package perl-Pod-Escapes.noarch 1:1.04-292.el7 will be installed ---> Package perl-Pod-Perldoc.noarch 0:3.20-4.el7 will be installed --> Processing Dependency: perl(parent) for package: perl-Pod-Perldoc-3.20-4.el7.noarch --> Processing Dependency: perl(HTTP::Tiny) for package: perl-Pod-Perldoc-3.20-4.el7.noarch --> Processing Dependency: groff-base for package: perl-Pod-Perldoc-3.20-4.el7.noarch ---> Package perl-podlators.noarch 0:2.5.1-3.el7 will be installed ---> Package pinentry.ppc64le 0:0.8.1-17.el7 will be installed ---> Package pth.ppc64le 0:2.0.7-23.el7 will be installed ---> Package shared-mime-info.ppc64le 0:1.8-4.el7 will be installed --> Processing Dependency: libxml2.so.2(LIBXML2_2.4.30)(64bit) for package: shared-mime-info-1.8-4.el7.ppc64le --> Processing Dependency: libxml2.so.2()(64bit) for package: shared-mime-info-1.8-4.el7.ppc64le ---> Package sqlite.ppc64le 0:3.7.17-8.el7 will be installed ---> Package tzdata.noarch 0:2018f-2.el7 will be installed --> Running transaction check ---> Package groff-base.ppc64le 0:1.22.2-8.el7 will be installed ---> Package libidn.ppc64le 0:1.28-4.el7 will be installed ---> Package libssh2.ppc64le 0:1.4.3-10.el7_2.1 will be installed ---> Package libtasn1.ppc64le 0:4.10-1.el7 will be installed ---> Package libxml2.ppc64le 0:2.9.1-6.el7_2.3 will be installed ---> Package perl-HTTP-Tiny.noarch 0:0.033-3.el7 will be installed ---> Package perl-parent.noarch 1:0.225-244.el7 will be installed ---> Package systemd.ppc64le 0:219-57.el7_5.3 will be installed --> Processing Dependency: kmod >= 18-4 for package: systemd-219-57.el7_5.3.ppc64le --> Processing Dependency: libkmod.so.2(LIBKMOD_5)(64bit) for package: systemd-219-57.el7_5.3.ppc64le --> Processing Dependency: libcryptsetup.so.4(CRYPTSETUP_1.0)(64bit) for package: systemd-219-57.el7_5.3.ppc64le --> Processing Dependency: dbus for package: systemd-219-57.el7_5.3.ppc64le --> Processing Dependency: acl for package: systemd-219-57.el7_5.3.ppc64le --> Processing Dependency: libqrencode.so.3()(64bit) for package: systemd-219-57.el7_5.3.ppc64le --> Processing Dependency: libkmod.so.2()(64bit) for package: systemd-219-57.el7_5.3.ppc64le --> Processing Dependency: libcryptsetup.so.4()(64bit) for package: systemd-219-57.el7_5.3.ppc64le --> Running transaction check ---> Package acl.ppc64le 0:2.2.51-14.el7 will be installed ---> Package cryptsetup-libs.ppc64le 0:1.7.4-4.el7 will be installed --> Processing Dependency: libdevmapper.so.1.02(DM_1_02_97)(64bit) for package: cryptsetup-libs-1.7.4-4.el7.ppc64le --> Processing Dependency: libdevmapper.so.1.02(Base)(64bit) for package: cryptsetup-libs-1.7.4-4.el7.ppc64le --> Processing Dependency: libdevmapper.so.1.02()(64bit) for package: cryptsetup-libs-1.7.4-4.el7.ppc64le ---> Package dbus.ppc64le 1:1.10.24-7.el7 will be installed --> Processing Dependency: dbus-libs(ppc-64) = 1:1.10.24-7.el7 for package: 1:dbus-1.10.24-7.el7.ppc64le --> Processing Dependency: libdbus-1.so.3(LIBDBUS_PRIVATE_1.10.24)(64bit) for package: 1:dbus-1.10.24-7.el7.ppc64le --> Processing Dependency: libdbus-1.so.3(LIBDBUS_1_3)(64bit) for package: 1:dbus-1.10.24-7.el7.ppc64le --> Processing Dependency: libdbus-1.so.3()(64bit) for package: 1:dbus-1.10.24-7.el7.ppc64le ---> Package kmod.ppc64le 0:20-21.el7 will be installed --> Processing Dependency: dracut for package: kmod-20-21.el7.ppc64le ---> Package kmod-libs.ppc64le 0:20-21.el7 will be installed ---> Package qrencode-libs.ppc64le 0:3.4.1-3.el7 will be installed --> Running transaction check ---> Package dbus-libs.ppc64le 1:1.10.24-7.el7 will be installed ---> Package device-mapper-libs.ppc64le 7:1.02.146-4.el7 will be installed --> Processing Dependency: device-mapper = 7:1.02.146-4.el7 for package: 7:device-mapper-libs-1.02.146-4.el7.ppc64le ---> Package dracut.ppc64le 0:033-535.el7_5.1 will be installed --> Processing Dependency: procps-ng for package: dracut-033-535.el7_5.1.ppc64le --> Processing Dependency: kpartx for package: dracut-033-535.el7_5.1.ppc64le --> Processing Dependency: hardlink for package: dracut-033-535.el7_5.1.ppc64le --> Running transaction check ---> Package device-mapper.ppc64le 7:1.02.146-4.el7 will be installed ---> Package hardlink.ppc64le 1:1.0-19.el7 will be installed ---> Package kpartx.ppc64le 0:0.4.9-119.el7_5.1 will be installed ---> Package procps-ng.ppc64le 0:3.3.10-17.el7_5.2 will be installed --> Finished Dependency Resolution Dependencies Resolved ================================================================================ Package Arch Version Repository Size ================================================================================ Installing for group install "Buildsystem building group": bash ppc64le 4.2.46-30.el7 base 1.0 M bzip2 ppc64le 1.0.6-13.el7 base 54 k coreutils ppc64le 8.22-21.el7 base 3.3 M cpio ppc64le 2.11-27.el7 base 211 k diffutils ppc64le 3.3-4.el7 base 324 k epel-release noarch 7-11 epel 15 k epel-rpm-macros noarch 7-19 epel 13 k findutils ppc64le 1:4.5.11-5.el7 base 563 k gawk ppc64le 4.0.2-4.el7_3.1 base 859 k gcc ppc64le 4.8.5-28.el7_5.1 updates 15 M gcc-c++ ppc64le 4.8.5-28.el7_5.1 updates 8.3 M grep ppc64le 2.20-3.el7 base 345 k gzip ppc64le 1.5-10.el7 base 129 k info ppc64le 5.1-5.el7 base 235 k make ppc64le 1:3.82-23.el7 base 423 k patch ppc64le 2.7.1-10.el7_5 updates 112 k redhat-rpm-config noarch 9.1.0-80.el7.centos base 79 k rpm-build ppc64le 4.11.3-32.el7 base 147 k sed ppc64le 4.2.2-5.el7 base 232 k shadow-utils ppc64le 2:4.1.5.1-24.el7 base 1.1 M tar ppc64le 2:1.26-34.el7 base 850 k unzip ppc64le 6.0-19.el7 base 170 k util-linux ppc64le 2.23.2-52.el7_5.1 updates 2.0 M which ppc64le 2.20-7.el7 base 41 k xz ppc64le 5.2.2-1.el7 base 230 k Installing for dependencies: acl ppc64le 2.2.51-14.el7 base 82 k audit-libs ppc64le 2.8.1-3.el7_5.1 updates 99 k basesystem noarch 10.0-7.el7.centos base 5.0 k binutils ppc64le 2.27-28.base.el7_5.1 updates 3.7 M bzip2-libs ppc64le 1.0.6-13.el7 base 47 k ca-certificates noarch 2018.2.22-70.0.el7_5 updates 392 k centos-release ppc64le 7-5.1804.5.el7.centos.p updates 26 k chkconfig ppc64le 1.7.4-1.el7 base 182 k cpp ppc64le 4.8.5-28.el7_5.1 updates 6.9 M cracklib ppc64le 2.9.0-11.el7 base 80 k cracklib-dicts ppc64le 2.9.0-11.el7 base 3.6 M cryptsetup-libs ppc64le 1.7.4-4.el7 base 223 k curl ppc64le 7.29.0-46.el7 base 268 k cyrus-sasl-lib ppc64le 2.1.26-23.el7 base 158 k dbus ppc64le 1:1.10.24-7.el7 base 247 k dbus-libs ppc64le 1:1.10.24-7.el7 base 171 k device-mapper ppc64le 7:1.02.146-4.el7 base 287 k device-mapper-libs ppc64le 7:1.02.146-4.el7 base 314 k dracut ppc64le 033-535.el7_5.1 updates 326 k dwz ppc64le 0.11-3.el7 base 99 k elfutils ppc64le 0.170-4.el7 base 281 k elfutils-default-yama-scope noarch 0.170-4.el7 base 31 k elfutils-libelf ppc64le 0.170-4.el7 base 197 k elfutils-libs ppc64le 0.170-4.el7 base 274 k expat ppc64le 2.1.0-10.el7_3 base 79 k file ppc64le 5.11-33.el7 base 57 k file-libs ppc64le 5.11-33.el7 base 341 k filesystem ppc64le 3.2-25.el7 base 1.0 M gdb ppc64le 7.6.1-110.el7 base 2.3 M gdbm ppc64le 1.10-8.el7 base 71 k glib2 ppc64le 2.54.2-2.el7 base 2.4 M glibc ppc64le 2.17-222.el7 base 3.8 M glibc-common ppc64le 2.17-222.el7 base 12 M glibc-devel ppc64le 2.17-222.el7 base 1.1 M glibc-headers ppc64le 2.17-222.el7 base 667 k gmp ppc64le 1:6.0.0-15.el7 base 283 k gnupg2 ppc64le 2.0.22-5.el7_5 updates 1.5 M groff-base ppc64le 1.22.2-8.el7 base 962 k hardlink ppc64le 1:1.0-19.el7 base 14 k kernel-headers ppc64le 3.10.0-862.14.4.el7 updates 7.1 M keyutils-libs ppc64le 1.5.8-3.el7 base 25 k kmod ppc64le 20-21.el7 base 122 k kmod-libs ppc64le 20-21.el7 base 51 k kpartx ppc64le 0.4.9-119.el7_5.1 updates 76 k krb5-libs ppc64le 1.15.1-19.el7 updates 757 k libacl ppc64le 2.2.51-14.el7 base 28 k libassuan ppc64le 2.1.0-3.el7 base 63 k libatomic ppc64le 4.8.5-28.el7_5.1 updates 48 k libattr ppc64le 2.4.46-13.el7 base 18 k libblkid ppc64le 2.23.2-52.el7_5.1 updates 181 k libcap ppc64le 2.22-9.el7 base 48 k libcap-ng ppc64le 0.7.5-4.el7 base 25 k libcom_err ppc64le 1.42.9-12.el7_5 updates 41 k libcurl ppc64le 7.29.0-46.el7 base 219 k libdb ppc64le 5.3.21-24.el7 base 714 k libdb-utils ppc64le 5.3.21-24.el7 base 134 k libffi ppc64le 3.0.13-18.el7 base 30 k libgcc ppc64le 4.8.5-28.el7_5.1 updates 94 k libgcrypt ppc64le 1.5.3-14.el7 base 283 k libgomp ppc64le 4.8.5-28.el7_5.1 updates 164 k libgpg-error ppc64le 1.12-3.el7 base 87 k libidn ppc64le 1.28-4.el7 base 209 k libmount ppc64le 2.23.2-52.el7_5.1 updates 179 k libmpc ppc64le 1.0.1-3.el7 base 51 k libpwquality ppc64le 1.2.3-5.el7 base 85 k libselinux ppc64le 2.5-12.el7 base 165 k libsemanage ppc64le 2.5-11.el7 base 150 k libsepol ppc64le 2.5-8.1.el7 base 299 k libssh2 ppc64le 1.4.3-10.el7_2.1 base 135 k libstdc++ ppc64le 4.8.5-28.el7_5.1 updates 340 k libstdc++-devel ppc64le 4.8.5-28.el7_5.1 updates 1.5 M libtasn1 ppc64le 4.10-1.el7 base 321 k libuser ppc64le 0.60-9.el7 base 400 k libutempter ppc64le 1.1.6-4.el7 base 25 k libuuid ppc64le 2.23.2-52.el7_5.1 updates 81 k libverto ppc64le 0.2.5-4.el7 base 16 k libxml2 ppc64le 2.9.1-6.el7_2.3 base 766 k lua ppc64le 5.1.4-15.el7 base 200 k lz4 ppc64le 1.7.5-2.el7 base 97 k mpfr ppc64le 3.1.1-4.el7 base 210 k ncurses ppc64le 5.9-14.20130511.el7_4 base 304 k ncurses-base noarch 5.9-14.20130511.el7_4 base 68 k ncurses-libs ppc64le 5.9-14.20130511.el7_4 base 317 k nspr ppc64le 4.19.0-1.el7_5 updates 130 k nss ppc64le 3.36.0-7.el7_5 updates 843 k nss-pem ppc64le 1.0.3-4.el7 base 72 k nss-softokn ppc64le 3.36.0-5.el7_5 updates 318 k nss-softokn-freebl ppc64le 3.36.0-5.el7_5 updates 223 k nss-sysinit ppc64le 3.36.0-7.el7_5 updates 62 k nss-tools ppc64le 3.36.0-7.el7_5 updates 515 k nss-util ppc64le 3.36.0-1.el7_5 updates 81 k openldap ppc64le 2.4.44-15.el7_5 updates 352 k openssl-libs ppc64le 1:1.0.2k-12.el7 base 1.1 M p11-kit ppc64le 0.23.5-3.el7 base 243 k p11-kit-trust ppc64le 0.23.5-3.el7 base 130 k pam ppc64le 1.1.8-22.el7 base 742 k pcre ppc64le 8.32-17.el7 base 316 k perl ppc64le 4:5.16.3-292.el7 base 7.9 M perl-Carp noarch 1.26-244.el7 base 19 k perl-Encode ppc64le 2.51-7.el7 base 1.5 M perl-Exporter noarch 5.68-3.el7 base 28 k perl-File-Path noarch 2.09-2.el7 base 26 k perl-File-Temp noarch 0.23.01-3.el7 base 56 k perl-Filter ppc64le 1.49-3.el7 base 77 k perl-Getopt-Long noarch 2.40-3.el7 base 56 k perl-HTTP-Tiny noarch 0.033-3.el7 base 38 k perl-PathTools ppc64le 3.40-5.el7 base 82 k perl-Pod-Escapes noarch 1:1.04-292.el7 base 51 k perl-Pod-Perldoc noarch 3.20-4.el7 base 87 k perl-Pod-Simple noarch 1:3.28-4.el7 base 216 k perl-Pod-Usage noarch 1.63-3.el7 base 27 k perl-Scalar-List-Utils ppc64le 1.27-248.el7 base 36 k perl-Socket ppc64le 2.010-4.el7 base 48 k perl-Storable ppc64le 2.45-3.el7 base 76 k perl-Text-ParseWords noarch 3.29-4.el7 base 14 k perl-Thread-Queue noarch 3.02-2.el7 base 17 k perl-Time-HiRes ppc64le 4:1.9725-3.el7 base 45 k perl-Time-Local noarch 1.2300-2.el7 base 24 k perl-constant noarch 1.27-2.el7 base 19 k perl-libs ppc64le 4:5.16.3-292.el7 base 678 k perl-macros ppc64le 4:5.16.3-292.el7 base 43 k perl-parent noarch 1:0.225-244.el7 base 12 k perl-podlators noarch 2.5.1-3.el7 base 112 k perl-srpm-macros noarch 1-8.el7 base 4.6 k perl-threads ppc64le 1.87-4.el7 base 49 k perl-threads-shared ppc64le 1.43-6.el7 base 39 k pinentry ppc64le 0.8.1-17.el7 base 74 k pkgconfig ppc64le 1:0.27.1-4.el7 base 54 k popt ppc64le 1.13-16.el7 base 42 k procps-ng ppc64le 3.3.10-17.el7_5.2 updates 293 k pth ppc64le 2.0.7-23.el7 base 91 k python-libs ppc64le 2.7.5-69.el7_5 updates 5.8 M python-rpm-macros noarch 3-22.el7 epel 7.5 k python-srpm-macros noarch 3-22.el7 epel 7.0 k python2-rpm-macros noarch 3-22.el7 epel 6.3 k qrencode-libs ppc64le 3.4.1-3.el7 base 51 k readline ppc64le 6.2-10.el7 base 196 k rpm ppc64le 4.11.3-32.el7 base 1.2 M rpm-build-libs ppc64le 4.11.3-32.el7 base 105 k rpm-libs ppc64le 4.11.3-32.el7 base 281 k setup noarch 2.8.71-9.el7 base 166 k shared-mime-info ppc64le 1.8-4.el7 base 312 k sqlite ppc64le 3.7.17-8.el7 base 401 k systemd ppc64le 219-57.el7_5.3 updates 5.2 M systemd-libs ppc64le 219-57.el7_5.3 updates 405 k tzdata noarch 2018f-2.el7 updates 484 k ustr ppc64le 1.0.4-16.el7 base 91 k xz-libs ppc64le 5.2.2-1.el7 base 120 k zip ppc64le 3.0-11.el7 base 261 k zlib ppc64le 1.2.7-17.el7 base 96 k Transaction Summary ================================================================================ Install 25 Packages (+150 Dependent packages) Total download size: 127 M Installed size: 523 M Downloading packages: warning: /var/lib/mock/830446-epel-7-ppc64le-1543326543.950485/root/var/cache/yum/base/packages/basesystem-10.0-7.el7.centos.noarch.rpm: Header V3 RSA/SHA256 Signature, key ID f4a80eb5: NOKEY Public key for basesystem-10.0-7.el7.centos.noarch.rpm is not installed (1/175): basesystem-10.0-7.el7.centos.noarch.rpm | 5.0 kB 00:00 (2/175): acl-2.2.51-14.el7.ppc64le.rpm | 82 kB 00:00 warning: /var/lib/mock/830446-epel-7-ppc64le-1543326543.950485/root/var/cache/yum/updates/packages/audit-libs-2.8.1-3.el7_5.1.ppc64le.rpm: Header V3 RSA/SHA256 Signature, key ID f533f4fa: NOKEY Public key for audit-libs-2.8.1-3.el7_5.1.ppc64le.rpm is not installed (3/175): audit-libs-2.8.1-3.el7_5.1.ppc64le.rpm | 99 kB 00:00 (4/175): bzip2-1.0.6-13.el7.ppc64le.rpm | 54 kB 00:00 (5/175): bzip2-libs-1.0.6-13.el7.ppc64le.rpm | 47 kB 00:00 (6/175): bash-4.2.46-30.el7.ppc64le.rpm | 1.0 MB 00:00 (7/175): ca-certificates-2018.2.22-70.0.el7_5.noarch.rpm | 392 kB 00:00 (8/175): centos-release-7-5.1804.5.el7.centos.p.ppc64le.rpm | 26 kB 00:00 (9/175): binutils-2.27-28.base.el7_5.1.ppc64le.rpm | 3.7 MB 00:00 (10/175): chkconfig-1.7.4-1.el7.ppc64le.rpm | 182 kB 00:00 (11/175): cpio-2.11-27.el7.ppc64le.rpm | 211 kB 00:00 (12/175): cracklib-2.9.0-11.el7.ppc64le.rpm | 80 kB 00:00 (13/175): coreutils-8.22-21.el7.ppc64le.rpm | 3.3 MB 00:00 (14/175): cryptsetup-libs-1.7.4-4.el7.ppc64le.rpm | 223 kB 00:00 (15/175): curl-7.29.0-46.el7.ppc64le.rpm | 268 kB 00:00 (16/175): cyrus-sasl-lib-2.1.26-23.el7.ppc64le.rpm | 158 kB 00:00 (17/175): dbus-1.10.24-7.el7.ppc64le.rpm | 247 kB 00:00 (18/175): dbus-libs-1.10.24-7.el7.ppc64le.rpm | 171 kB 00:00 (19/175): device-mapper-1.02.146-4.el7.ppc64le.rpm | 287 kB 00:00 (20/175): device-mapper-libs-1.02.146-4.el7.ppc64le.rpm | 314 kB 00:00 (21/175): diffutils-3.3-4.el7.ppc64le.rpm | 324 kB 00:00 (22/175): dwz-0.11-3.el7.ppc64le.rpm | 99 kB 00:00 (23/175): elfutils-0.170-4.el7.ppc64le.rpm | 281 kB 00:00 (24/175): cpp-4.8.5-28.el7_5.1.ppc64le.rpm | 6.9 MB 00:01 (25/175): elfutils-default-yama-scope-0.170-4.el7.noarch.rp | 31 kB 00:00 (26/175): dracut-033-535.el7_5.1.ppc64le.rpm | 326 kB 00:00 (27/175): elfutils-libelf-0.170-4.el7.ppc64le.rpm | 197 kB 00:00 (28/175): elfutils-libs-0.170-4.el7.ppc64le.rpm | 274 kB 00:00 Public key for epel-rpm-macros-7-19.noarch.rpm is not installedwarning: /var/lib/mock/830446-epel-7-ppc64le-1543326543.950485/root/var/cache/yum/epel/packages/epel-rpm-macros-7-19.noarch.rpm: Header V3 RSA/SHA256 Signature, key ID 352c64e5: NOKEY (29/175): epel-rpm-macros-7-19.noarch.rpm | 13 kB 00:00 (30/175): epel-release-7-11.noarch.rpm | 15 kB 00:00 (31/175): expat-2.1.0-10.el7_3.ppc64le.rpm | 79 kB 00:00 (32/175): file-5.11-33.el7.ppc64le.rpm | 57 kB 00:00 (33/175): file-libs-5.11-33.el7.ppc64le.rpm | 341 kB 00:00 (34/175): filesystem-3.2-25.el7.ppc64le.rpm | 1.0 MB 00:00 (35/175): cracklib-dicts-2.9.0-11.el7.ppc64le.rpm | 3.6 MB 00:01 (36/175): findutils-4.5.11-5.el7.ppc64le.rpm | 563 kB 00:00 (37/175): gawk-4.0.2-4.el7_3.1.ppc64le.rpm | 859 kB 00:00 (38/175): gdbm-1.10-8.el7.ppc64le.rpm | 71 kB 00:00 (39/175): gdb-7.6.1-110.el7.ppc64le.rpm | 2.3 MB 00:00 (40/175): glib2-2.54.2-2.el7.ppc64le.rpm | 2.4 MB 00:00 (41/175): glibc-2.17-222.el7.ppc64le.rpm | 3.8 MB 00:00 (42/175): glibc-devel-2.17-222.el7.ppc64le.rpm | 1.1 MB 00:00 (43/175): glibc-headers-2.17-222.el7.ppc64le.rpm | 667 kB 00:00 (44/175): gmp-6.0.0-15.el7.ppc64le.rpm | 283 kB 00:00 (45/175): gcc-c++-4.8.5-28.el7_5.1.ppc64le.rpm | 8.3 MB 00:03 (46/175): gnupg2-2.0.22-5.el7_5.ppc64le.rpm | 1.5 MB 00:00 (47/175): glibc-common-2.17-222.el7.ppc64le.rpm | 12 MB 00:02 (48/175): grep-2.20-3.el7.ppc64le.rpm | 345 kB 00:00 (49/175): gzip-1.5-10.el7.ppc64le.rpm | 129 kB 00:00 (50/175): hardlink-1.0-19.el7.ppc64le.rpm | 14 kB 00:00 (51/175): groff-base-1.22.2-8.el7.ppc64le.rpm | 962 kB 00:00 (52/175): info-5.1-5.el7.ppc64le.rpm | 235 kB 00:00 (53/175): keyutils-libs-1.5.8-3.el7.ppc64le.rpm | 25 kB 00:00 (54/175): kmod-20-21.el7.ppc64le.rpm | 122 kB 00:00 (55/175): kmod-libs-20-21.el7.ppc64le.rpm | 51 kB 00:00 (56/175): kernel-headers-3.10.0-862.14.4.el7.ppc64le.rpm | 7.1 MB 00:01 (57/175): kpartx-0.4.9-119.el7_5.1.ppc64le.rpm | 76 kB 00:00 (58/175): krb5-libs-1.15.1-19.el7.ppc64le.rpm | 757 kB 00:00 (59/175): libatomic-4.8.5-28.el7_5.1.ppc64le.rpm | 48 kB 00:00 (60/175): libacl-2.2.51-14.el7.ppc64le.rpm | 28 kB 00:00 (61/175): libattr-2.4.46-13.el7.ppc64le.rpm | 18 kB 00:00 (62/175): libassuan-2.1.0-3.el7.ppc64le.rpm | 63 kB 00:00 (63/175): libcap-ng-0.7.5-4.el7.ppc64le.rpm | 25 kB 00:00 (64/175): libcap-2.22-9.el7.ppc64le.rpm | 48 kB 00:00 (65/175): libblkid-2.23.2-52.el7_5.1.ppc64le.rpm | 181 kB 00:00 (66/175): libcom_err-1.42.9-12.el7_5.ppc64le.rpm | 41 kB 00:00 (67/175): gcc-4.8.5-28.el7_5.1.ppc64le.rpm | 15 MB 00:06 (68/175): libcurl-7.29.0-46.el7.ppc64le.rpm | 219 kB 00:00 (69/175): libdb-utils-5.3.21-24.el7.ppc64le.rpm | 134 kB 00:00 (70/175): libdb-5.3.21-24.el7.ppc64le.rpm | 714 kB 00:00 (71/175): libffi-3.0.13-18.el7.ppc64le.rpm | 30 kB 00:00 (72/175): libgcrypt-1.5.3-14.el7.ppc64le.rpm | 283 kB 00:00 (73/175): libgpg-error-1.12-3.el7.ppc64le.rpm | 87 kB 00:00 (74/175): libidn-1.28-4.el7.ppc64le.rpm | 209 kB 00:00 (75/175): libgcc-4.8.5-28.el7_5.1.ppc64le.rpm | 94 kB 00:00 (76/175): libgomp-4.8.5-28.el7_5.1.ppc64le.rpm | 164 kB 00:00 (77/175): libmount-2.23.2-52.el7_5.1.ppc64le.rpm | 179 kB 00:00 (78/175): libmpc-1.0.1-3.el7.ppc64le.rpm | 51 kB 00:00 (79/175): libpwquality-1.2.3-5.el7.ppc64le.rpm | 85 kB 00:00 (80/175): libselinux-2.5-12.el7.ppc64le.rpm | 165 kB 00:00 (81/175): libsemanage-2.5-11.el7.ppc64le.rpm | 150 kB 00:00 (82/175): libssh2-1.4.3-10.el7_2.1.ppc64le.rpm | 135 kB 00:00 (83/175): libsepol-2.5-8.1.el7.ppc64le.rpm | 299 kB 00:00 (84/175): libtasn1-4.10-1.el7.ppc64le.rpm | 321 kB 00:00 (85/175): libuser-0.60-9.el7.ppc64le.rpm | 400 kB 00:00 (86/175): libutempter-1.1.6-4.el7.ppc64le.rpm | 25 kB 00:00 (87/175): libstdc++-4.8.5-28.el7_5.1.ppc64le.rpm | 340 kB 00:00 (88/175): libuuid-2.23.2-52.el7_5.1.ppc64le.rpm | 81 kB 00:00 (89/175): libverto-0.2.5-4.el7.ppc64le.rpm | 16 kB 00:00 (90/175): libstdc++-devel-4.8.5-28.el7_5.1.ppc64le.rpm | 1.5 MB 00:00 (91/175): lua-5.1.4-15.el7.ppc64le.rpm | 200 kB 00:00 (92/175): lz4-1.7.5-2.el7.ppc64le.rpm | 97 kB 00:00 (93/175): libxml2-2.9.1-6.el7_2.3.ppc64le.rpm | 766 kB 00:00 (94/175): mpfr-3.1.1-4.el7.ppc64le.rpm | 210 kB 00:00 (95/175): make-3.82-23.el7.ppc64le.rpm | 423 kB 00:00 (96/175): ncurses-base-5.9-14.20130511.el7_4.noarch.rpm | 68 kB 00:00 (97/175): ncurses-5.9-14.20130511.el7_4.ppc64le.rpm | 304 kB 00:00 (98/175): nss-pem-1.0.3-4.el7.ppc64le.rpm | 72 kB 00:00 (99/175): ncurses-libs-5.9-14.20130511.el7_4.ppc64le.rpm | 317 kB 00:00 (100/175): nspr-4.19.0-1.el7_5.ppc64le.rpm | 130 kB 00:00 (101/175): nss-softokn-3.36.0-5.el7_5.ppc64le.rpm | 318 kB 00:00 (102/175): nss-3.36.0-7.el7_5.ppc64le.rpm | 843 kB 00:00 (103/175): nss-softokn-freebl-3.36.0-5.el7_5.ppc64le.rpm | 223 kB 00:00 (104/175): nss-sysinit-3.36.0-7.el7_5.ppc64le.rpm | 62 kB 00:00 (105/175): nss-util-3.36.0-1.el7_5.ppc64le.rpm | 81 kB 00:00 (106/175): nss-tools-3.36.0-7.el7_5.ppc64le.rpm | 515 kB 00:00 (107/175): openldap-2.4.44-15.el7_5.ppc64le.rpm | 352 kB 00:00 (108/175): p11-kit-0.23.5-3.el7.ppc64le.rpm | 243 kB 00:00 (109/175): p11-kit-trust-0.23.5-3.el7.ppc64le.rpm | 130 kB 00:00 (110/175): openssl-libs-1.0.2k-12.el7.ppc64le.rpm | 1.1 MB 00:00 (111/175): pam-1.1.8-22.el7.ppc64le.rpm | 742 kB 00:00 (112/175): pcre-8.32-17.el7.ppc64le.rpm | 316 kB 00:00 (113/175): perl-Carp-1.26-244.el7.noarch.rpm | 19 kB 00:00 (114/175): patch-2.7.1-10.el7_5.ppc64le.rpm | 112 kB 00:00 (115/175): perl-Encode-2.51-7.el7.ppc64le.rpm | 1.5 MB 00:00 (116/175): perl-Exporter-5.68-3.el7.noarch.rpm | 28 kB 00:00 (117/175): perl-File-Path-2.09-2.el7.noarch.rpm | 26 kB 00:00 (118/175): perl-File-Temp-0.23.01-3.el7.noarch.rpm | 56 kB 00:00 (119/175): perl-Filter-1.49-3.el7.ppc64le.rpm | 77 kB 00:00 (120/175): perl-Getopt-Long-2.40-3.el7.noarch.rpm | 56 kB 00:00 (121/175): perl-HTTP-Tiny-0.033-3.el7.noarch.rpm | 38 kB 00:00 (122/175): perl-PathTools-3.40-5.el7.ppc64le.rpm | 82 kB 00:00 (123/175): perl-Pod-Escapes-1.04-292.el7.noarch.rpm | 51 kB 00:00 (124/175): perl-Pod-Perldoc-3.20-4.el7.noarch.rpm | 87 kB 00:00 (125/175): perl-Pod-Simple-3.28-4.el7.noarch.rpm | 216 kB 00:00 (126/175): perl-Pod-Usage-1.63-3.el7.noarch.rpm | 27 kB 00:00 (127/175): perl-Scalar-List-Utils-1.27-248.el7.ppc64le.rpm | 36 kB 00:00 (128/175): perl-Socket-2.010-4.el7.ppc64le.rpm | 48 kB 00:00 (129/175): perl-Storable-2.45-3.el7.ppc64le.rpm | 76 kB 00:00 (130/175): perl-Text-ParseWords-3.29-4.el7.noarch.rpm | 14 kB 00:00 (131/175): perl-5.16.3-292.el7.ppc64le.rpm | 7.9 MB 00:01 (132/175): perl-Thread-Queue-3.02-2.el7.noarch.rpm | 17 kB 00:00 (133/175): perl-Time-HiRes-1.9725-3.el7.ppc64le.rpm | 45 kB 00:00 (134/175): perl-Time-Local-1.2300-2.el7.noarch.rpm | 24 kB 00:00 (135/175): perl-constant-1.27-2.el7.noarch.rpm | 19 kB 00:00 (136/175): perl-macros-5.16.3-292.el7.ppc64le.rpm | 43 kB 00:00 (137/175): perl-parent-0.225-244.el7.noarch.rpm | 12 kB 00:00 (138/175): perl-libs-5.16.3-292.el7.ppc64le.rpm | 678 kB 00:00 (139/175): perl-podlators-2.5.1-3.el7.noarch.rpm | 112 kB 00:00 (140/175): perl-srpm-macros-1-8.el7.noarch.rpm | 4.6 kB 00:00 (141/175): perl-threads-1.87-4.el7.ppc64le.rpm | 49 kB 00:00 (142/175): perl-threads-shared-1.43-6.el7.ppc64le.rpm | 39 kB 00:00 (143/175): pinentry-0.8.1-17.el7.ppc64le.rpm | 74 kB 00:00 (144/175): pkgconfig-0.27.1-4.el7.ppc64le.rpm | 54 kB 00:00 (145/175): python-rpm-macros-3-22.el7.noarch.rpm | 7.5 kB 00:00 (146/175): python-srpm-macros-3-22.el7.noarch.rpm | 7.0 kB 00:00 (147/175): popt-1.13-16.el7.ppc64le.rpm | 42 kB 00:00 (148/175): python2-rpm-macros-3-22.el7.noarch.rpm | 6.3 kB 00:00 (149/175): pth-2.0.7-23.el7.ppc64le.rpm | 91 kB 00:00 (150/175): qrencode-libs-3.4.1-3.el7.ppc64le.rpm | 51 kB 00:00 (151/175): readline-6.2-10.el7.ppc64le.rpm | 196 kB 00:00 (152/175): redhat-rpm-config-9.1.0-80.el7.centos.noarch.rpm | 79 kB 00:00 (153/175): rpm-build-4.11.3-32.el7.ppc64le.rpm | 147 kB 00:00 (154/175): rpm-build-libs-4.11.3-32.el7.ppc64le.rpm | 105 kB 00:00 (155/175): rpm-libs-4.11.3-32.el7.ppc64le.rpm | 281 kB 00:00 (156/175): rpm-4.11.3-32.el7.ppc64le.rpm | 1.2 MB 00:00 (157/175): procps-ng-3.3.10-17.el7_5.2.ppc64le.rpm | 293 kB 00:00 (158/175): sed-4.2.2-5.el7.ppc64le.rpm | 232 kB 00:00 (159/175): setup-2.8.71-9.el7.noarch.rpm | 166 kB 00:00 (160/175): shared-mime-info-1.8-4.el7.ppc64le.rpm | 312 kB 00:00 (161/175): shadow-utils-4.1.5.1-24.el7.ppc64le.rpm | 1.1 MB 00:00 (162/175): sqlite-3.7.17-8.el7.ppc64le.rpm | 401 kB 00:00 (163/175): python-libs-2.7.5-69.el7_5.ppc64le.rpm | 5.8 MB 00:01 (164/175): systemd-219-57.el7_5.3.ppc64le.rpm | 5.2 MB 00:01 (165/175): systemd-libs-219-57.el7_5.3.ppc64le.rpm | 405 kB 00:00 (166/175): tzdata-2018f-2.el7.noarch.rpm | 484 kB 00:00 (167/175): unzip-6.0-19.el7.ppc64le.rpm | 170 kB 00:00 (168/175): ustr-1.0.4-16.el7.ppc64le.rpm | 91 kB 00:00 (169/175): tar-1.26-34.el7.ppc64le.rpm | 850 kB 00:00 (170/175): which-2.20-7.el7.ppc64le.rpm | 41 kB 00:00 (171/175): xz-5.2.2-1.el7.ppc64le.rpm | 230 kB 00:00 (172/175): xz-libs-5.2.2-1.el7.ppc64le.rpm | 120 kB 00:00 (173/175): zlib-1.2.7-17.el7.ppc64le.rpm | 96 kB 00:00 (174/175): zip-3.0-11.el7.ppc64le.rpm | 261 kB 00:00 (175/175): util-linux-2.23.2-52.el7_5.1.ppc64le.rpm | 2.0 MB 00:00 -------------------------------------------------------------------------------- Total 7.0 MB/s | 127 MB 00:18 Retrieving key from file:///usr/share/distribution-gpg-keys/centos/RPM-GPG-KEY-CentOS-7 Importing GPG key 0xF4A80EB5: Userid : "CentOS-7 Key (CentOS 7 Official Signing Key) " Fingerprint: 6341 ab27 53d7 8a78 a7c2 7bb1 24c6 a8a7 f4a8 0eb5 From : /usr/share/distribution-gpg-keys/centos/RPM-GPG-KEY-CentOS-7 Retrieving key from file:///usr/share/distribution-gpg-keys/centos//RPM-GPG-KEY-CentOS-SIG-AltArch-7-ppc64le Importing GPG key 0xF533F4FA: Userid : "CentOS AltArch SIG - PowerPC (https://wiki.centos.org/SpecialInterestGroup/AltArch) " Fingerprint: bafa 3436 fc50 768e 3c3c 2e4e a963 bbdb f533 f4fa From : /usr/share/distribution-gpg-keys/centos//RPM-GPG-KEY-CentOS-SIG-AltArch-7-ppc64le Retrieving key from file:///usr/share/distribution-gpg-keys/epel/RPM-GPG-KEY-EPEL-7 Importing GPG key 0x352C64E5: Userid : "Fedora EPEL (7) " Fingerprint: 91e9 7d7c 4a5e 96f1 7f3e 888f 6a2f aea2 352c 64e5 From : /usr/share/distribution-gpg-keys/epel/RPM-GPG-KEY-EPEL-7 Running transaction check Running transaction test Transaction test succeeded Running transaction Installing : libgcc-4.8.5-28.el7_5.1.ppc64le 1/175 Installing : python-srpm-macros-3-22.el7.noarch 2/175 Installing : python-rpm-macros-3-22.el7.noarch 3/175 Installing : tzdata-2018f-2.el7.noarch 4/175 Installing : ncurses-base-5.9-14.20130511.el7_4.noarch 5/175 Installing : ncurses-5.9-14.20130511.el7_4.ppc64le 6/175 Installing : nss-softokn-freebl-3.36.0-5.el7_5.ppc64le 7/175 Installing : bash-4.2.46-30.el7.ppc64le 8/175 Installing : glibc-common-2.17-222.el7.ppc64le 9/175 Installing : chkconfig-1.7.4-1.el7.ppc64le 10/175 Installing : setup-2.8.71-9.el7.noarch 11/175 warning: /etc/hosts created as /etc/hosts.rpmnew Installing : filesystem-3.2-25.el7.ppc64le 12/175 Installing : basesystem-10.0-7.el7.centos.noarch 13/175 Installing : glibc-2.17-222.el7.ppc64le 14/175 Installing : zlib-1.2.7-17.el7.ppc64le 15/175 Installing : nspr-4.19.0-1.el7_5.ppc64le 16/175 Installing : nss-util-3.36.0-1.el7_5.ppc64le 17/175 Installing : libstdc++-4.8.5-28.el7_5.1.ppc64le 18/175 Installing : ncurses-libs-5.9-14.20130511.el7_4.ppc64le 19/175 Installing : info-5.1-5.el7.ppc64le 20/175 Installing : 1:gmp-6.0.0-15.el7.ppc64le 21/175 Installing : popt-1.13-16.el7.ppc64le 22/175 Installing : libattr-2.4.46-13.el7.ppc64le 23/175 Installing : libacl-2.2.51-14.el7.ppc64le 24/175 Installing : libcap-2.22-9.el7.ppc64le 25/175 Installing : libcom_err-1.42.9-12.el7_5.ppc64le 26/175 Installing : libffi-3.0.13-18.el7.ppc64le 27/175 Installing : libsepol-2.5-8.1.el7.ppc64le 28/175 Installing : gawk-4.0.2-4.el7_3.1.ppc64le 29/175 Installing : pcre-8.32-17.el7.ppc64le 30/175 Installing : libselinux-2.5-12.el7.ppc64le 31/175 Installing : sed-4.2.2-5.el7.ppc64le 32/175 Installing : grep-2.20-3.el7.ppc64le 33/175 Installing : p11-kit-0.23.5-3.el7.ppc64le 34/175 Installing : libverto-0.2.5-4.el7.ppc64le 35/175 Installing : libtasn1-4.10-1.el7.ppc64le 36/175 Installing : p11-kit-trust-0.23.5-3.el7.ppc64le 37/175 Installing : ca-certificates-2018.2.22-70.0.el7_5.noarch 38/175 Installing : keyutils-libs-1.5.8-3.el7.ppc64le 39/175 Installing : coreutils-8.22-21.el7.ppc64le 40/175 Installing : centos-release-7-5.1804.5.el7.centos.p.ppc64le 41/175 Installing : 1:openssl-libs-1.0.2k-12.el7.ppc64le 42/175 Installing : krb5-libs-1.15.1-19.el7.ppc64le 43/175 Installing : xz-libs-5.2.2-1.el7.ppc64le 44/175 Installing : bzip2-libs-1.0.6-13.el7.ppc64le 45/175 Installing : elfutils-libelf-0.170-4.el7.ppc64le 46/175 Installing : libdb-5.3.21-24.el7.ppc64le 47/175 Installing : readline-6.2-10.el7.ppc64le 48/175 Installing : libgpg-error-1.12-3.el7.ppc64le 49/175 Installing : libgcrypt-1.5.3-14.el7.ppc64le 50/175 Installing : lua-5.1.4-15.el7.ppc64le 51/175 Installing : gzip-1.5-10.el7.ppc64le 52/175 Installing : mpfr-3.1.1-4.el7.ppc64le 53/175 Installing : libuuid-2.23.2-52.el7_5.1.ppc64le 54/175 Installing : libblkid-2.23.2-52.el7_5.1.ppc64le 55/175 Installing : libmount-2.23.2-52.el7_5.1.ppc64le 56/175 Installing : libmpc-1.0.1-3.el7.ppc64le 57/175 Installing : cracklib-2.9.0-11.el7.ppc64le 58/175 Installing : xz-5.2.2-1.el7.ppc64le 59/175 Installing : 1:findutils-4.5.11-5.el7.ppc64le 60/175 Installing : cpio-2.11-27.el7.ppc64le 61/175 Installing : binutils-2.27-28.base.el7_5.1.ppc64le 62/175 Installing : diffutils-3.3-4.el7.ppc64le 63/175 Installing : file-libs-5.11-33.el7.ppc64le 64/175 Installing : libcap-ng-0.7.5-4.el7.ppc64le 65/175 Installing : audit-libs-2.8.1-3.el7_5.1.ppc64le 66/175 Installing : expat-2.1.0-10.el7_3.ppc64le 67/175 Installing : cracklib-dicts-2.9.0-11.el7.ppc64le 68/175 Installing : sqlite-3.7.17-8.el7.ppc64le 69/175 Installing : nss-softokn-3.36.0-5.el7_5.ppc64le 70/175 Installing : nss-pem-1.0.3-4.el7.ppc64le 71/175 Installing : nss-3.36.0-7.el7_5.ppc64le 72/175 Installing : nss-sysinit-3.36.0-7.el7_5.ppc64le 73/175 Installing : 2:tar-1.26-34.el7.ppc64le 74/175 Installing : lz4-1.7.5-2.el7.ppc64le 75/175 Installing : gdbm-1.10-8.el7.ppc64le 76/175 Installing : python-libs-2.7.5-69.el7_5.ppc64le 77/175 Installing : gdb-7.6.1-110.el7.ppc64le 78/175 Installing : nss-tools-3.36.0-7.el7_5.ppc64le 79/175 Installing : libpwquality-1.2.3-5.el7.ppc64le 80/175 Installing : pam-1.1.8-22.el7.ppc64le 81/175 Installing : file-5.11-33.el7.ppc64le 82/175 Installing : cpp-4.8.5-28.el7_5.1.ppc64le 83/175 Installing : libassuan-2.1.0-3.el7.ppc64le 84/175 Installing : libdb-utils-5.3.21-24.el7.ppc64le 85/175 Installing : cyrus-sasl-lib-2.1.26-23.el7.ppc64le 86/175 Installing : dwz-0.11-3.el7.ppc64le 87/175 Installing : zip-3.0-11.el7.ppc64le 88/175 Installing : unzip-6.0-19.el7.ppc64le 89/175 Installing : bzip2-1.0.6-13.el7.ppc64le 90/175 Installing : kmod-libs-20-21.el7.ppc64le 91/175 Installing : libxml2-2.9.1-6.el7_2.3.ppc64le 92/175 Installing : glib2-2.54.2-2.el7.ppc64le 93/175 Installing : shared-mime-info-1.8-4.el7.ppc64le 94/175 Installing : 1:pkgconfig-0.27.1-4.el7.ppc64le 95/175 Installing : libssh2-1.4.3-10.el7_2.1.ppc64le 96/175 Installing : groff-base-1.22.2-8.el7.ppc64le 97/175 Installing : 1:perl-parent-0.225-244.el7.noarch 98/175 Installing : perl-HTTP-Tiny-0.033-3.el7.noarch 99/175 Installing : perl-podlators-2.5.1-3.el7.noarch 100/175 Installing : perl-Pod-Perldoc-3.20-4.el7.noarch 101/175 Installing : 1:perl-Pod-Escapes-1.04-292.el7.noarch 102/175 Installing : perl-Text-ParseWords-3.29-4.el7.noarch 103/175 Installing : perl-Encode-2.51-7.el7.ppc64le 104/175 Installing : perl-Pod-Usage-1.63-3.el7.noarch 105/175 Installing : 4:perl-libs-5.16.3-292.el7.ppc64le 106/175 Installing : perl-Socket-2.010-4.el7.ppc64le 107/175 Installing : perl-threads-1.87-4.el7.ppc64le 108/175 Installing : perl-Storable-2.45-3.el7.ppc64le 109/175 Installing : perl-Carp-1.26-244.el7.noarch 110/175 Installing : perl-Filter-1.49-3.el7.ppc64le 111/175 Installing : perl-Exporter-5.68-3.el7.noarch 112/175 Installing : perl-constant-1.27-2.el7.noarch 113/175 Installing : 1:perl-Pod-Simple-3.28-4.el7.noarch 114/175 Installing : perl-File-Path-2.09-2.el7.noarch 115/175 Installing : perl-PathTools-3.40-5.el7.ppc64le 116/175 Installing : perl-File-Temp-0.23.01-3.el7.noarch 117/175 Installing : perl-Scalar-List-Utils-1.27-248.el7.ppc64le 118/175 Installing : 4:perl-macros-5.16.3-292.el7.ppc64le 119/175 Installing : perl-Time-Local-1.2300-2.el7.noarch 120/175 Installing : perl-threads-shared-1.43-6.el7.ppc64le 121/175 Installing : 4:perl-Time-HiRes-1.9725-3.el7.ppc64le 122/175 Installing : perl-Getopt-Long-2.40-3.el7.noarch 123/175 Installing : 4:perl-5.16.3-292.el7.ppc64le 124/175 Installing : perl-Thread-Queue-3.02-2.el7.noarch 125/175 Installing : patch-2.7.1-10.el7_5.ppc64le 126/175 Installing : acl-2.2.51-14.el7.ppc64le 127/175 Installing : libgomp-4.8.5-28.el7_5.1.ppc64le 128/175 Installing : libidn-1.28-4.el7.ppc64le 129/175 Installing : libcurl-7.29.0-46.el7.ppc64le 130/175 Installing : curl-7.29.0-46.el7.ppc64le 131/175 Installing : rpm-libs-4.11.3-32.el7.ppc64le 132/175 Installing : rpm-4.11.3-32.el7.ppc64le 133/175 Installing : openldap-2.4.44-15.el7_5.ppc64le 134/175 Installing : libuser-0.60-9.el7.ppc64le 135/175 Installing : pinentry-0.8.1-17.el7.ppc64le 136/175 Installing : libatomic-4.8.5-28.el7_5.1.ppc64le 137/175 Installing : libstdc++-devel-4.8.5-28.el7_5.1.ppc64le 138/175 Installing : ustr-1.0.4-16.el7.ppc64le 139/175 Installing : libsemanage-2.5-11.el7.ppc64le 140/175 Installing : 2:shadow-utils-4.1.5.1-24.el7.ppc64le 141/175 Installing : libutempter-1.1.6-4.el7.ppc64le 142/175 Installing : pth-2.0.7-23.el7.ppc64le 143/175 Installing : gnupg2-2.0.22-5.el7_5.ppc64le 144/175 Installing : rpm-build-libs-4.11.3-32.el7.ppc64le 145/175 Installing : 1:hardlink-1.0-19.el7.ppc64le 146/175 Installing : qrencode-libs-3.4.1-3.el7.ppc64le 147/175 Installing : util-linux-2.23.2-52.el7_5.1.ppc64le 148/175 Installing : procps-ng-3.3.10-17.el7_5.2.ppc64le 149/175 Installing : 7:device-mapper-1.02.146-4.el7.ppc64le 150/175 Installing : kpartx-0.4.9-119.el7_5.1.ppc64le 151/175 Installing : 7:device-mapper-libs-1.02.146-4.el7.ppc64le 152/175 Installing : cryptsetup-libs-1.7.4-4.el7.ppc64le 153/175 Installing : dracut-033-535.el7_5.1.ppc64le 154/175 Installing : kmod-20-21.el7.ppc64le 155/175 Installing : elfutils-libs-0.170-4.el7.ppc64le 156/175 Installing : systemd-libs-219-57.el7_5.3.ppc64le 157/175 Installing : 1:dbus-libs-1.10.24-7.el7.ppc64le 158/175 Installing : systemd-219-57.el7_5.3.ppc64le 159/175 Running in chroot, ignoring request. Installing : 1:dbus-1.10.24-7.el7.ppc64le 160/175 Installing : elfutils-default-yama-scope-0.170-4.el7.noarch 161/175 Installing : elfutils-0.170-4.el7.ppc64le 162/175 Installing : python2-rpm-macros-3-22.el7.noarch 163/175 Installing : perl-srpm-macros-1-8.el7.noarch 164/175 Installing : redhat-rpm-config-9.1.0-80.el7.centos.noarch 165/175 Installing : kernel-headers-3.10.0-862.14.4.el7.ppc64le 166/175 Installing : glibc-headers-2.17-222.el7.ppc64le 167/175 Installing : glibc-devel-2.17-222.el7.ppc64le 168/175 Installing : gcc-4.8.5-28.el7_5.1.ppc64le 169/175 Installing : gcc-c++-4.8.5-28.el7_5.1.ppc64le 170/175 Installing : rpm-build-4.11.3-32.el7.ppc64le 171/175 Installing : epel-rpm-macros-7-19.noarch 172/175 Installing : epel-release-7-11.noarch 173/175 Installing : which-2.20-7.el7.ppc64le 174/175 Installing : 1:make-3.82-23.el7.ppc64le 175/175 Verifying : perl-HTTP-Tiny-0.033-3.el7.noarch 1/175 Verifying : kpartx-0.4.9-119.el7_5.1.ppc64le 2/175 Verifying : libdb-utils-5.3.21-24.el7.ppc64le 3/175 Verifying : rpm-libs-4.11.3-32.el7.ppc64le 4/175 Verifying : perl-PathTools-3.40-5.el7.ppc64le 5/175 Verifying : zip-3.0-11.el7.ppc64le 6/175 Verifying : ustr-1.0.4-16.el7.ppc64le 7/175 Verifying : libuser-0.60-9.el7.ppc64le 8/175 Verifying : lz4-1.7.5-2.el7.ppc64le 9/175 Verifying : perl-Socket-2.010-4.el7.ppc64le 10/175 Verifying : centos-release-7-5.1804.5.el7.centos.p.ppc64le 11/175 Verifying : elfutils-libs-0.170-4.el7.ppc64le 12/175 Verifying : readline-6.2-10.el7.ppc64le 13/175 Verifying : unzip-6.0-19.el7.ppc64le 14/175 Verifying : cracklib-2.9.0-11.el7.ppc64le 15/175 Verifying : 2:shadow-utils-4.1.5.1-24.el7.ppc64le 16/175 Verifying : 1:perl-Pod-Simple-3.28-4.el7.noarch 17/175 Verifying : 7:device-mapper-1.02.146-4.el7.ppc64le 18/175 Verifying : perl-File-Temp-0.23.01-3.el7.noarch 19/175 Verifying : nss-3.36.0-7.el7_5.ppc64le 20/175 Verifying : python-rpm-macros-3-22.el7.noarch 21/175 Verifying : groff-base-1.22.2-8.el7.ppc64le 22/175 Verifying : nspr-4.19.0-1.el7_5.ppc64le 23/175 Verifying : libmount-2.23.2-52.el7_5.1.ppc64le 24/175 Verifying : dwz-0.11-3.el7.ppc64le 25/175 Verifying : libsemanage-2.5-11.el7.ppc64le 26/175 Verifying : pth-2.0.7-23.el7.ppc64le 27/175 Verifying : 1:perl-Pod-Escapes-1.04-292.el7.noarch 28/175 Verifying : 1:pkgconfig-0.27.1-4.el7.ppc64le 29/175 Verifying : libcap-ng-0.7.5-4.el7.ppc64le 30/175 Verifying : perl-File-Path-2.09-2.el7.noarch 31/175 Verifying : curl-7.29.0-46.el7.ppc64le 32/175 Verifying : perl-Text-ParseWords-3.29-4.el7.noarch 33/175 Verifying : acl-2.2.51-14.el7.ppc64le 34/175 Verifying : glibc-headers-2.17-222.el7.ppc64le 35/175 Verifying : libverto-0.2.5-4.el7.ppc64le 36/175 Verifying : libstdc++-4.8.5-28.el7_5.1.ppc64le 37/175 Verifying : elfutils-libelf-0.170-4.el7.ppc64le 38/175 Verifying : cryptsetup-libs-1.7.4-4.el7.ppc64le 39/175 Verifying : libacl-2.2.51-14.el7.ppc64le 40/175 Verifying : setup-2.8.71-9.el7.noarch 41/175 Verifying : xz-5.2.2-1.el7.ppc64le 42/175 Verifying : cracklib-dicts-2.9.0-11.el7.ppc64le 43/175 Verifying : gawk-4.0.2-4.el7_3.1.ppc64le 44/175 Verifying : libselinux-2.5-12.el7.ppc64le 45/175 Verifying : 1:dbus-1.10.24-7.el7.ppc64le 46/175 Verifying : rpm-4.11.3-32.el7.ppc64le 47/175 Verifying : libgomp-4.8.5-28.el7_5.1.ppc64le 48/175 Verifying : openldap-2.4.44-15.el7_5.ppc64le 49/175 Verifying : ncurses-5.9-14.20130511.el7_4.ppc64le 50/175 Verifying : kernel-headers-3.10.0-862.14.4.el7.ppc64le 51/175 Verifying : libassuan-2.1.0-3.el7.ppc64le 52/175 Verifying : xz-libs-5.2.2-1.el7.ppc64le 53/175 Verifying : bash-4.2.46-30.el7.ppc64le 54/175 Verifying : elfutils-default-yama-scope-0.170-4.el7.noarch 55/175 Verifying : python-srpm-macros-3-22.el7.noarch 56/175 Verifying : libcom_err-1.42.9-12.el7_5.ppc64le 57/175 Verifying : basesystem-10.0-7.el7.centos.noarch 58/175 Verifying : libtasn1-4.10-1.el7.ppc64le 59/175 Verifying : cpp-4.8.5-28.el7_5.1.ppc64le 60/175 Verifying : 1:openssl-libs-1.0.2k-12.el7.ppc64le 61/175 Verifying : perl-threads-1.87-4.el7.ppc64le 62/175 Verifying : bzip2-libs-1.0.6-13.el7.ppc64le 63/175 Verifying : libpwquality-1.2.3-5.el7.ppc64le 64/175 Verifying : nss-util-3.36.0-1.el7_5.ppc64le 65/175 Verifying : nss-sysinit-3.36.0-7.el7_5.ppc64le 66/175 Verifying : bzip2-1.0.6-13.el7.ppc64le 67/175 Verifying : systemd-libs-219-57.el7_5.3.ppc64le 68/175 Verifying : cpio-2.11-27.el7.ppc64le 69/175 Verifying : libssh2-1.4.3-10.el7_2.1.ppc64le 70/175 Verifying : sed-4.2.2-5.el7.ppc64le 71/175 Verifying : libcurl-7.29.0-46.el7.ppc64le 72/175 Verifying : perl-Pod-Usage-1.63-3.el7.noarch 73/175 Verifying : which-2.20-7.el7.ppc64le 74/175 Verifying : util-linux-2.23.2-52.el7_5.1.ppc64le 75/175 Verifying : krb5-libs-1.15.1-19.el7.ppc64le 76/175 Verifying : libidn-1.28-4.el7.ppc64le 77/175 Verifying : ca-certificates-2018.2.22-70.0.el7_5.noarch 78/175 Verifying : kmod-libs-20-21.el7.ppc64le 79/175 Verifying : file-libs-5.11-33.el7.ppc64le 80/175 Verifying : 1:findutils-4.5.11-5.el7.ppc64le 81/175 Verifying : gcc-4.8.5-28.el7_5.1.ppc64le 82/175 Verifying : nss-pem-1.0.3-4.el7.ppc64le 83/175 Verifying : kmod-20-21.el7.ppc64le 84/175 Verifying : gnupg2-2.0.22-5.el7_5.ppc64le 85/175 Verifying : perl-Getopt-Long-2.40-3.el7.noarch 86/175 Verifying : libffi-3.0.13-18.el7.ppc64le 87/175 Verifying : nss-softokn-freebl-3.36.0-5.el7_5.ppc64le 88/175 Verifying : libstdc++-devel-4.8.5-28.el7_5.1.ppc64le 89/175 Verifying : popt-1.13-16.el7.ppc64le 90/175 Verifying : dracut-033-535.el7_5.1.ppc64le 91/175 Verifying : 1:hardlink-1.0-19.el7.ppc64le 92/175 Verifying : nss-softokn-3.36.0-5.el7_5.ppc64le 93/175 Verifying : python-libs-2.7.5-69.el7_5.ppc64le 94/175 Verifying : perl-Encode-2.51-7.el7.ppc64le 95/175 Verifying : binutils-2.27-28.base.el7_5.1.ppc64le 96/175 Verifying : libmpc-1.0.1-3.el7.ppc64le 97/175 Verifying : gcc-c++-4.8.5-28.el7_5.1.ppc64le 98/175 Verifying : perl-Storable-2.45-3.el7.ppc64le 99/175 Verifying : libdb-5.3.21-24.el7.ppc64le 100/175 Verifying : 1:perl-parent-0.225-244.el7.noarch 101/175 Verifying : audit-libs-2.8.1-3.el7_5.1.ppc64le 102/175 Verifying : glibc-common-2.17-222.el7.ppc64le 103/175 Verifying : 4:perl-5.16.3-292.el7.ppc64le 104/175 Verifying : perl-srpm-macros-1-8.el7.noarch 105/175 Verifying : libuuid-2.23.2-52.el7_5.1.ppc64le 106/175 Verifying : ncurses-libs-5.9-14.20130511.el7_4.ppc64le 107/175 Verifying : redhat-rpm-config-9.1.0-80.el7.centos.noarch 108/175 Verifying : file-5.11-33.el7.ppc64le 109/175 Verifying : python2-rpm-macros-3-22.el7.noarch 110/175 Verifying : epel-release-7-11.noarch 111/175 Verifying : pinentry-0.8.1-17.el7.ppc64le 112/175 Verifying : libgcrypt-1.5.3-14.el7.ppc64le 113/175 Verifying : libatomic-4.8.5-28.el7_5.1.ppc64le 114/175 Verifying : perl-Carp-1.26-244.el7.noarch 115/175 Verifying : 2:tar-1.26-34.el7.ppc64le 116/175 Verifying : gzip-1.5-10.el7.ppc64le 117/175 Verifying : pcre-8.32-17.el7.ppc64le 118/175 Verifying : libblkid-2.23.2-52.el7_5.1.ppc64le 119/175 Verifying : systemd-219-57.el7_5.3.ppc64le 120/175 Verifying : zlib-1.2.7-17.el7.ppc64le 121/175 Verifying : perl-Filter-1.49-3.el7.ppc64le 122/175 Verifying : qrencode-libs-3.4.1-3.el7.ppc64le 123/175 Verifying : 1:gmp-6.0.0-15.el7.ppc64le 124/175 Verifying : diffutils-3.3-4.el7.ppc64le 125/175 Verifying : glibc-devel-2.17-222.el7.ppc64le 126/175 Verifying : gdbm-1.10-8.el7.ppc64le 127/175 Verifying : lua-5.1.4-15.el7.ppc64le 128/175 Verifying : pam-1.1.8-22.el7.ppc64le 129/175 Verifying : libsepol-2.5-8.1.el7.ppc64le 130/175 Verifying : nss-tools-3.36.0-7.el7_5.ppc64le 131/175 Verifying : 4:perl-libs-5.16.3-292.el7.ppc64le 132/175 Verifying : cyrus-sasl-lib-2.1.26-23.el7.ppc64le 133/175 Verifying : ncurses-base-5.9-14.20130511.el7_4.noarch 134/175 Verifying : libattr-2.4.46-13.el7.ppc64le 135/175 Verifying : procps-ng-3.3.10-17.el7_5.2.ppc64le 136/175 Verifying : epel-rpm-macros-7-19.noarch 137/175 Verifying : glibc-2.17-222.el7.ppc64le 138/175 Verifying : perl-Exporter-5.68-3.el7.noarch 139/175 Verifying : perl-constant-1.27-2.el7.noarch 140/175 Verifying : 1:dbus-libs-1.10.24-7.el7.ppc64le 141/175 Verifying : 7:device-mapper-libs-1.02.146-4.el7.ppc64le 142/175 Verifying : gdb-7.6.1-110.el7.ppc64le 143/175 Verifying : mpfr-3.1.1-4.el7.ppc64le 144/175 Verifying : libgcc-4.8.5-28.el7_5.1.ppc64le 145/175 Verifying : perl-Scalar-List-Utils-1.27-248.el7.ppc64le 146/175 Verifying : libutempter-1.1.6-4.el7.ppc64le 147/175 Verifying : coreutils-8.22-21.el7.ppc64le 148/175 Verifying : expat-2.1.0-10.el7_3.ppc64le 149/175 Verifying : perl-Thread-Queue-3.02-2.el7.noarch 150/175 Verifying : p11-kit-0.23.5-3.el7.ppc64le 151/175 Verifying : 4:perl-macros-5.16.3-292.el7.ppc64le 152/175 Verifying : perl-Time-Local-1.2300-2.el7.noarch 153/175 Verifying : libgpg-error-1.12-3.el7.ppc64le 154/175 Verifying : libxml2-2.9.1-6.el7_2.3.ppc64le 155/175 Verifying : perl-Pod-Perldoc-3.20-4.el7.noarch 156/175 Verifying : chkconfig-1.7.4-1.el7.ppc64le 157/175 Verifying : libcap-2.22-9.el7.ppc64le 158/175 Verifying : 1:make-3.82-23.el7.ppc64le 159/175 Verifying : patch-2.7.1-10.el7_5.ppc64le 160/175 Verifying : shared-mime-info-1.8-4.el7.ppc64le 161/175 Verifying : rpm-build-libs-4.11.3-32.el7.ppc64le 162/175 Verifying : rpm-build-4.11.3-32.el7.ppc64le 163/175 Verifying : sqlite-3.7.17-8.el7.ppc64le 164/175 Verifying : tzdata-2018f-2.el7.noarch 165/175 Verifying : p11-kit-trust-0.23.5-3.el7.ppc64le 166/175 Verifying : grep-2.20-3.el7.ppc64le 167/175 Verifying : filesystem-3.2-25.el7.ppc64le 168/175 Verifying : info-5.1-5.el7.ppc64le 169/175 Verifying : perl-podlators-2.5.1-3.el7.noarch 170/175 Verifying : keyutils-libs-1.5.8-3.el7.ppc64le 171/175 Verifying : perl-threads-shared-1.43-6.el7.ppc64le 172/175 Verifying : elfutils-0.170-4.el7.ppc64le 173/175 Verifying : glib2-2.54.2-2.el7.ppc64le 174/175 Verifying : 4:perl-Time-HiRes-1.9725-3.el7.ppc64le 175/175 Installed: bash.ppc64le 0:4.2.46-30.el7 bzip2.ppc64le 0:1.0.6-13.el7 coreutils.ppc64le 0:8.22-21.el7 cpio.ppc64le 0:2.11-27.el7 diffutils.ppc64le 0:3.3-4.el7 epel-release.noarch 0:7-11 epel-rpm-macros.noarch 0:7-19 findutils.ppc64le 1:4.5.11-5.el7 gawk.ppc64le 0:4.0.2-4.el7_3.1 gcc.ppc64le 0:4.8.5-28.el7_5.1 gcc-c++.ppc64le 0:4.8.5-28.el7_5.1 grep.ppc64le 0:2.20-3.el7 gzip.ppc64le 0:1.5-10.el7 info.ppc64le 0:5.1-5.el7 make.ppc64le 1:3.82-23.el7 patch.ppc64le 0:2.7.1-10.el7_5 redhat-rpm-config.noarch 0:9.1.0-80.el7.centos rpm-build.ppc64le 0:4.11.3-32.el7 sed.ppc64le 0:4.2.2-5.el7 shadow-utils.ppc64le 2:4.1.5.1-24.el7 tar.ppc64le 2:1.26-34.el7 unzip.ppc64le 0:6.0-19.el7 util-linux.ppc64le 0:2.23.2-52.el7_5.1 which.ppc64le 0:2.20-7.el7 xz.ppc64le 0:5.2.2-1.el7 Dependency Installed: acl.ppc64le 0:2.2.51-14.el7 audit-libs.ppc64le 0:2.8.1-3.el7_5.1 basesystem.noarch 0:10.0-7.el7.centos binutils.ppc64le 0:2.27-28.base.el7_5.1 bzip2-libs.ppc64le 0:1.0.6-13.el7 ca-certificates.noarch 0:2018.2.22-70.0.el7_5 centos-release.ppc64le 0:7-5.1804.5.el7.centos.p chkconfig.ppc64le 0:1.7.4-1.el7 cpp.ppc64le 0:4.8.5-28.el7_5.1 cracklib.ppc64le 0:2.9.0-11.el7 cracklib-dicts.ppc64le 0:2.9.0-11.el7 cryptsetup-libs.ppc64le 0:1.7.4-4.el7 curl.ppc64le 0:7.29.0-46.el7 cyrus-sasl-lib.ppc64le 0:2.1.26-23.el7 dbus.ppc64le 1:1.10.24-7.el7 dbus-libs.ppc64le 1:1.10.24-7.el7 device-mapper.ppc64le 7:1.02.146-4.el7 device-mapper-libs.ppc64le 7:1.02.146-4.el7 dracut.ppc64le 0:033-535.el7_5.1 dwz.ppc64le 0:0.11-3.el7 elfutils.ppc64le 0:0.170-4.el7 elfutils-default-yama-scope.noarch 0:0.170-4.el7 elfutils-libelf.ppc64le 0:0.170-4.el7 elfutils-libs.ppc64le 0:0.170-4.el7 expat.ppc64le 0:2.1.0-10.el7_3 file.ppc64le 0:5.11-33.el7 file-libs.ppc64le 0:5.11-33.el7 filesystem.ppc64le 0:3.2-25.el7 gdb.ppc64le 0:7.6.1-110.el7 gdbm.ppc64le 0:1.10-8.el7 glib2.ppc64le 0:2.54.2-2.el7 glibc.ppc64le 0:2.17-222.el7 glibc-common.ppc64le 0:2.17-222.el7 glibc-devel.ppc64le 0:2.17-222.el7 glibc-headers.ppc64le 0:2.17-222.el7 gmp.ppc64le 1:6.0.0-15.el7 gnupg2.ppc64le 0:2.0.22-5.el7_5 groff-base.ppc64le 0:1.22.2-8.el7 hardlink.ppc64le 1:1.0-19.el7 kernel-headers.ppc64le 0:3.10.0-862.14.4.el7 keyutils-libs.ppc64le 0:1.5.8-3.el7 kmod.ppc64le 0:20-21.el7 kmod-libs.ppc64le 0:20-21.el7 kpartx.ppc64le 0:0.4.9-119.el7_5.1 krb5-libs.ppc64le 0:1.15.1-19.el7 libacl.ppc64le 0:2.2.51-14.el7 libassuan.ppc64le 0:2.1.0-3.el7 libatomic.ppc64le 0:4.8.5-28.el7_5.1 libattr.ppc64le 0:2.4.46-13.el7 libblkid.ppc64le 0:2.23.2-52.el7_5.1 libcap.ppc64le 0:2.22-9.el7 libcap-ng.ppc64le 0:0.7.5-4.el7 libcom_err.ppc64le 0:1.42.9-12.el7_5 libcurl.ppc64le 0:7.29.0-46.el7 libdb.ppc64le 0:5.3.21-24.el7 libdb-utils.ppc64le 0:5.3.21-24.el7 libffi.ppc64le 0:3.0.13-18.el7 libgcc.ppc64le 0:4.8.5-28.el7_5.1 libgcrypt.ppc64le 0:1.5.3-14.el7 libgomp.ppc64le 0:4.8.5-28.el7_5.1 libgpg-error.ppc64le 0:1.12-3.el7 libidn.ppc64le 0:1.28-4.el7 libmount.ppc64le 0:2.23.2-52.el7_5.1 libmpc.ppc64le 0:1.0.1-3.el7 libpwquality.ppc64le 0:1.2.3-5.el7 libselinux.ppc64le 0:2.5-12.el7 libsemanage.ppc64le 0:2.5-11.el7 libsepol.ppc64le 0:2.5-8.1.el7 libssh2.ppc64le 0:1.4.3-10.el7_2.1 libstdc++.ppc64le 0:4.8.5-28.el7_5.1 libstdc++-devel.ppc64le 0:4.8.5-28.el7_5.1 libtasn1.ppc64le 0:4.10-1.el7 libuser.ppc64le 0:0.60-9.el7 libutempter.ppc64le 0:1.1.6-4.el7 libuuid.ppc64le 0:2.23.2-52.el7_5.1 libverto.ppc64le 0:0.2.5-4.el7 libxml2.ppc64le 0:2.9.1-6.el7_2.3 lua.ppc64le 0:5.1.4-15.el7 lz4.ppc64le 0:1.7.5-2.el7 mpfr.ppc64le 0:3.1.1-4.el7 ncurses.ppc64le 0:5.9-14.20130511.el7_4 ncurses-base.noarch 0:5.9-14.20130511.el7_4 ncurses-libs.ppc64le 0:5.9-14.20130511.el7_4 nspr.ppc64le 0:4.19.0-1.el7_5 nss.ppc64le 0:3.36.0-7.el7_5 nss-pem.ppc64le 0:1.0.3-4.el7 nss-softokn.ppc64le 0:3.36.0-5.el7_5 nss-softokn-freebl.ppc64le 0:3.36.0-5.el7_5 nss-sysinit.ppc64le 0:3.36.0-7.el7_5 nss-tools.ppc64le 0:3.36.0-7.el7_5 nss-util.ppc64le 0:3.36.0-1.el7_5 openldap.ppc64le 0:2.4.44-15.el7_5 openssl-libs.ppc64le 1:1.0.2k-12.el7 p11-kit.ppc64le 0:0.23.5-3.el7 p11-kit-trust.ppc64le 0:0.23.5-3.el7 pam.ppc64le 0:1.1.8-22.el7 pcre.ppc64le 0:8.32-17.el7 perl.ppc64le 4:5.16.3-292.el7 perl-Carp.noarch 0:1.26-244.el7 perl-Encode.ppc64le 0:2.51-7.el7 perl-Exporter.noarch 0:5.68-3.el7 perl-File-Path.noarch 0:2.09-2.el7 perl-File-Temp.noarch 0:0.23.01-3.el7 perl-Filter.ppc64le 0:1.49-3.el7 perl-Getopt-Long.noarch 0:2.40-3.el7 perl-HTTP-Tiny.noarch 0:0.033-3.el7 perl-PathTools.ppc64le 0:3.40-5.el7 perl-Pod-Escapes.noarch 1:1.04-292.el7 perl-Pod-Perldoc.noarch 0:3.20-4.el7 perl-Pod-Simple.noarch 1:3.28-4.el7 perl-Pod-Usage.noarch 0:1.63-3.el7 perl-Scalar-List-Utils.ppc64le 0:1.27-248.el7 perl-Socket.ppc64le 0:2.010-4.el7 perl-Storable.ppc64le 0:2.45-3.el7 perl-Text-ParseWords.noarch 0:3.29-4.el7 perl-Thread-Queue.noarch 0:3.02-2.el7 perl-Time-HiRes.ppc64le 4:1.9725-3.el7 perl-Time-Local.noarch 0:1.2300-2.el7 perl-constant.noarch 0:1.27-2.el7 perl-libs.ppc64le 4:5.16.3-292.el7 perl-macros.ppc64le 4:5.16.3-292.el7 perl-parent.noarch 1:0.225-244.el7 perl-podlators.noarch 0:2.5.1-3.el7 perl-srpm-macros.noarch 0:1-8.el7 perl-threads.ppc64le 0:1.87-4.el7 perl-threads-shared.ppc64le 0:1.43-6.el7 pinentry.ppc64le 0:0.8.1-17.el7 pkgconfig.ppc64le 1:0.27.1-4.el7 popt.ppc64le 0:1.13-16.el7 procps-ng.ppc64le 0:3.3.10-17.el7_5.2 pth.ppc64le 0:2.0.7-23.el7 python-libs.ppc64le 0:2.7.5-69.el7_5 python-rpm-macros.noarch 0:3-22.el7 python-srpm-macros.noarch 0:3-22.el7 python2-rpm-macros.noarch 0:3-22.el7 qrencode-libs.ppc64le 0:3.4.1-3.el7 readline.ppc64le 0:6.2-10.el7 rpm.ppc64le 0:4.11.3-32.el7 rpm-build-libs.ppc64le 0:4.11.3-32.el7 rpm-libs.ppc64le 0:4.11.3-32.el7 setup.noarch 0:2.8.71-9.el7 shared-mime-info.ppc64le 0:1.8-4.el7 sqlite.ppc64le 0:3.7.17-8.el7 systemd.ppc64le 0:219-57.el7_5.3 systemd-libs.ppc64le 0:219-57.el7_5.3 tzdata.noarch 0:2018f-2.el7 ustr.ppc64le 0:1.0.4-16.el7 xz-libs.ppc64le 0:5.2.2-1.el7 zip.ppc64le 0:3.0-11.el7 zlib.ppc64le 0:1.2.7-17.el7 Complete! Finish: yum install Start: creating root cache Finish: creating root cache Finish: chroot init INFO: Installed packages: Start: buildsrpm Start: rpmbuild -bs Building target platforms: ppc64le Building for target ppc64le Wrote: /builddir/build/SRPMS/openmx-3.8.5-3.el7.src.rpm Finish: rpmbuild -bs Finish: buildsrpm INFO: Done(/tmp/tmphpzms_qs/openmx.spec) Config(child) 1 minutes 29 seconds INFO: Results and/or logs in: /var/lib/copr-rpmbuild/results INFO: Cleaning up build root ('cleanup_on_success=True') Start: clean chroot INFO: unmounting tmpfs. Finish: clean chroot Finish: run Running: unbuffer /usr/bin/mock --rebuild /var/lib/copr-rpmbuild/results/openmx-3.8.5-3.el7.src.rpm --configdir /var/lib/copr-rpmbuild/results/configs --resultdir /var/lib/copr-rpmbuild/results --uniqueext 1543326635.335306 -r child WARNING: Could not find required logging config file: /var/lib/copr-rpmbuild/results/configs/logging.ini. Using default... INFO: mock.py version 1.4.13 starting (python version = 3.6.5)... Start: init plugins INFO: tmpfs initialized INFO: selinux disabled INFO: chroot_scan: initialized INFO: compress_logs: initialized Finish: init plugins Start: run INFO: Start(/var/lib/copr-rpmbuild/results/openmx-3.8.5-3.el7.src.rpm) Config(830446-epel-7-ppc64le) Start: clean chroot Finish: clean chroot Start: chroot init INFO: mounting tmpfs at /var/lib/mock/830446-epel-7-ppc64le-1543326635.335306/root. INFO: calling preinit hooks INFO: enabled root cache Start: unpacking root cache Finish: unpacking root cache INFO: enabled HW Info plugin Mock Version: 1.4.13 INFO: Mock Version: 1.4.13 Start: yum update Yum command has been deprecated, use dnf instead. See 'man dnf' and 'man yum2dnf' for more information. copr_base | 3.5 kB 00:00 base | 3.6 kB 00:00 epel | 3.2 kB 00:00 extras | 2.9 kB 00:00 sclo-rh | 2.9 kB 00:00 updates | 2.9 kB 00:00 (1/6): copr_base/primary_db | 51 kB 00:00 (2/6): epel/primary | 3.4 MB 00:00 (3/6): sclo-rh/primary_db | 76 kB 00:00 (4/6): extras/primary_db | 162 kB 00:00 (5/6): base/primary_db | 4.7 MB 00:01 (6/6): updates/primary_db | 5.2 MB 00:01 epel 12142/12142 base/group_gz | 166 kB 00:00 epel/group_gz | 88 kB 00:00 No packages marked for update Finish: yum update Finish: chroot init Start: build phase for openmx-3.8.5-3.el7.src.rpm Start: build setup for openmx-3.8.5-3.el7.src.rpm Building target platforms: ppc64le Building for target ppc64le Wrote: /builddir/build/SRPMS/openmx-3.8.5-3.el7.src.rpm Yum-utils package has been deprecated, use dnf instead. See 'man yum2dnf' for more information. copr_base | 3.5 kB 00:00 Getting requirements for openmx-3.8.5-3.el7.src --> time-1.7-45.el7.ppc64le --> gcc-gfortran-4.8.5-28.el7_5.1.ppc64le --> openblas-devel-0.3.3-2.el7.ppc64le --> fftw-devel-3.3.3-8.el7.ppc64le --> openmpi-devel-3.1.3-1.el7.ppc64le --> mpich-3.0-devel-3.0.4-10.el7.ppc64le --> Running transaction check ---> Package fftw-devel.ppc64le 0:3.3.3-8.el7 will be installed --> Processing Dependency: fftw-libs(ppc-64) = 3.3.3-8.el7 for package: fftw-devel-3.3.3-8.el7.ppc64le --> Processing Dependency: fftw(ppc-64) = 3.3.3-8.el7 for package: fftw-devel-3.3.3-8.el7.ppc64le --> Processing Dependency: libfftw3l_threads.so.3()(64bit) for package: fftw-devel-3.3.3-8.el7.ppc64le --> Processing Dependency: libfftw3l_omp.so.3()(64bit) for package: fftw-devel-3.3.3-8.el7.ppc64le --> Processing Dependency: libfftw3l.so.3()(64bit) for package: fftw-devel-3.3.3-8.el7.ppc64le --> Processing Dependency: libfftw3f_threads.so.3()(64bit) for package: fftw-devel-3.3.3-8.el7.ppc64le --> Processing Dependency: libfftw3f_omp.so.3()(64bit) for package: fftw-devel-3.3.3-8.el7.ppc64le --> Processing Dependency: libfftw3f.so.3()(64bit) for package: fftw-devel-3.3.3-8.el7.ppc64le --> Processing Dependency: libfftw3_threads.so.3()(64bit) for package: fftw-devel-3.3.3-8.el7.ppc64le --> Processing Dependency: libfftw3_omp.so.3()(64bit) for package: fftw-devel-3.3.3-8.el7.ppc64le --> Processing Dependency: libfftw3.so.3()(64bit) for package: fftw-devel-3.3.3-8.el7.ppc64le ---> Package gcc-gfortran.ppc64le 0:4.8.5-28.el7_5.1 will be installed --> Processing Dependency: libgfortran = 4.8.5-28.el7_5.1 for package: gcc-gfortran-4.8.5-28.el7_5.1.ppc64le --> Processing Dependency: libgfortran.so.3()(64bit) for package: gcc-gfortran-4.8.5-28.el7_5.1.ppc64le ---> Package mpich-3.0-devel.ppc64le 0:3.0.4-10.el7 will be installed --> Processing Dependency: mpich-3.0 = 3.0.4-10.el7 for package: mpich-3.0-devel-3.0.4-10.el7.ppc64le --> Processing Dependency: libopa.so.1()(64bit) for package: mpich-3.0-devel-3.0.4-10.el7.ppc64le --> Processing Dependency: libmpl.so.1()(64bit) for package: mpich-3.0-devel-3.0.4-10.el7.ppc64le --> Processing Dependency: libmpichf90.so.10()(64bit) for package: mpich-3.0-devel-3.0.4-10.el7.ppc64le --> Processing Dependency: libmpichcxx.so.10()(64bit) for package: mpich-3.0-devel-3.0.4-10.el7.ppc64le --> Processing Dependency: libmpich.so.10()(64bit) for package: mpich-3.0-devel-3.0.4-10.el7.ppc64le --> Processing Dependency: libfmpich.so.10()(64bit) for package: mpich-3.0-devel-3.0.4-10.el7.ppc64le ---> Package openblas-devel.ppc64le 0:0.3.3-2.el7 will be installed --> Processing Dependency: openblas-threads64_(ppc-64) = 0.3.3-2.el7 for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: openblas-threads64(ppc-64) = 0.3.3-2.el7 for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: openblas-threads(ppc-64) = 0.3.3-2.el7 for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: openblas-serial64_(ppc-64) = 0.3.3-2.el7 for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: openblas-serial64(ppc-64) = 0.3.3-2.el7 for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: openblas-serial(ppc-64) = 0.3.3-2.el7 for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: openblas-openmp64_(ppc-64) = 0.3.3-2.el7 for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: openblas-openmp64(ppc-64) = 0.3.3-2.el7 for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: openblas-openmp(ppc-64) = 0.3.3-2.el7 for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: openblas(ppc-64) = 0.3.3-2.el7 for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: libopenblaso64_.so.0()(64bit) for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: libopenblaso64.so.0()(64bit) for package: openblas-devel-0.3.3-2.el7.ppc64le --> Processing Dependency: libopenblaso.so.0()(64bit) for package: openblas-devel-0.3.3-2.el7.ppc64le ---> Package openmpi-devel.ppc64le 0:3.1.3-1.el7 will be installed --> Processing Dependency: openmpi = 3.1.3-1.el7 for package: openmpi-devel-3.1.3-1.el7.ppc64le --> Processing Dependency: rpm-mpi-hooks for package: openmpi-devel-3.1.3-1.el7.ppc64le --> Processing Dependency: libevent-2.0.so.5()(64bit) for package: openmpi-devel-3.1.3-1.el7.ppc64le --> Processing Dependency: libevent_pthreads-2.0.so.5()(64bit) for package: openmpi-devel-3.1.3-1.el7.ppc64le --> Processing Dependency: libhwloc.so.5()(64bit) for package: openmpi-devel-3.1.3-1.el7.ppc64le --> Processing Dependency: libmpi.so.40()(64bit) for package: openmpi-devel-3.1.3-1.el7.ppc64le --> Processing Dependency: libmpi_java.so.40()(64bit) for package: openmpi-devel-3.1.3-1.el7.ppc64le --> Processing Dependency: libmpi_mpifh.so.40()(64bit) for package: openmpi-devel-3.1.3-1.el7.ppc64le --> Processing Dependency: libmpi_usempi.so.40()(64bit) for package: openmpi-devel-3.1.3-1.el7.ppc64le --> Processing Dependency: liboshmem.so.40()(64bit) for package: openmpi-devel-3.1.3-1.el7.ppc64le ---> Package time.ppc64le 0:1.7-45.el7 will be installed --> Running transaction check ---> Package fftw.ppc64le 0:3.3.3-8.el7 will be installed ---> Package fftw-libs.ppc64le 0:3.3.3-8.el7 will be installed ---> Package fftw-libs-double.ppc64le 0:3.3.3-8.el7 will be installed ---> Package fftw-libs-long.ppc64le 0:3.3.3-8.el7 will be installed ---> Package fftw-libs-single.ppc64le 0:3.3.3-8.el7 will be installed ---> Package hwloc-libs.ppc64le 0:1.11.8-4.el7 will be installed --> Processing Dependency: libnuma.so.1(libnuma_1.2)(64bit) for package: hwloc-libs-1.11.8-4.el7.ppc64le --> Processing Dependency: libnuma.so.1(libnuma_1.1)(64bit) for package: hwloc-libs-1.11.8-4.el7.ppc64le --> Processing Dependency: libnuma.so.1()(64bit) for package: hwloc-libs-1.11.8-4.el7.ppc64le --> Processing Dependency: libltdl.so.7()(64bit) for package: hwloc-libs-1.11.8-4.el7.ppc64le ---> Package libevent.ppc64le 0:2.0.21-4.el7 will be installed ---> Package libgfortran.ppc64le 0:4.8.5-28.el7_5.1 will be installed ---> Package mpich-3.0.ppc64le 0:3.0.4-10.el7 will be installed --> Processing Dependency: environment-modules for package: mpich-3.0-3.0.4-10.el7.ppc64le ---> Package openblas.ppc64le 0:0.3.3-2.el7 will be installed ---> Package openblas-openmp.ppc64le 0:0.3.3-2.el7 will be installed ---> Package openblas-openmp64.ppc64le 0:0.3.3-2.el7 will be installed ---> Package openblas-openmp64_.ppc64le 0:0.3.3-2.el7 will be installed ---> Package openblas-serial.ppc64le 0:0.3.3-2.el7 will be installed ---> Package openblas-serial64.ppc64le 0:0.3.3-2.el7 will be installed ---> Package openblas-serial64_.ppc64le 0:0.3.3-2.el7 will be installed ---> Package openblas-threads.ppc64le 0:0.3.3-2.el7 will be installed ---> Package openblas-threads64.ppc64le 0:0.3.3-2.el7 will be installed ---> Package openblas-threads64_.ppc64le 0:0.3.3-2.el7 will be installed ---> Package openmpi.ppc64le 0:3.1.3-1.el7 will be installed --> Processing Dependency: libfabric.so.1(FABRIC_1.0)(64bit) for package: openmpi-3.1.3-1.el7.ppc64le --> Processing Dependency: libfabric.so.1(FABRIC_1.1)(64bit) for package: openmpi-3.1.3-1.el7.ppc64le --> Processing Dependency: libibverbs.so.1(IBVERBS_1.0)(64bit) for package: openmpi-3.1.3-1.el7.ppc64le --> Processing Dependency: libibverbs.so.1(IBVERBS_1.1)(64bit) for package: openmpi-3.1.3-1.el7.ppc64le --> Processing Dependency: librdmacm.so.1(RDMACM_1.0)(64bit) for package: openmpi-3.1.3-1.el7.ppc64le --> Processing Dependency: openssh-clients for package: openmpi-3.1.3-1.el7.ppc64le --> Processing Dependency: libfabric.so.1()(64bit) for package: openmpi-3.1.3-1.el7.ppc64le --> Processing Dependency: libibverbs.so.1()(64bit) for package: openmpi-3.1.3-1.el7.ppc64le --> Processing Dependency: libosmcomp.so.3()(64bit) for package: openmpi-3.1.3-1.el7.ppc64le --> Processing Dependency: libpmix.so.2()(64bit) for package: openmpi-3.1.3-1.el7.ppc64le --> Processing Dependency: librdmacm.so.1()(64bit) for package: openmpi-3.1.3-1.el7.ppc64le --> Processing Dependency: libtorque.so.2()(64bit) for package: openmpi-3.1.3-1.el7.ppc64le ---> Package rpm-mpi-hooks.noarch 0:5-4.el7 will be installed --> Processing Dependency: environment(modules) for package: rpm-mpi-hooks-5-4.el7.noarch --> Running transaction check ---> Package Lmod.ppc64le 0:6.6.3-1.el7 will be installed --> Processing Dependency: lua-term for package: Lmod-6.6.3-1.el7.ppc64le --> Processing Dependency: lua-posix for package: Lmod-6.6.3-1.el7.ppc64le --> Processing Dependency: lua-json for package: Lmod-6.6.3-1.el7.ppc64le --> Processing Dependency: lua-filesystem for package: Lmod-6.6.3-1.el7.ppc64le --> Processing Dependency: /usr/bin/tclsh for package: Lmod-6.6.3-1.el7.ppc64le ---> Package environment-modules.ppc64le 0:3.2.10-10.el7 will be installed --> Processing Dependency: /usr/bin/python for package: environment-modules-3.2.10-10.el7.ppc64le --> Processing Dependency: libX11.so.6()(64bit) for package: environment-modules-3.2.10-10.el7.ppc64le ---> Package libfabric.ppc64le 0:1.5.3-1.el7 will be installed --> Processing Dependency: libnl-3.so.200(libnl_3)(64bit) for package: libfabric-1.5.3-1.el7.ppc64le --> Processing Dependency: libnl-route-3.so.200()(64bit) for package: libfabric-1.5.3-1.el7.ppc64le --> Processing Dependency: libnl-3.so.200()(64bit) for package: libfabric-1.5.3-1.el7.ppc64le ---> Package libibverbs.ppc64le 0:15-7.el7_5 will be installed --> Processing Dependency: rdma-core(ppc-64) = 15-7.el7_5 for package: libibverbs-15-7.el7_5.ppc64le ---> Package librdmacm.ppc64le 0:15-7.el7_5 will be installed ---> Package libtool-ltdl.ppc64le 0:2.4.2-22.el7_3 will be installed ---> Package numactl-libs.ppc64le 0:2.0.9-7.el7 will be installed ---> Package opensm-libs.ppc64le 0:3.3.20-2.el7 will be installed --> Processing Dependency: libibumad.so.3(IBUMAD_1.0)(64bit) for package: opensm-libs-3.3.20-2.el7.ppc64le --> Processing Dependency: libibumad.so.3()(64bit) for package: opensm-libs-3.3.20-2.el7.ppc64le ---> Package openssh-clients.ppc64le 0:7.4p1-16.el7 will be installed --> Processing Dependency: openssh = 7.4p1-16.el7 for package: openssh-clients-7.4p1-16.el7.ppc64le --> Processing Dependency: fipscheck-lib(ppc-64) >= 1.3.0 for package: openssh-clients-7.4p1-16.el7.ppc64le --> Processing Dependency: libfipscheck.so.1()(64bit) for package: openssh-clients-7.4p1-16.el7.ppc64le --> Processing Dependency: libedit.so.0()(64bit) for package: openssh-clients-7.4p1-16.el7.ppc64le ---> Package pmix.ppc64le 0:3.0.2-1.el7 will be installed --> Processing Dependency: libmunge.so.2()(64bit) for package: pmix-3.0.2-1.el7.ppc64le ---> Package torque-libs.ppc64le 0:4.2.10-10.el7 will be installed --> Processing Dependency: torque = 4.2.10-10.el7 for package: torque-libs-4.2.10-10.el7.ppc64le --> Processing Dependency: munge for package: torque-libs-4.2.10-10.el7.ppc64le --> Running transaction check ---> Package fipscheck-lib.ppc64le 0:1.4.1-6.el7 will be installed --> Processing Dependency: /usr/bin/fipscheck for package: fipscheck-lib-1.4.1-6.el7.ppc64le ---> Package libX11.ppc64le 0:1.6.5-1.el7 will be installed --> Processing Dependency: libX11-common >= 1.6.5-1.el7 for package: libX11-1.6.5-1.el7.ppc64le --> Processing Dependency: libxcb.so.1()(64bit) for package: libX11-1.6.5-1.el7.ppc64le ---> Package libedit.ppc64le 0:3.0-12.20121213cvs.el7 will be installed ---> Package libibumad.ppc64le 0:15-7.el7_5 will be installed ---> Package libnl3.ppc64le 0:3.2.28-4.el7 will be installed ---> Package lua-filesystem.ppc64le 0:1.6.2-2.el7 will be installed ---> Package lua-json.noarch 0:1.3.2-2.el7 will be installed --> Processing Dependency: lua-lpeg >= 0.8.1 for package: lua-json-1.3.2-2.el7.noarch ---> Package lua-posix.ppc64le 0:32-2.el7 will be installed --> Processing Dependency: lua-bitop for package: lua-posix-32-2.el7.ppc64le ---> Package lua-term.ppc64le 0:0.03-3.el7 will be installed ---> Package munge.ppc64le 0:0.5.11-3.el7 will be installed ---> Package munge-libs.ppc64le 0:0.5.11-3.el7 will be installed ---> Package openssh.ppc64le 0:7.4p1-16.el7 will be installed ---> Package python.ppc64le 0:2.7.5-69.el7_5 will be installed ---> Package rdma-core.ppc64le 0:15-7.el7_5 will be installed --> Processing Dependency: pciutils for package: rdma-core-15-7.el7_5.ppc64le --> Processing Dependency: initscripts for package: rdma-core-15-7.el7_5.ppc64le ---> Package tcl.ppc64le 1:8.5.13-8.el7 will be installed ---> Package torque.ppc64le 0:4.2.10-10.el7 will be installed --> Running transaction check ---> Package fipscheck.ppc64le 0:1.4.1-6.el7 will be installed ---> Package initscripts.ppc64le 0:9.49.41-1.el7_5.2 will be installed --> Processing Dependency: sysvinit-tools >= 2.87-5 for package: initscripts-9.49.41-1.el7_5.2.ppc64le --> Processing Dependency: iproute for package: initscripts-9.49.41-1.el7_5.2.ppc64le --> Processing Dependency: hostname for package: initscripts-9.49.41-1.el7_5.2.ppc64le --> Processing Dependency: /sbin/arping for package: initscripts-9.49.41-1.el7_5.2.ppc64le ---> Package libX11-common.noarch 0:1.6.5-1.el7 will be installed ---> Package libxcb.ppc64le 0:1.12-1.el7 will be installed --> Processing Dependency: libXau.so.6()(64bit) for package: libxcb-1.12-1.el7.ppc64le ---> Package lua-bitop.ppc64le 0:1.0.2-3.el7 will be installed ---> Package lua-lpeg.ppc64le 0:0.12-1.el7 will be installed ---> Package pciutils.ppc64le 0:3.5.1-3.el7 will be installed --> Processing Dependency: pciutils-libs = 3.5.1-3.el7 for package: pciutils-3.5.1-3.el7.ppc64le --> Processing Dependency: libpci.so.3(LIBPCI_3.5)(64bit) for package: pciutils-3.5.1-3.el7.ppc64le --> Processing Dependency: libpci.so.3(LIBPCI_3.3)(64bit) for package: pciutils-3.5.1-3.el7.ppc64le --> Processing Dependency: libpci.so.3(LIBPCI_3.1)(64bit) for package: pciutils-3.5.1-3.el7.ppc64le --> Processing Dependency: libpci.so.3(LIBPCI_3.0)(64bit) for package: pciutils-3.5.1-3.el7.ppc64le --> Processing Dependency: hwdata for package: pciutils-3.5.1-3.el7.ppc64le --> Processing Dependency: libpci.so.3()(64bit) for package: pciutils-3.5.1-3.el7.ppc64le --> Running transaction check ---> Package hostname.ppc64le 0:3.13-3.el7 will be installed ---> Package hwdata.ppc64le 0:0.252-8.8.el7 will be installed ---> Package iproute.ppc64le 0:4.11.0-14.el7 will be installed --> Processing Dependency: libmnl.so.0(LIBMNL_1.0)(64bit) for package: iproute-4.11.0-14.el7.ppc64le --> Processing Dependency: libxtables.so.10()(64bit) for package: iproute-4.11.0-14.el7.ppc64le --> Processing Dependency: libmnl.so.0()(64bit) for package: iproute-4.11.0-14.el7.ppc64le ---> Package iputils.ppc64le 0:20160308-10.el7 will be installed ---> Package libXau.ppc64le 0:1.0.8-2.1.el7 will be installed ---> Package pciutils-libs.ppc64le 0:3.5.1-3.el7 will be installed ---> Package sysvinit-tools.ppc64le 0:2.88-14.dsf.el7 will be installed --> Running transaction check ---> Package iptables.ppc64le 0:1.4.21-24.1.el7_5 will be installed --> Processing Dependency: libnfnetlink.so.0()(64bit) for package: iptables-1.4.21-24.1.el7_5.ppc64le --> Processing Dependency: libnetfilter_conntrack.so.3()(64bit) for package: iptables-1.4.21-24.1.el7_5.ppc64le ---> Package libmnl.ppc64le 0:1.0.3-7.el7 will be installed --> Running transaction check ---> Package libnetfilter_conntrack.ppc64le 0:1.0.6-1.el7_3 will be installed ---> Package libnfnetlink.ppc64le 0:1.0.1-4.el7 will be installed --> Finished Dependency Resolution Dependencies Resolved ================================================================================ Package Arch Version Repository Size ================================================================================ Installing: fftw-devel ppc64le 3.3.3-8.el7 base 128 k gcc-gfortran ppc64le 4.8.5-28.el7_5.1 updates 7.7 M mpich-3.0-devel ppc64le 3.0.4-10.el7 base 103 k openblas-devel ppc64le 0.3.3-2.el7 epel 88 k openmpi-devel ppc64le 3.1.3-1.el7 copr_base 824 k time ppc64le 1.7-45.el7 base 30 k Installing for dependencies: Lmod ppc64le 6.6.3-1.el7 epel 192 k environment-modules ppc64le 3.2.10-10.el7 base 108 k fftw ppc64le 3.3.3-8.el7 base 44 k fftw-libs ppc64le 3.3.3-8.el7 base 8.0 k fftw-libs-double ppc64le 3.3.3-8.el7 base 607 k fftw-libs-long ppc64le 3.3.3-8.el7 base 777 k fftw-libs-single ppc64le 3.3.3-8.el7 base 608 k fipscheck ppc64le 1.4.1-6.el7 base 21 k fipscheck-lib ppc64le 1.4.1-6.el7 base 10 k hostname ppc64le 3.13-3.el7 base 16 k hwdata ppc64le 0.252-8.8.el7 base 2.3 M hwloc-libs ppc64le 1.11.8-4.el7 base 1.6 M initscripts ppc64le 9.49.41-1.el7_5.2 updates 438 k iproute ppc64le 4.11.0-14.el7 base 738 k iptables ppc64le 1.4.21-24.1.el7_5 updates 446 k iputils ppc64le 20160308-10.el7 base 148 k libX11 ppc64le 1.6.5-1.el7 base 615 k libX11-common noarch 1.6.5-1.el7 base 164 k libXau ppc64le 1.0.8-2.1.el7 base 29 k libedit ppc64le 3.0-12.20121213cvs.el7 base 93 k libevent ppc64le 2.0.21-4.el7 base 212 k libfabric ppc64le 1.5.3-1.el7 base 344 k libgfortran ppc64le 4.8.5-28.el7_5.1 updates 407 k libibumad ppc64le 15-7.el7_5 updates 21 k libibverbs ppc64le 15-7.el7_5 updates 232 k libmnl ppc64le 1.0.3-7.el7 base 24 k libnetfilter_conntrack ppc64le 1.0.6-1.el7_3 base 57 k libnfnetlink ppc64le 1.0.1-4.el7 base 26 k libnl3 ppc64le 3.2.28-4.el7 base 277 k librdmacm ppc64le 15-7.el7_5 updates 63 k libtool-ltdl ppc64le 2.4.2-22.el7_3 base 50 k libxcb ppc64le 1.12-1.el7 base 220 k lua-bitop ppc64le 1.0.2-3.el7 epel 8.3 k lua-filesystem ppc64le 1.6.2-2.el7 epel 28 k lua-json noarch 1.3.2-2.el7 epel 23 k lua-lpeg ppc64le 0.12-1.el7 epel 60 k lua-posix ppc64le 32-2.el7 epel 118 k lua-term ppc64le 0.03-3.el7 epel 10 k mpich-3.0 ppc64le 3.0.4-10.el7 base 957 k munge ppc64le 0.5.11-3.el7 epel 96 k munge-libs ppc64le 0.5.11-3.el7 epel 37 k numactl-libs ppc64le 2.0.9-7.el7 base 30 k openblas ppc64le 0.3.3-2.el7 epel 27 k openblas-openmp ppc64le 0.3.3-2.el7 epel 2.6 M openblas-openmp64 ppc64le 0.3.3-2.el7 epel 2.5 M openblas-openmp64_ ppc64le 0.3.3-2.el7 epel 2.5 M openblas-serial ppc64le 0.3.3-2.el7 epel 2.5 M openblas-serial64 ppc64le 0.3.3-2.el7 epel 2.4 M openblas-serial64_ ppc64le 0.3.3-2.el7 epel 2.4 M openblas-threads ppc64le 0.3.3-2.el7 epel 2.6 M openblas-threads64 ppc64le 0.3.3-2.el7 epel 2.5 M openblas-threads64_ ppc64le 0.3.3-2.el7 epel 2.5 M openmpi ppc64le 3.1.3-1.el7 copr_base 2.5 M opensm-libs ppc64le 3.3.20-2.el7 base 66 k openssh ppc64le 7.4p1-16.el7 base 519 k openssh-clients ppc64le 7.4p1-16.el7 base 640 k pciutils ppc64le 3.5.1-3.el7 base 94 k pciutils-libs ppc64le 3.5.1-3.el7 base 45 k pmix ppc64le 3.0.2-1.el7 copr_base 616 k python ppc64le 2.7.5-69.el7_5 updates 93 k rdma-core ppc64le 15-7.el7_5 updates 48 k rpm-mpi-hooks noarch 5-4.el7 copr_base 7.7 k sysvinit-tools ppc64le 2.88-14.dsf.el7 base 62 k tcl ppc64le 1:8.5.13-8.el7 base 1.9 M torque ppc64le 4.2.10-10.el7 epel 83 k torque-libs ppc64le 4.2.10-10.el7 epel 134 k Transaction Summary ================================================================================ Install 6 Packages (+66 Dependent packages) Total download size: 50 M Installed size: 221 M Downloading packages: (1/72): Lmod-6.6.3-1.el7.ppc64le.rpm | 192 kB 00:00 (2/72): fftw-3.3.3-8.el7.ppc64le.rpm | 44 kB 00:00 (3/72): environment-modules-3.2.10-10.el7.ppc64le.rpm | 108 kB 00:00 (4/72): fftw-libs-3.3.3-8.el7.ppc64le.rpm | 8.0 kB 00:00 (5/72): fftw-devel-3.3.3-8.el7.ppc64le.rpm | 128 kB 00:00 (6/72): fftw-libs-double-3.3.3-8.el7.ppc64le.rpm | 607 kB 00:00 (7/72): fftw-libs-long-3.3.3-8.el7.ppc64le.rpm | 777 kB 00:00 (8/72): fipscheck-1.4.1-6.el7.ppc64le.rpm | 21 kB 00:00 (9/72): fipscheck-lib-1.4.1-6.el7.ppc64le.rpm | 10 kB 00:00 (10/72): fftw-libs-single-3.3.3-8.el7.ppc64le.rpm | 608 kB 00:00 (11/72): hostname-3.13-3.el7.ppc64le.rpm | 16 kB 00:00 (12/72): hwloc-libs-1.11.8-4.el7.ppc64le.rpm | 1.6 MB 00:00 (13/72): initscripts-9.49.41-1.el7_5.2.ppc64le.rpm | 438 kB 00:00 (14/72): iproute-4.11.0-14.el7.ppc64le.rpm | 738 kB 00:00 (15/72): hwdata-0.252-8.8.el7.ppc64le.rpm | 2.3 MB 00:00 (16/72): iptables-1.4.21-24.1.el7_5.ppc64le.rpm | 446 kB 00:00 (17/72): iputils-20160308-10.el7.ppc64le.rpm | 148 kB 00:00 (18/72): gcc-gfortran-4.8.5-28.el7_5.1.ppc64le.rpm | 7.7 MB 00:00 (19/72): libX11-1.6.5-1.el7.ppc64le.rpm | 615 kB 00:00 (20/72): libX11-common-1.6.5-1.el7.noarch.rpm | 164 kB 00:00 (21/72): libXau-1.0.8-2.1.el7.ppc64le.rpm | 29 kB 00:00 (22/72): libedit-3.0-12.20121213cvs.el7.ppc64le.rpm | 93 kB 00:00 (23/72): libevent-2.0.21-4.el7.ppc64le.rpm | 212 kB 00:00 (24/72): libfabric-1.5.3-1.el7.ppc64le.rpm | 344 kB 00:00 (25/72): libibumad-15-7.el7_5.ppc64le.rpm | 21 kB 00:00 (26/72): libibverbs-15-7.el7_5.ppc64le.rpm | 232 kB 00:00 (27/72): libgfortran-4.8.5-28.el7_5.1.ppc64le.rpm | 407 kB 00:00 (28/72): libmnl-1.0.3-7.el7.ppc64le.rpm | 24 kB 00:00 (29/72): libnfnetlink-1.0.1-4.el7.ppc64le.rpm | 26 kB 00:00 (30/72): libnetfilter_conntrack-1.0.6-1.el7_3.ppc64le.rpm | 57 kB 00:00 (31/72): libnl3-3.2.28-4.el7.ppc64le.rpm | 277 kB 00:00 (32/72): lua-bitop-1.0.2-3.el7.ppc64le.rpm | 8.3 kB 00:00 (33/72): lua-json-1.3.2-2.el7.noarch.rpm | 23 kB 00:00 (34/72): lua-lpeg-0.12-1.el7.ppc64le.rpm | 60 kB 00:00 (35/72): lua-posix-32-2.el7.ppc64le.rpm | 118 kB 00:00 (36/72): lua-term-0.03-3.el7.ppc64le.rpm | 10 kB 00:00 (37/72): libxcb-1.12-1.el7.ppc64le.rpm | 220 kB 00:00 (38/72): lua-filesystem-1.6.2-2.el7.ppc64le.rpm | 28 kB 00:00 (39/72): librdmacm-15-7.el7_5.ppc64le.rpm | 63 kB 00:00 (40/72): libtool-ltdl-2.4.2-22.el7_3.ppc64le.rpm | 50 kB 00:00 (41/72): munge-0.5.11-3.el7.ppc64le.rpm | 96 kB 00:00 (42/72): mpich-3.0-3.0.4-10.el7.ppc64le.rpm | 957 kB 00:00 (43/72): openblas-0.3.3-2.el7.ppc64le.rpm | 27 kB 00:00 (44/72): openblas-devel-0.3.3-2.el7.ppc64le.rpm | 88 kB 00:00 (45/72): openblas-openmp-0.3.3-2.el7.ppc64le.rpm | 2.6 MB 00:00 (46/72): numactl-libs-2.0.9-7.el7.ppc64le.rpm | 30 kB 00:00 (47/72): mpich-3.0-devel-3.0.4-10.el7.ppc64le.rpm | 103 kB 00:00 (48/72): munge-libs-0.5.11-3.el7.ppc64le.rpm | 37 kB 00:00 (49/72): openblas-openmp64-0.3.3-2.el7.ppc64le.rpm | 2.5 MB 00:00 (50/72): openblas-serial-0.3.3-2.el7.ppc64le.rpm | 2.5 MB 00:00 (51/72): openblas-openmp64_-0.3.3-2.el7.ppc64le.rpm | 2.5 MB 00:00 (52/72): openblas-serial64-0.3.3-2.el7.ppc64le.rpm | 2.4 MB 00:00 (53/72): openblas-serial64_-0.3.3-2.el7.ppc64le.rpm | 2.4 MB 00:00 (54/72): openblas-threads-0.3.3-2.el7.ppc64le.rpm | 2.6 MB 00:00 (55/72): openblas-threads64-0.3.3-2.el7.ppc64le.rpm | 2.5 MB 00:00 (56/72): openblas-threads64_-0.3.3-2.el7.ppc64le.rpm | 2.5 MB 00:00 (57/72): opensm-libs-3.3.20-2.el7.ppc64le.rpm | 66 kB 00:00 (58/72): openmpi-devel-3.1.3-1.el7.ppc64le.rpm | 824 kB 00:00 (59/72): openmpi-3.1.3-1.el7.ppc64le.rpm | 2.5 MB 00:00 (60/72): openssh-clients-7.4p1-16.el7.ppc64le.rpm | 640 kB 00:00 (61/72): pciutils-3.5.1-3.el7.ppc64le.rpm | 94 kB 00:00 (62/72): pmix-3.0.2-1.el7.ppc64le.rpm | 616 kB 00:00 (63/72): rpm-mpi-hooks-5-4.el7.noarch.rpm | 7.7 kB 00:00 (64/72): pciutils-libs-3.5.1-3.el7.ppc64le.rpm | 45 kB 00:00 (65/72): sysvinit-tools-2.88-14.dsf.el7.ppc64le.rpm | 62 kB 00:00 (66/72): openssh-7.4p1-16.el7.ppc64le.rpm | 519 kB 00:00 (67/72): torque-4.2.10-10.el7.ppc64le.rpm | 83 kB 00:00 (68/72): torque-libs-4.2.10-10.el7.ppc64le.rpm | 134 kB 00:00 (69/72): tcl-8.5.13-8.el7.ppc64le.rpm | 1.9 MB 00:00 (70/72): time-1.7-45.el7.ppc64le.rpm | 30 kB 00:00 (71/72): rdma-core-15-7.el7_5.ppc64le.rpm | 48 kB 00:00 (72/72): python-2.7.5-69.el7_5.ppc64le.rpm | 93 kB 00:00 -------------------------------------------------------------------------------- Total 13 MB/s | 50 MB 00:03 Running transaction check Running transaction test Transaction test succeeded Running transaction Installing : libgfortran-4.8.5-28.el7_5.1.ppc64le 1/72 Installing : munge-libs-0.5.11-3.el7.ppc64le 2/72 Installing : libevent-2.0.21-4.el7.ppc64le 3/72 Installing : fftw-libs-double-3.3.3-8.el7.ppc64le 4/72 Installing : fftw-libs-long-3.3.3-8.el7.ppc64le 5/72 Installing : fftw-libs-single-3.3.3-8.el7.ppc64le 6/72 Installing : munge-0.5.11-3.el7.ppc64le 7/72 Installing : torque-4.2.10-10.el7.ppc64le 8/72 Installing : torque-libs-4.2.10-10.el7.ppc64le 9/72 Installing : gcc-gfortran-4.8.5-28.el7_5.1.ppc64le 10/72 Installing : libnfnetlink-1.0.1-4.el7.ppc64le 11/72 Installing : 1:tcl-8.5.13-8.el7.ppc64le 12/72 Installing : libmnl-1.0.3-7.el7.ppc64le 13/72 Installing : libnl3-3.2.28-4.el7.ppc64le 14/72 Installing : libnetfilter_conntrack-1.0.6-1.el7_3.ppc64le 15/72 Installing : iptables-1.4.21-24.1.el7_5.ppc64le 16/72 Installing : iproute-4.11.0-14.el7.ppc64le 17/72 Installing : fftw-libs-3.3.3-8.el7.ppc64le 18/72 Installing : fftw-3.3.3-8.el7.ppc64le 19/72 Installing : openblas-threads-0.3.3-2.el7.ppc64le 20/72 Installing : openblas-threads64-0.3.3-2.el7.ppc64le 21/72 Installing : openblas-threads64_-0.3.3-2.el7.ppc64le 22/72 Installing : openblas-openmp64_-0.3.3-2.el7.ppc64le 23/72 Installing : openblas-serial64-0.3.3-2.el7.ppc64le 24/72 Installing : openblas-serial64_-0.3.3-2.el7.ppc64le 25/72 Installing : openblas-openmp64-0.3.3-2.el7.ppc64le 26/72 Installing : openblas-serial-0.3.3-2.el7.ppc64le 27/72 Installing : openblas-openmp-0.3.3-2.el7.ppc64le 28/72 Installing : fipscheck-lib-1.4.1-6.el7.ppc64le 29/72 Installing : fipscheck-1.4.1-6.el7.ppc64le 30/72 Installing : openssh-7.4p1-16.el7.ppc64le 31/72 Installing : hostname-3.13-3.el7.ppc64le 32/72 Installing : libedit-3.0-12.20121213cvs.el7.ppc64le 33/72 Installing : openssh-clients-7.4p1-16.el7.ppc64le 34/72 Installing : lua-filesystem-1.6.2-2.el7.ppc64le 35/72 Installing : iputils-20160308-10.el7.ppc64le 36/72 Installing : lua-term-0.03-3.el7.ppc64le 37/72 Installing : numactl-libs-2.0.9-7.el7.ppc64le 38/72 Installing : libX11-common-1.6.5-1.el7.noarch 39/72 Installing : pciutils-libs-3.5.1-3.el7.ppc64le 40/72 Installing : lua-lpeg-0.12-1.el7.ppc64le 41/72 Installing : lua-json-1.3.2-2.el7.noarch 42/72 Installing : sysvinit-tools-2.88-14.dsf.el7.ppc64le 43/72 Installing : initscripts-9.49.41-1.el7_5.2.ppc64le 44/72 Installing : lua-bitop-1.0.2-3.el7.ppc64le 45/72 Installing : lua-posix-32-2.el7.ppc64le 46/72 Installing : Lmod-6.6.3-1.el7.ppc64le 47/72 Installing : rpm-mpi-hooks-5-4.el7.noarch 48/72 Installing : openblas-0.3.3-2.el7.ppc64le 49/72 Installing : libXau-1.0.8-2.1.el7.ppc64le 50/72 Installing : libxcb-1.12-1.el7.ppc64le 51/72 Installing : libX11-1.6.5-1.el7.ppc64le 52/72 Installing : hwdata-0.252-8.8.el7.ppc64le 53/72 Installing : pciutils-3.5.1-3.el7.ppc64le 54/72 Installing : rdma-core-15-7.el7_5.ppc64le 55/72 Installing : libibverbs-15-7.el7_5.ppc64le 56/72 Installing : librdmacm-15-7.el7_5.ppc64le 57/72 Installing : libfabric-1.5.3-1.el7.ppc64le 58/72 Installing : libibumad-15-7.el7_5.ppc64le 59/72 Installing : opensm-libs-3.3.20-2.el7.ppc64le 60/72 Installing : python-2.7.5-69.el7_5.ppc64le 61/72 Installing : environment-modules-3.2.10-10.el7.ppc64le 62/72 Installing : libtool-ltdl-2.4.2-22.el7_3.ppc64le 63/72 Installing : hwloc-libs-1.11.8-4.el7.ppc64le 64/72 Installing : pmix-3.0.2-1.el7.ppc64le 65/72 Installing : openmpi-3.1.3-1.el7.ppc64le 66/72 Installing : mpich-3.0-3.0.4-10.el7.ppc64le 67/72 Installing : mpich-3.0-devel-3.0.4-10.el7.ppc64le 68/72 Installing : openmpi-devel-3.1.3-1.el7.ppc64le 69/72 Installing : openblas-devel-0.3.3-2.el7.ppc64le 70/72 Installing : fftw-devel-3.3.3-8.el7.ppc64le 71/72 Installing : time-1.7-45.el7.ppc64le 72/72 Verifying : Lmod-6.6.3-1.el7.ppc64le 1/72 Verifying : fftw-devel-3.3.3-8.el7.ppc64le 2/72 Verifying : environment-modules-3.2.10-10.el7.ppc64le 3/72 Verifying : fipscheck-1.4.1-6.el7.ppc64le 4/72 Verifying : libtool-ltdl-2.4.2-22.el7_3.ppc64le 5/72 Verifying : python-2.7.5-69.el7_5.ppc64le 6/72 Verifying : torque-libs-4.2.10-10.el7.ppc64le 7/72 Verifying : libnl3-3.2.28-4.el7.ppc64le 8/72 Verifying : munge-0.5.11-3.el7.ppc64le 9/72 Verifying : munge-libs-0.5.11-3.el7.ppc64le 10/72 Verifying : libnetfilter_conntrack-1.0.6-1.el7_3.ppc64le 11/72 Verifying : opensm-libs-3.3.20-2.el7.ppc64le 12/72 Verifying : hwdata-0.252-8.8.el7.ppc64le 13/72 Verifying : time-1.7-45.el7.ppc64le 14/72 Verifying : fftw-libs-single-3.3.3-8.el7.ppc64le 15/72 Verifying : openssh-clients-7.4p1-16.el7.ppc64le 16/72 Verifying : libXau-1.0.8-2.1.el7.ppc64le 17/72 Verifying : librdmacm-15-7.el7_5.ppc64le 18/72 Verifying : fipscheck-lib-1.4.1-6.el7.ppc64le 19/72 Verifying : openblas-0.3.3-2.el7.ppc64le 20/72 Verifying : openblas-devel-0.3.3-2.el7.ppc64le 21/72 Verifying : lua-posix-32-2.el7.ppc64le 22/72 Verifying : lua-bitop-1.0.2-3.el7.ppc64le 23/72 Verifying : libmnl-1.0.3-7.el7.ppc64le 24/72 Verifying : libX11-1.6.5-1.el7.ppc64le 25/72 Verifying : fftw-libs-3.3.3-8.el7.ppc64le 26/72 Verifying : libibverbs-15-7.el7_5.ppc64le 27/72 Verifying : openmpi-devel-3.1.3-1.el7.ppc64le 28/72 Verifying : libibumad-15-7.el7_5.ppc64le 29/72 Verifying : sysvinit-tools-2.88-14.dsf.el7.ppc64le 30/72 Verifying : rdma-core-15-7.el7_5.ppc64le 31/72 Verifying : openblas-threads-0.3.3-2.el7.ppc64le 32/72 Verifying : libfabric-1.5.3-1.el7.ppc64le 33/72 Verifying : openblas-threads64-0.3.3-2.el7.ppc64le 34/72 Verifying : pmix-3.0.2-1.el7.ppc64le 35/72 Verifying : rpm-mpi-hooks-5-4.el7.noarch 36/72 Verifying : torque-4.2.10-10.el7.ppc64le 37/72 Verifying : initscripts-9.49.41-1.el7_5.2.ppc64le 38/72 Verifying : libgfortran-4.8.5-28.el7_5.1.ppc64le 39/72 Verifying : 1:tcl-8.5.13-8.el7.ppc64le 40/72 Verifying : lua-json-1.3.2-2.el7.noarch 41/72 Verifying : openblas-threads64_-0.3.3-2.el7.ppc64le 42/72 Verifying : openblas-openmp64_-0.3.3-2.el7.ppc64le 43/72 Verifying : libxcb-1.12-1.el7.ppc64le 44/72 Verifying : mpich-3.0-3.0.4-10.el7.ppc64le 45/72 Verifying : openblas-serial64-0.3.3-2.el7.ppc64le 46/72 Verifying : iproute-4.11.0-14.el7.ppc64le 47/72 Verifying : lua-lpeg-0.12-1.el7.ppc64le 48/72 Verifying : pciutils-libs-3.5.1-3.el7.ppc64le 49/72 Verifying : pciutils-3.5.1-3.el7.ppc64le 50/72 Verifying : hwloc-libs-1.11.8-4.el7.ppc64le 51/72 Verifying : libX11-common-1.6.5-1.el7.noarch 52/72 Verifying : fftw-libs-long-3.3.3-8.el7.ppc64le 53/72 Verifying : fftw-libs-double-3.3.3-8.el7.ppc64le 54/72 Verifying : openblas-serial64_-0.3.3-2.el7.ppc64le 55/72 Verifying : mpich-3.0-devel-3.0.4-10.el7.ppc64le 56/72 Verifying : numactl-libs-2.0.9-7.el7.ppc64le 57/72 Verifying : lua-term-0.03-3.el7.ppc64le 58/72 Verifying : gcc-gfortran-4.8.5-28.el7_5.1.ppc64le 59/72 Verifying : openblas-openmp64-0.3.3-2.el7.ppc64le 60/72 Verifying : iputils-20160308-10.el7.ppc64le 61/72 Verifying : libnfnetlink-1.0.1-4.el7.ppc64le 62/72 Verifying : openblas-serial-0.3.3-2.el7.ppc64le 63/72 Verifying : lua-filesystem-1.6.2-2.el7.ppc64le 64/72 Verifying : openssh-7.4p1-16.el7.ppc64le 65/72 Verifying : iptables-1.4.21-24.1.el7_5.ppc64le 66/72 Verifying : openmpi-3.1.3-1.el7.ppc64le 67/72 Verifying : libedit-3.0-12.20121213cvs.el7.ppc64le 68/72 Verifying : fftw-3.3.3-8.el7.ppc64le 69/72 Verifying : openblas-openmp-0.3.3-2.el7.ppc64le 70/72 Verifying : libevent-2.0.21-4.el7.ppc64le 71/72 Verifying : hostname-3.13-3.el7.ppc64le 72/72 Installed: fftw-devel.ppc64le 0:3.3.3-8.el7 gcc-gfortran.ppc64le 0:4.8.5-28.el7_5.1 mpich-3.0-devel.ppc64le 0:3.0.4-10.el7 openblas-devel.ppc64le 0:0.3.3-2.el7 openmpi-devel.ppc64le 0:3.1.3-1.el7 time.ppc64le 0:1.7-45.el7 Dependency Installed: Lmod.ppc64le 0:6.6.3-1.el7 environment-modules.ppc64le 0:3.2.10-10.el7 fftw.ppc64le 0:3.3.3-8.el7 fftw-libs.ppc64le 0:3.3.3-8.el7 fftw-libs-double.ppc64le 0:3.3.3-8.el7 fftw-libs-long.ppc64le 0:3.3.3-8.el7 fftw-libs-single.ppc64le 0:3.3.3-8.el7 fipscheck.ppc64le 0:1.4.1-6.el7 fipscheck-lib.ppc64le 0:1.4.1-6.el7 hostname.ppc64le 0:3.13-3.el7 hwdata.ppc64le 0:0.252-8.8.el7 hwloc-libs.ppc64le 0:1.11.8-4.el7 initscripts.ppc64le 0:9.49.41-1.el7_5.2 iproute.ppc64le 0:4.11.0-14.el7 iptables.ppc64le 0:1.4.21-24.1.el7_5 iputils.ppc64le 0:20160308-10.el7 libX11.ppc64le 0:1.6.5-1.el7 libX11-common.noarch 0:1.6.5-1.el7 libXau.ppc64le 0:1.0.8-2.1.el7 libedit.ppc64le 0:3.0-12.20121213cvs.el7 libevent.ppc64le 0:2.0.21-4.el7 libfabric.ppc64le 0:1.5.3-1.el7 libgfortran.ppc64le 0:4.8.5-28.el7_5.1 libibumad.ppc64le 0:15-7.el7_5 libibverbs.ppc64le 0:15-7.el7_5 libmnl.ppc64le 0:1.0.3-7.el7 libnetfilter_conntrack.ppc64le 0:1.0.6-1.el7_3 libnfnetlink.ppc64le 0:1.0.1-4.el7 libnl3.ppc64le 0:3.2.28-4.el7 librdmacm.ppc64le 0:15-7.el7_5 libtool-ltdl.ppc64le 0:2.4.2-22.el7_3 libxcb.ppc64le 0:1.12-1.el7 lua-bitop.ppc64le 0:1.0.2-3.el7 lua-filesystem.ppc64le 0:1.6.2-2.el7 lua-json.noarch 0:1.3.2-2.el7 lua-lpeg.ppc64le 0:0.12-1.el7 lua-posix.ppc64le 0:32-2.el7 lua-term.ppc64le 0:0.03-3.el7 mpich-3.0.ppc64le 0:3.0.4-10.el7 munge.ppc64le 0:0.5.11-3.el7 munge-libs.ppc64le 0:0.5.11-3.el7 numactl-libs.ppc64le 0:2.0.9-7.el7 openblas.ppc64le 0:0.3.3-2.el7 openblas-openmp.ppc64le 0:0.3.3-2.el7 openblas-openmp64.ppc64le 0:0.3.3-2.el7 openblas-openmp64_.ppc64le 0:0.3.3-2.el7 openblas-serial.ppc64le 0:0.3.3-2.el7 openblas-serial64.ppc64le 0:0.3.3-2.el7 openblas-serial64_.ppc64le 0:0.3.3-2.el7 openblas-threads.ppc64le 0:0.3.3-2.el7 openblas-threads64.ppc64le 0:0.3.3-2.el7 openblas-threads64_.ppc64le 0:0.3.3-2.el7 openmpi.ppc64le 0:3.1.3-1.el7 opensm-libs.ppc64le 0:3.3.20-2.el7 openssh.ppc64le 0:7.4p1-16.el7 openssh-clients.ppc64le 0:7.4p1-16.el7 pciutils.ppc64le 0:3.5.1-3.el7 pciutils-libs.ppc64le 0:3.5.1-3.el7 pmix.ppc64le 0:3.0.2-1.el7 python.ppc64le 0:2.7.5-69.el7_5 rdma-core.ppc64le 0:15-7.el7_5 rpm-mpi-hooks.noarch 0:5-4.el7 sysvinit-tools.ppc64le 0:2.88-14.dsf.el7 tcl.ppc64le 1:8.5.13-8.el7 torque.ppc64le 0:4.2.10-10.el7 torque-libs.ppc64le 0:4.2.10-10.el7 Complete! Finish: build setup for openmx-3.8.5-3.el7.src.rpm Start: rpmbuild openmx-3.8.5-3.el7.src.rpm Building target platforms: ppc64le Building for target ppc64le Executing(%prep): /bin/sh -e /var/tmp/rpm-tmp.fM8k1X + umask 022 + cd /builddir/build/BUILD + cd /builddir/build/BUILD + rm -rf openmx3.8 + /usr/bin/gzip -dc /builddir/build/SOURCES/openmx3.8.tar.gz + /usr/bin/tar -xf - + STATUS=0 + '[' 0 -ne 0 ']' + cd openmx3.8 + /usr/bin/chmod -Rf a+rX,u+w,g-w,o-w . + cp -p /builddir/build/SOURCES/COPYING /builddir/build/SOURCES/LICENSE . + cd source + tar -zxf /builddir/build/SOURCES/patch3.8.5.tar.gz + cd .. + find source/liberi-091216/ '(' -name '*.oo' -o -name '*.o' -o -name test_pp ')' -delete + for mpi in mpich openmpi + cp -pr source mpich + for mpi in mpich openmpi + cp -pr source openmpi + exit 0 Executing(%build): /bin/sh -e /var/tmp/rpm-tmp.IO6YAV + umask 022 + cd /builddir/build/BUILD + cd openmx3.8 + for mpi in mpich openmpi + module load mpi/mpich-ppc64le ++ /usr/share/lmod/lmod/libexec/lmod bash load mpi/mpich-ppc64le + eval 'LMOD_DEFAULT_MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'LMOD_DEFAULT_MODULEPATH;' 'MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'MODULEPATH;' 'LD_LIBRARY_PATH="/usr/lib64/mpich/lib";' export 'LD_LIBRARY_PATH;' 'LMOD_DEFAULT_MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'LMOD_DEFAULT_MODULEPATH;' 'LOADEDMODULES="mpi/mpich-ppc64le";' export 'LOADEDMODULES;' 'MANPATH="/usr/share/man/mpich:/usr/share/lmod/lmod/share/man::";' export 'MANPATH;' 'MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'MODULEPATH;' 'MPI_BIN="/usr/lib64/mpich/bin";' export 'MPI_BIN;' 'MPI_COMPILER="mpich-ppc64le";' export 'MPI_COMPILER;' 'MPI_FORTRAN_MOD_DIR="/usr/lib64/gfortran/modules/mpich-ppc64le";' export 'MPI_FORTRAN_MOD_DIR;' 'MPI_HOME="/usr/lib64/mpich";' export 'MPI_HOME;' 'MPI_INCLUDE="/usr/include/mpich-ppc64le";' export 'MPI_INCLUDE;' 'MPI_LIB="/usr/lib64/mpich/lib";' export 'MPI_LIB;' 'MPI_MAN="/usr/share/man/mpich";' export 'MPI_MAN;' 'MPI_PYTHON_SITEARCH="/usr/lib64/python2.7/site-packages/mpich";' export 'MPI_PYTHON_SITEARCH;' 'MPI_SUFFIX="_mpich";' export 'MPI_SUFFIX;' 'MPI_SYSCONFIG="/etc/mpich-ppc64le";' export 'MPI_SYSCONFIG;' 'PATH="/usr/lib64/mpich/bin:/usr/bin:/bin:/usr/sbin:/sbin:/usr/local/sbin:/builddir/.local/bin:/builddir/bin";' export 'PATH;' 'PKG_CONFIG_PATH="/usr/lib64/mpich/lib/pkgconfig::/usr/lib64/pkgconfig:/usr/share/pkgconfig";' export 'PKG_CONFIG_PATH;' 'PYTHONPATH="/usr/lib64/python2.7/site-packages/mpich";' export 'PYTHONPATH;' '_LMFILES_="/etc/modulefiles/mpi/mpich-ppc64le";' export '_LMFILES_;' '_ModuleTable001_="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";' export '_ModuleTable001_;' '_ModuleTable002_="WyJzaG9ydCJdPSJtcGkiLFsic3RhdHVzIl09ImFjdGl2ZSIsfSx9LG1wYXRoQT17Ii9ldGMvbW9kdWxlZmlsZXMiLCIvdXNyL3NoYXJlL21vZHVsZWZpbGVzIiwiL3Vzci9zaGFyZS9tb2R1bGVmaWxlcy9MaW51eCIsIi91c3Ivc2hhcmUvbW9kdWxlZmlsZXMvQ29yZSIsIi91c3Ivc2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLH0sWyJzeXN0ZW1CYXNlTVBBVEgiXT0iL2V0Yy9tb2R1bGVmaWxlczovdXNyL3NoYXJlL21vZHVsZWZpbGVzOi91c3Ivc2hhcmUvbW9kdWxlZmlsZXMvTGludXg6L3Vzci9zaGFyZS9tb2R1bGVmaWxlcy9Db3JlOi91c3Ivc2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLFsidmVyc2lvbiJdPTIsfQ==";' export '_ModuleTable002_;' '_ModuleTable_Sz_="2";' export '_ModuleTable_Sz_;' ++ LMOD_DEFAULT_MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export LMOD_DEFAULT_MODULEPATH ++ MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export MODULEPATH ++ LD_LIBRARY_PATH=/usr/lib64/mpich/lib ++ export LD_LIBRARY_PATH ++ LMOD_DEFAULT_MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export LMOD_DEFAULT_MODULEPATH ++ LOADEDMODULES=mpi/mpich-ppc64le ++ export LOADEDMODULES ++ MANPATH=/usr/share/man/mpich:/usr/share/lmod/lmod/share/man:: ++ export MANPATH ++ MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export MODULEPATH ++ MPI_BIN=/usr/lib64/mpich/bin ++ export MPI_BIN ++ MPI_COMPILER=mpich-ppc64le ++ export MPI_COMPILER ++ MPI_FORTRAN_MOD_DIR=/usr/lib64/gfortran/modules/mpich-ppc64le ++ export MPI_FORTRAN_MOD_DIR ++ MPI_HOME=/usr/lib64/mpich ++ export MPI_HOME ++ MPI_INCLUDE=/usr/include/mpich-ppc64le ++ export MPI_INCLUDE ++ MPI_LIB=/usr/lib64/mpich/lib ++ export MPI_LIB ++ MPI_MAN=/usr/share/man/mpich ++ export MPI_MAN ++ MPI_PYTHON_SITEARCH=/usr/lib64/python2.7/site-packages/mpich ++ export MPI_PYTHON_SITEARCH ++ MPI_SUFFIX=_mpich ++ export MPI_SUFFIX ++ MPI_SYSCONFIG=/etc/mpich-ppc64le ++ export MPI_SYSCONFIG ++ PATH=/usr/lib64/mpich/bin:/usr/bin:/bin:/usr/sbin:/sbin:/usr/local/sbin:/builddir/.local/bin:/builddir/bin ++ export PATH ++ PKG_CONFIG_PATH=/usr/lib64/mpich/lib/pkgconfig::/usr/lib64/pkgconfig:/usr/share/pkgconfig ++ export PKG_CONFIG_PATH ++ PYTHONPATH=/usr/lib64/python2.7/site-packages/mpich ++ export PYTHONPATH ++ _LMFILES_=/etc/modulefiles/mpi/mpich-ppc64le ++ export _LMFILES_ ++ _ModuleTable001_=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 ++ export _ModuleTable001_ ++ _ModuleTable002_=WyJzaG9ydCJdPSJtcGkiLFsic3RhdHVzIl09ImFjdGl2ZSIsfSx9LG1wYXRoQT17Ii9ldGMvbW9kdWxlZmlsZXMiLCIvdXNyL3NoYXJlL21vZHVsZWZpbGVzIiwiL3Vzci9zaGFyZS9tb2R1bGVmaWxlcy9MaW51eCIsIi91c3Ivc2hhcmUvbW9kdWxlZmlsZXMvQ29yZSIsIi91c3Ivc2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLH0sWyJzeXN0ZW1CYXNlTVBBVEgiXT0iL2V0Yy9tb2R1bGVmaWxlczovdXNyL3NoYXJlL21vZHVsZWZpbGVzOi91c3Ivc2hhcmUvbW9kdWxlZmlsZXMvTGludXg6L3Vzci9zaGFyZS9tb2R1bGVmaWxlcy9Db3JlOi91c3Ivc2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLFsidmVyc2lvbiJdPTIsfQ== ++ export _ModuleTable002_ ++ _ModuleTable_Sz_=2 ++ export _ModuleTable_Sz_ + '[' 0 = 0 ']' ++ : -s sh + eval + pushd mpich ~/build/BUILD/openmx3.8/mpich ~/build/BUILD/openmx3.8 + CFLAGS='-O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source' + FCFLAGS='-O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I/usr/lib64/gfortran/modules/mpich-ppc64le -I/usr/lib64/gfortran/modules/mpich' + LIBS='-lfftw3 -lopenblas -lgfortran' + case $MPI_SUFFIX in + LIBMPI=-lmpich + '[' -r /usr/lib64/mpich/lib/libmpifort.so ']' + make 'CC=mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source' 'FC=mpif90 -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I/usr/lib64/gfortran/modules/mpich-ppc64le -I/usr/lib64/gfortran/modules/mpich -I/usr/lib64/gfortran/modules/mpich-ppc64le' 'LIB=-lfftw3 -lopenblas -lgfortran -L/usr/lib64/mpich/lib -lmpich' openmx DosMain jx analysis_example esp OpticalConductivityMain polB test_mpi -j2 mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -c openmx.c mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -c openmx_common.c openmx_common.c: In function 'fnjoint': openmx_common.c:358:7: warning: value computed is not used [-Wunused-value] *f1++; ^ openmx_common.c:359:7: warning: value computed is not used [-Wunused-value] *f4++; ^ openmx_common.c:364:7: warning: value computed is not used [-Wunused-value] *f2++; ^ openmx_common.c:365:7: warning: value computed is not used [-Wunused-value] *f4++; ^ openmx_common.c:370:7: warning: value computed is not used [-Wunused-value] *f3++; ^ openmx_common.c:371:7: warning: value computed is not used [-Wunused-value] *f4++; ^ openmx_common.c: In function 'fnjoint2': openmx_common.c:388:7: warning: value computed is not used [-Wunused-value] *f1++; ^ openmx_common.c:389:7: warning: value computed is not used [-Wunused-value] *f4++; ^ openmx_common.c:394:7: warning: value computed is not used [-Wunused-value] *f2++; ^ openmx_common.c:395:7: warning: value computed is not used [-Wunused-value] *f4++; ^ openmx_common.c:400:7: warning: value computed is not used [-Wunused-value] *f3++; ^ openmx_common.c:401:7: warning: value computed is not used [-Wunused-value] *f4++; ^ openmx_common.c: In function 'chcp': openmx_common.c:418:5: warning: value computed is not used [-Wunused-value] *f1++; ^ openmx_common.c:419:5: warning: value computed is not used [-Wunused-value] *f2++; ^ In file included from openmx_common.c:19:0: openmx_common.c: At top level: openmx_common.h:1:13: warning: 'Version_OpenMX' defined but not used [-Wunused-variable] static char Version_OpenMX[30] = "3.8.5"; /* version of OpenMX */ ^ openmx_common.h:88:12: warning: 'NfundamentalNum' defined but not used [-Wunused-variable] static int NfundamentalNum=4; ^ openmx_common.h:89:12: warning: 'fundamentalNum' defined but not used [-Wunused-variable] static int fundamentalNum[4]={2,3,5,7}; ^ In file included from openmx_common.c:19:0: openmx_common.h:3952:12: warning: 'NBLK' defined but not used [-Wunused-variable] static int NBLK=128; ^ In file included from openmx.c:67:0: openmx_common.h:88:12: warning: 'NfundamentalNum' defined but not used [-Wunused-variable] static int NfundamentalNum=4; ^ openmx_common.h:89:12: warning: 'fundamentalNum' defined but not used [-Wunused-variable] static int fundamentalNum[4]={2,3,5,7}; ^ In file included from openmx.c:67:0: openmx_common.h:3952:12: warning: 'NBLK' defined but not used [-Wunused-variable] static int NBLK=128; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -c Input_std.c mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -c Inputtools.c Input_std.c: In function 'Input_std': Input_std.c:206:3: warning: suggest parentheses around assignment used as truth value [-Wparentheses] if (fp=input_find("FermiEps || (cal_partial_charge && (FermiEpsFermiEps || (cal_partial_charge && (FermiEps= tmp_threshold){ ^ NBO_Krylov.c:8643:11: note: 'tmp_threshold' was declared here double tmp_threshold,sum; ^ NBO_Krylov.c:1139:23: warning: 'kp' may be used uninitialized in this function [-Wmaybe-uninitialized] int jc, jp, kc, kg, kp; ^ NBO_Krylov.c:1139:11: warning: 'jp' may be used uninitialized in this function [-Wmaybe-uninitialized] int jc, jp, kc, kg, kp; ^ NBO_Krylov.c:1127:13: warning: 'tmp_array' may be used uninitialized in this function [-Wmaybe-uninitialized] free(tmp_array); /* freeing of array */ ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx.o exx.c exx.c: In function 'EXX_New': exx.c:161:19: warning: 'nshell_ep' may be used uninitialized in this function [-Wmaybe-uninitialized] self->nshell_ep = nshell_ep; ^ exx.c:136:7: warning: 'nshell_op' may be used uninitialized in this function [-Wmaybe-uninitialized] nop = EXX_Index_OP(natom, nshell_op, self->atom_rc, self->atom_v, ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_index.o exx_index.c exx_index.c: In function 'EXX_Index_Cmp_OP': exx_index.c:91:25: warning: variable 'ic0_op' set but not used [-Wunused-but-set-variable] int ncd_op, ncell_op, ic0_op; ^ exx_index.c: In function 'EXX_Index_OP': exx_index.c:331:47: warning: unused variable 'z' [-Wunused-variable] double c1[3], c2[3], rc1, rc2, cc[3], x, y, z, d; ^ exx_index.c:331:44: warning: unused variable 'y' [-Wunused-variable] double c1[3], c2[3], rc1, rc2, cc[3], x, y, z, d; ^ exx_index.c:331:41: warning: unused variable 'x' [-Wunused-variable] double c1[3], c2[3], rc1, rc2, cc[3], x, y, z, d; ^ exx_index.c:331:34: warning: unused variable 'cc' [-Wunused-variable] double c1[3], c2[3], rc1, rc2, cc[3], x, y, z, d; ^ exx_index.c: In function 'EXX_Index_EQ': exx_index.c:418:18: warning: unused variable 'cc2' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:418:10: warning: unused variable 'cc1' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:414:53: warning: variable 'ic0_op' set but not used [-Wunused-but-set-variable] int neq, ncell, ncd, nshell_op, ncell_op, ncd_op, ic0_op; ^ exx_index.c: In function 'EXX_Index_EP': exx_index.c:561:36: warning: variable 'ic0_op' set but not used [-Wunused-but-set-variable] int nshell_op, ncd_op, ncell_op, ic0_op, ncd, ncell, iflag, nep; ^ exx_index.c: In function 'EXX_Index_NQ_Full': exx_index.c:690:18: warning: unused variable 'cc2' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:690:10: warning: unused variable 'cc1' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:686:52: warning: variable 'ic0_op' set but not used [-Wunused-but-set-variable] int nq, ncell, ncd, nshell_op, ncell_op, ncd_op, ic0_op; ^ exx_index.c:685:59: warning: variable 'ic0' set but not used [-Wunused-but-set-variable] int iatm1, iatm2, iatm3, iatm4, icell1, icell2, icell3, ic0; ^ exx_index.c: In function 'EXX_Index_NQ_Reduced': exx_index.c:802:18: warning: unused variable 'cc2' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:802:10: warning: unused variable 'cc1' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:798:52: warning: variable 'ic0_op' set but not used [-Wunused-but-set-variable] int nq, ncell, ncd, nshell_op, ncell_op, ncd_op, ic0_op; ^ exx_index.c:797:59: warning: variable 'ic0' set but not used [-Wunused-but-set-variable] int iatm1, iatm2, iatm3, iatm4, icell1, icell2, icell3, ic0; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_vector.o exx_vector.c mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_log.o exx_log.c mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_step1.o exx_step1.c exx_step1.c: In function 'EXX_Step1': exx_step1.c:63:14: warning: unused variable 'mpistat' [-Wunused-variable] MPI_Status mpistat; ^ exx_step1.c:55:16: warning: unused variable 'nq_sig' [-Wunused-variable] int nq_full, nq_sig; ^ exx_step1.c:55:7: warning: unused variable 'nq_full' [-Wunused-variable] int nq_full, nq_sig; ^ exx_step1.c:39:16: warning: unused variable 'z' [-Wunused-variable] double x, y, z, c1[3], c2[3], rc1, rc2, d, rc12, cx12, c12[3]; ^ exx_step1.c:39:13: warning: unused variable 'y' [-Wunused-variable] double x, y, z, c1[3], c2[3], rc1, rc2, d, rc12, cx12, c12[3]; ^ exx_step1.c:39:10: warning: unused variable 'x' [-Wunused-variable] double x, y, z, c1[3], c2[3], rc1, rc2, d, rc12, cx12, c12[3]; ^ exx_step1.c:33:10: warning: unused variable 'j' [-Wunused-variable] int i, j; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_step2.o exx_step2.c exx_step2.c: In function 'step2_core': exx_step2.c:116:27: warning: unused variable 'glY' [-Wunused-variable] double *mm_A, *mul_gc, *glY; ^ exx_step2.c:116:11: warning: unused variable 'mm_A' [-Wunused-variable] double *mm_A, *mul_gc, *glY; ^ exx_step2.c:113:22: warning: unused variable 'X' [-Wunused-variable] double I4[NRNMAX], X[NRNMAX*ERI_LMAXMAX*ERI_LMAXMAX]; ^ exx_step2.c:113:10: warning: unused variable 'I4' [-Wunused-variable] double I4[NRNMAX], X[NRNMAX*ERI_LMAXMAX*ERI_LMAXMAX]; ^ exx_step2.c:108:17: warning: unused variable 'nrn0' [-Wunused-variable] int nrn, irn, nrn0; ^ exx_step2.c:102:34: warning: unused variable 'cnt3' [-Wunused-variable] unsigned long long cnt1, cnt2, cnt3; ^ exx_step2.c:100:16: warning: variable 'thresh' set but not used [-Wunused-but-set-variable] double rmin, thresh; ^ exx_step2.c:95:17: warning: unused variable 'glf2_max' [-Wunused-variable] const double *glf2_max; ^ exx_step2.c:94:17: warning: unused variable 'glf1_max' [-Wunused-variable] const double *glf1_max; ^ exx_step2.c:93:22: warning: unused variable 'ip2' [-Wunused-variable] int np1, np2, ip1, ip2; ^ exx_step2.c:93:17: warning: unused variable 'ip1' [-Wunused-variable] int np1, np2, ip1, ip2; ^ exx_step2.c:93:12: warning: unused variable 'np2' [-Wunused-variable] int np1, np2, ip1, ip2; ^ exx_step2.c:93:7: warning: unused variable 'np1' [-Wunused-variable] int np1, np2, ip1, ip2; ^ exx_step2.c:87:22: warning: unused variable 'ngrid' [-Wunused-variable] int lmax, lmax_gl, ngrid, ngl, ndglf, nd; ^ exx_step2.c:87:7: warning: unused variable 'lmax' [-Wunused-variable] int lmax, lmax_gl, ngrid, ngl, ndglf, nd; ^ exx_step2.c:74:12: warning: variable 'natom' set but not used [-Wunused-but-set-variable] int nop, natom, nshop, nshep; ^ exx_step2.c:74:7: warning: variable 'nop' set but not used [-Wunused-but-set-variable] int nop, natom, nshop, nshep; ^ exx_step2.c:62:16: warning: unused variable 'j' [-Wunused-variable] int i, k, f, j; ^ exx_step2.c:62:10: warning: unused variable 'k' [-Wunused-variable] int i, k, f, j; ^ exx_step2.c: In function 'EXX_Step2': exx_step2.c:355:41: warning: unused variable 'nd' [-Wunused-variable] int lmax, lmax_gl, ngrid, ngl, ndglf, nd; ^ exx_step2.c:355:34: warning: unused variable 'ndglf' [-Wunused-variable] int lmax, lmax_gl, ngrid, ngl, ndglf, nd; ^ exx_step2.c:340:13: warning: unused variable 'f' [-Wunused-variable] int i, k, f, iop1, iop2, nop; ^ exx_step2.c:340:10: warning: unused variable 'k' [-Wunused-variable] int i, k, f, iop1, iop2, nop; ^ exx_step2.c: In function 'step2_core': exx_step2.c:333:13: warning: 'cnt2' may be used uninitialized in this function [-Wmaybe-uninitialized] *out_cnt2 = cnt2; ^ exx_step2.c:332:13: warning: 'cnt1' may be used uninitialized in this function [-Wmaybe-uninitialized] *out_cnt1 = cnt1; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_file_overlap.o exx_file_overlap.c exx_file_overlap.c: In function 'EXX_File_Overlap_Write': exx_file_overlap.c:28:22: warning: unused variable 'nd1' [-Wunused-variable] int myrank, nproc, nd1, iop; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_file_eri.o exx_file_eri.c exx_file_eri.c: In function 'EXX_File_ERI_Create': exx_file_eri.c:35:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz; ^ exx_file_eri.c: In function 'EXX_File_ERI_Write': exx_file_eri.c:65:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz; ^ exx_file_eri.c:62:17: warning: unused variable 'stat' [-Wunused-variable] int neri, nr, stat; ^ exx_file_eri.c: In function 'EXX_File_ERI_Read_NRecord': exx_file_eri.c:111:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz; ^ exx_file_eri.c: In function 'EXX_File_ERI_Read_Data_Head': exx_file_eri.c:139:14: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t cb, sz; ^ exx_file_eri.c: In function 'EXX_File_ERI_Read': exx_file_eri.c:200:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz, cb; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_interface_openmx.o exx_interface_openmx.c exx_interface_openmx.c: In function 'EXX_OP2EP_Cluster': exx_interface_openmx.c:643:19: warning: variable 'nep' set but not used [-Wunused-but-set-variable] int i, j, k, l, nep; ^ exx_interface_openmx.c: In function 'EXX_Fock_Cluster': exx_interface_openmx.c:765:14: warning: unused variable 'stat' [-Wunused-variable] MPI_Status stat; ^ exx_interface_openmx.c:764:20: warning: unused variable 'iproc' [-Wunused-variable] int nproc, myid, iproc; ^ exx_interface_openmx.c:758:45: warning: variable 'tnoB' set but not used [-Wunused-but-set-variable] int GA_AN, wanA, tnoA, Anum, GB_AN, wanB, tnoB, Bnum; ^ exx_interface_openmx.c:758:20: warning: variable 'tnoA' set but not used [-Wunused-but-set-variable] int GA_AN, wanA, tnoA, Anum, GB_AN, wanB, tnoB, Bnum; ^ exx_interface_openmx.c:753:25: warning: variable 'op_atom2' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:753:14: warning: variable 'op_atom1' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:746:29: warning: unused variable 'nep' [-Wunused-variable] int i, j, n, ir, nr, irn, nep; ^ exx_interface_openmx.c:746:24: warning: unused variable 'irn' [-Wunused-variable] int i, j, n, ir, nr, irn, nep; ^ exx_interface_openmx.c:746:13: warning: unused variable 'n' [-Wunused-variable] int i, j, n, ir, nr, irn, nep; ^ exx_interface_openmx.c: In function 'EXX_Fock_Band': exx_interface_openmx.c:1047:36: warning: variable 'si2' set but not used [-Wunused-but-set-variable] double kRn, kRmp, co1, si1, co2, si2; ^ exx_interface_openmx.c:1047:31: warning: variable 'co2' set but not used [-Wunused-but-set-variable] double kRn, kRmp, co1, si1, co2, si2; ^ exx_interface_openmx.c:1043:14: warning: unused variable 'stat' [-Wunused-variable] MPI_Status stat; ^ exx_interface_openmx.c:1028:25: warning: variable 'op_atom2' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:1028:14: warning: variable 'op_atom1' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:1021:29: warning: unused variable 'nep' [-Wunused-variable] int i, j, n, ir, nr, irn, nep; ^ exx_interface_openmx.c:1021:13: warning: unused variable 'n' [-Wunused-variable] int i, j, n, ir, nr, irn, nep; ^ exx_interface_openmx.c: In function 'EXX_Energy_Band': exx_interface_openmx.c:1237:14: warning: unused variable 'stat' [-Wunused-variable] MPI_Status stat; ^ exx_interface_openmx.c:1227:25: warning: variable 'op_atom2' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:1227:14: warning: variable 'op_atom1' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:1223:63: warning: variable 'icell2' set but not used [-Wunused-but-set-variable] int iatm1, iatm2, iatm3, iatm4, ib1, ib2, ib3, ib4, icell1, icell2; ^ exx_interface_openmx.c:1223:55: warning: variable 'icell1' set but not used [-Wunused-but-set-variable] int iatm1, iatm2, iatm3, iatm4, ib1, ib2, ib3, ib4, icell1, icell2; ^ exx_interface_openmx.c:1221:26: warning: variable 'Bnum' set but not used [-Wunused-but-set-variable] int GA_AN,Anum, GB_AN, Bnum; ^ exx_interface_openmx.c:1221:19: warning: unused variable 'GB_AN' [-Wunused-variable] int GA_AN,Anum, GB_AN, Bnum; ^ exx_interface_openmx.c:1221:13: warning: variable 'Anum' set but not used [-Wunused-but-set-variable] int GA_AN,Anum, GB_AN, Bnum; ^ exx_interface_openmx.c:1221:7: warning: unused variable 'GA_AN' [-Wunused-variable] int GA_AN,Anum, GB_AN, Bnum; ^ exx_interface_openmx.c:1219:29: warning: unused variable 'nep' [-Wunused-variable] int i, j, n, ir, nr, irn, nep, spin; ^ exx_interface_openmx.c:1219:13: warning: unused variable 'n' [-Wunused-variable] int i, j, n, ir, nr, irn, nep, spin; ^ exx_interface_openmx.c:1218:22: warning: unused variable 'iproc' [-Wunused-variable] int myrank, nproc, iproc; ^ In file included from exx_interface_openmx.c:10:0: exx_interface_openmx.c: At top level: openmx_common.h:1:13: warning: 'Version_OpenMX' defined but not used [-Wunused-variable] static char Version_OpenMX[30] = "3.8.5"; /* version of OpenMX */ ^ openmx_common.h:88:12: warning: 'NfundamentalNum' defined but not used [-Wunused-variable] static int NfundamentalNum=4; ^ openmx_common.h:89:12: warning: 'fundamentalNum' defined but not used [-Wunused-variable] static int fundamentalNum[4]={2,3,5,7}; ^ In file included from exx_interface_openmx.c:10:0: openmx_common.h:3952:12: warning: 'NBLK' defined but not used [-Wunused-variable] static int NBLK=128; ^ exx_interface_openmx.c: In function 'EXX_on_OpenMX_Init': exx_interface_openmx.c:256:18: warning: 'rc_cut' may be used uninitialized in this function [-Wmaybe-uninitialized] g_exx = EXX_New(natom, atom_v, atom_sp, nspec, spec_rc, spec_nb, ^ exx_interface_openmx.c:256:18: warning: 'system_type' may be used uninitialized in this function [-Wmaybe-uninitialized] mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_debug.o exx_debug.c exx_debug.c: In function 'EXX_Debug_Copy_DM': exx_debug.c:22:20: warning: unused variable 'diff' [-Wunused-variable] double dm1, dm2, diff; ^ exx_debug.c:22:15: warning: unused variable 'dm2' [-Wunused-variable] double dm1, dm2, diff; ^ exx_debug.c:22:10: warning: unused variable 'dm1' [-Wunused-variable] double dm1, dm2, diff; ^ exx_debug.c:20:17: warning: unused variable 'iatm' [-Wunused-variable] int iep, nep, iatm, nb, nb1, nb2, nbmax; ^ exx_debug.c:18:34: warning: unused variable 'iproc' [-Wunused-variable] int spin, i, j, myrank, nproc, iproc, ib; ^ exx_debug.c: In function 'EXX_Debug_Check_DM': exx_debug.c:191:12: warning: unused variable 'ia2' [-Wunused-variable] int ia1, ia2, l1, l2, l3, iep, Rn; ^ exx_debug.c:191:7: warning: unused variable 'ia1' [-Wunused-variable] int ia1, ia2, l1, l2, l3, iep, Rn; ^ exx_debug.c:189:33: warning: unused variable 'Anum' [-Wunused-variable] int i, j, spin, MA_AN, GA_AN, Anum, LB_AN, GB_AN; ^ In file included from exx_debug.c:4:0: exx_debug.c: At top level: openmx_common.h:1:13: warning: 'Version_OpenMX' defined but not used [-Wunused-variable] static char Version_OpenMX[30] = "3.8.5"; /* version of OpenMX */ ^ openmx_common.h:88:12: warning: 'NfundamentalNum' defined but not used [-Wunused-variable] static int NfundamentalNum=4; ^ openmx_common.h:89:12: warning: 'fundamentalNum' defined but not used [-Wunused-variable] static int fundamentalNum[4]={2,3,5,7}; ^ In file included from exx_debug.c:4:0: openmx_common.h:3952:12: warning: 'NBLK' defined but not used [-Wunused-variable] static int NBLK=128; ^ exx_debug.c: In function 'EXX_Initial_DM': exx_debug.c:137:14: warning: 'spin' may be used uninitialized in this function [-Wmaybe-uninitialized] exx_CDM[spin][iep][i][i].r = den; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_xc.o exx_xc.c In file included from exx_xc.c:11:0: openmx_common.h:1:13: warning: 'Version_OpenMX' defined but not used [-Wunused-variable] static char Version_OpenMX[30] = "3.8.5"; /* version of OpenMX */ ^ openmx_common.h:88:12: warning: 'NfundamentalNum' defined but not used [-Wunused-variable] static int NfundamentalNum=4; ^ openmx_common.h:89:12: warning: 'fundamentalNum' defined but not used [-Wunused-variable] static int fundamentalNum[4]={2,3,5,7}; ^ In file included from exx_xc.c:11:0: openmx_common.h:3952:12: warning: 'NBLK' defined but not used [-Wunused-variable] static int NBLK=128; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_rhox.o exx_rhox.c exx_rhox.c: In function 'EXX_Output_DM': exx_rhox.c:21:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz; ^ exx_rhox.c:16:38: warning: unused variable 'icell' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ exx_rhox.c:16:31: warning: unused variable 'iatm2' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ exx_rhox.c:16:24: warning: unused variable 'iatm1' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ exx_rhox.c:15:15: warning: unused variable 'nproc' [-Wunused-variable] int myrank, nproc; ^ exx_rhox.c:15:7: warning: unused variable 'myrank' [-Wunused-variable] int myrank, nproc; ^ exx_rhox.c: In function 'EXX_Input_DM': exx_rhox.c:92:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz; ^ exx_rhox.c:87:38: warning: unused variable 'icell' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ exx_rhox.c:87:31: warning: unused variable 'iatm2' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ exx_rhox.c:87:24: warning: unused variable 'iatm1' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ In file included from exx_rhox.c:7:0: exx_rhox.c: At top level: openmx_common.h:1:13: warning: 'Version_OpenMX' defined but not used [-Wunused-variable] static char Version_OpenMX[30] = "3.8.5"; /* version of OpenMX */ ^ openmx_common.h:88:12: warning: 'NfundamentalNum' defined but not used [-Wunused-variable] static int NfundamentalNum=4; ^ openmx_common.h:89:12: warning: 'fundamentalNum' defined but not used [-Wunused-variable] static int fundamentalNum[4]={2,3,5,7}; ^ In file included from exx_rhox.c:7:0: openmx_common.h:3952:12: warning: 'NBLK' defined but not used [-Wunused-variable] static int NBLK=128; ^ exx_rhox.c: In function 'EXX_Input_DM': exx_rhox.c:163:16: warning: ignoring return value of 'fread', declared with attribute warn_unused_result [-Wunused-result] fread(&exx_DM[spin][iep][i][j].r, sizeof(double), 1, fp); ^ exx_rhox.c:164:16: warning: ignoring return value of 'fread', declared with attribute warn_unused_result [-Wunused-result] fread(&exx_DM[spin][iep][i][j].i, sizeof(double), 1, fp); ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/eri.o liberi-091216/source/eri.c mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/eri_ll.o liberi-091216/source/eri_ll.c liberi-091216/source/eri.c: In function 'ERI_Overlap': liberi-091216/source/eri.c:133:5: warning: passing argument 5 of 'ERI_LL_Overlap_d' from incompatible pointer type [enabled by default] ERI_LL_Overlap_d(solver, p, dp, alp1, dalp1, alp2, dalp2, cx); ^ In file included from liberi-091216/source/eri.c:14:0: liberi-091216/source/eri.h:527:6: note: expected 'const double **' but argument is of type 'double **' void ERI_LL_Overlap_d( ^ liberi-091216/source/eri.c:133:5: warning: passing argument 7 of 'ERI_LL_Overlap_d' from incompatible pointer type [enabled by default] ERI_LL_Overlap_d(solver, p, dp, alp1, dalp1, alp2, dalp2, cx); ^ In file included from liberi-091216/source/eri.c:14:0: liberi-091216/source/eri.h:527:6: note: expected 'const double **' but argument is of type 'double **' void ERI_LL_Overlap_d( ^ liberi-091216/source/eri.c:45:26: warning: unused variable 'j' [-Wunused-variable] int ngrid, lmax, jmax, j; ^ liberi-091216/source/eri.c:45:20: warning: variable 'jmax' set but not used [-Wunused-but-set-variable] int ngrid, lmax, jmax, j; ^ liberi-091216/source/eri.c:45:7: warning: variable 'ngrid' set but not used [-Wunused-but-set-variable] int ngrid, lmax, jmax, j; ^ liberi-091216/source/eri.c: In function 'ERI_Integral': liberi-091216/source/eri.c:229:23: warning: passing argument 3 of 'ERI_Integral_GL_d' from incompatible pointer type [enabled by default] R[0], R[1], R[2], cx12, cx34, 1e-10, scr, lmax_gl); ^ In file included from liberi-091216/source/eri.c:14:0: liberi-091216/source/eri.h:571:6: note: expected 'double (*)[3][2]' but argument is of type 'double *' void ERI_Integral_GL_d( ^ liberi-091216/source/eri.c:229:23: warning: passing argument 6 of 'ERI_Integral_GL_d' from incompatible pointer type [enabled by default] R[0], R[1], R[2], cx12, cx34, 1e-10, scr, lmax_gl); ^ In file included from liberi-091216/source/eri.c:14:0: liberi-091216/source/eri.h:571:6: note: expected 'const double **' but argument is of type 'double **' void ERI_Integral_GL_d( ^ liberi-091216/source/eri.c:229:23: warning: passing argument 7 of 'ERI_Integral_GL_d' from incompatible pointer type [enabled by default] R[0], R[1], R[2], cx12, cx34, 1e-10, scr, lmax_gl); ^ In file included from liberi-091216/source/eri.c:14:0: liberi-091216/source/eri.h:571:6: note: expected 'const double **' but argument is of type 'double **' void ERI_Integral_GL_d( ^ liberi-091216/source/eri.c:191:23: warning: unused variable 'clk3' [-Wunused-variable] clock_t clk1, clk2, clk3; ^ liberi-091216/source/eri.c:191:17: warning: unused variable 'clk2' [-Wunused-variable] clock_t clk1, clk2, clk3; ^ liberi-091216/source/eri.c:191:11: warning: unused variable 'clk1' [-Wunused-variable] clock_t clk1, clk2, clk3; ^ liberi-091216/source/eri.c: In function 'orbital_T': liberi-091216/source/eri.c:268:17: warning: variable 'kmesh' set but not used [-Wunused-but-set-variable] const double *kmesh; ^ liberi-091216/source/eri.c: At top level: liberi-091216/source/eri.c:330:15: warning: 'orbital_r' defined but not used [-Wunused-function] static double orbital_r( ^ liberi-091216/source/eri_ll.c: In function 'ERI_Required_Size': liberi-091216/source/eri_ll.c:210:17: warning: variable 'jmax' set but not used [-Wunused-but-set-variable] int nq, type, jmax; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Alpha': liberi-091216/source/eri_ll.c:597:26: warning: variable 'm1' set but not used [-Wunused-but-set-variable] int j, j1, j2, ir, l1, m1, l2, m2; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Alpha_d': liberi-091216/source/eri_ll.c:755:29: warning: variable 'm1' set but not used [-Wunused-but-set-variable] int i, j, ir, j1, j2, l1, m1, l2, m2; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Overlap': liberi-091216/source/eri_ll.c:1033:14: warning: unused variable 'j2m' [-Wunused-variable] const int *j2m = g_itbl_j2m; ^ liberi-091216/source/eri_ll.c:1032:14: warning: unused variable 'j2l' [-Wunused-variable] const int *j2l = g_itbl_j2l; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Overlap_d': liberi-091216/source/eri_ll.c:1178:49: warning: variable 'm' set but not used [-Wunused-but-set-variable] int i, j, j1, j2, ir, ia1, ia2, ip, ixyz, l, m; ^ liberi-091216/source/eri_ll.c:1178:46: warning: variable 'l' set but not used [-Wunused-but-set-variable] int i, j, j1, j2, ir, ia1, ia2, ip, ixyz, l, m; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL': liberi-091216/source/eri_ll.c:1672:18: warning: unused variable 'gnt_r' [-Wunused-variable] double k, gnt, gnt_r[2], sum[2], FG[2], int1[2], sum2[2]; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL_PrejY': liberi-091216/source/eri_ll.c:2165:13: warning: unused variable 'z' [-Wunused-variable] double k, z; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL_Post': liberi-091216/source/eri_ll.c:2316:15: warning: unused variable 'sh' [-Wunused-variable] double gnt, sh, sum; ^ liberi-091216/source/eri_ll.c:2315:41: warning: unused variable 'l2' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2315:37: warning: unused variable 'l1' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2314:30: warning: unused variable 'lphase' [-Wunused-variable] int ngl, lmax, jmax, nmul, lphase; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL_Post2': liberi-091216/source/eri_ll.c:2413:15: warning: unused variable 'sh' [-Wunused-variable] double gnt, sh, sum; ^ liberi-091216/source/eri_ll.c:2412:41: warning: unused variable 'l2' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2412:37: warning: unused variable 'l1' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2411:30: warning: unused variable 'lphase' [-Wunused-variable] int ngl, lmax, jmax, nmul, lphase; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL_X': liberi-091216/source/eri_ll.c:2488:41: warning: unused variable 'l2' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2488:37: warning: unused variable 'l1' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2488:7: warning: unused variable 'iR' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2487:30: warning: unused variable 'lphase' [-Wunused-variable] int ngl, lmax, jmax, nmul, lphase; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/eri_sf.o liberi-091216/source/eri_sf.c liberi-091216/source/eri_sf.c: In function 'sph_bessel_drec': liberi-091216/source/eri_sf.c:214:39: warning: variable 'ix2' set but not used [-Wunused-but-set-variable] double j0, j1, sf, tmp, si, co, ix, ix2, tsb[1024], huge; ^ liberi-091216/source/eri_sf.c: In function 'ERI_Gaunt': liberi-091216/source/eri_sf.c:529:10: warning: unused variable 'result' [-Wunused-variable] double result, cg1, cg2; ^ liberi-091216/source/eri_sf.c:528:28: warning: unused variable 'tmp3' [-Wunused-variable] double tmp0, tmp1, tmp2, tmp3; ^ liberi-091216/source/eri_sf.c:528:22: warning: unused variable 'tmp2' [-Wunused-variable] double tmp0, tmp1, tmp2, tmp3; ^ liberi-091216/source/eri_sf.c:528:16: warning: unused variable 'tmp1' [-Wunused-variable] double tmp0, tmp1, tmp2, tmp3; ^ liberi-091216/source/eri_sf.c:528:10: warning: unused variable 'tmp0' [-Wunused-variable] double tmp0, tmp1, tmp2, tmp3; ^ liberi-091216/source/eri_sf.c: At top level: liberi-091216/source/eri_sf.c:114:13: warning: 'ERI_RCSH_Coeff_Inverse' defined but not used [-Wunused-function] static void ERI_RCSH_Coeff_Inverse(int m, double c[2], double d[2]) ^ liberi-091216/source/eri_ll.c: In function 'ERI_Size_of_Alpha': liberi-091216/source/eri_ll.c:375:32: warning: 'ndalp' may be used uninitialized in this function [-Wmaybe-uninitialized] return sizeof(double)*(ndalp + jmax); ^ liberi-091216/source/eri_ll.c: In function 'ERI_Size_of_Overlap': liberi-091216/source/eri_ll.c:395:30: warning: 'ndp' may be used uninitialized in this function [-Wmaybe-uninitialized] return sizeof(double)*(ndp + jmax0); ^ liberi-091216/source/eri_ll.c: In function 'ERI_Size_of_GLF': liberi-091216/source/eri_ll.c:415:32: warning: 'ndglf' may be used uninitialized in this function [-Wmaybe-uninitialized] return sizeof(double)*(ndglf + jmax0); ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Alpha': liberi-091216/source/eri_ll.c:632:11: warning: 'ndalp' may be used uninitialized in this function [-Wmaybe-uninitialized] amax = &alp[ndalp]; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Alpha_d': liberi-091216/source/eri_ll.c:798:14: warning: 'ndalp' may be used uninitialized in this function [-Wmaybe-uninitialized] amax = &alp[ndalp]; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/eri_interpolate.o liberi-091216/source/eri_interpolate.c liberi-091216/source/eri_ll.c: In function 'ERI_LL_Overlap': liberi-091216/source/eri_ll.c:1071:11: warning: 'ndalp' may be used uninitialized in this function [-Wmaybe-uninitialized] amax1 = &a1[ndalp]; ^ liberi-091216/source/eri_ll.c:1073:11: warning: 'ndp' may be used uninitialized in this function [-Wmaybe-uninitialized] pmax = &p[ndp]; ^ liberi-091216/source/eri_interpolate.c: In function 'extrapolate': liberi-091216/source/eri_interpolate.c:297:10: warning: variable 'c' set but not used [-Wunused-but-set-variable] double c; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Overlap_d': liberi-091216/source/eri_ll.c:1220:15: warning: 'ndalp' may be used uninitialized in this function [-Wmaybe-uninitialized] amax1 = &a1[ndalp]; ^ liberi-091216/source/eri_ll.c:1185:7: warning: 'ndp' may be used uninitialized in this function [-Wmaybe-uninitialized] int ndp, ndalp; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/eri_gtbl.o liberi-091216/source/eri_gtbl.c liberi-091216/source/eri_ll.c: In function 'ERI_Transform_Overlap': liberi-091216/source/eri_ll.c:1492:10: warning: 'ndp' may be used uninitialized in this function [-Wmaybe-uninitialized] pmax = &P[ndp]; ^ liberi-091216/source/eri_gtbl.c: In function 'gtbl_nmax': liberi-091216/source/eri_gtbl.c:72:36: warning: unused variable 'j2' [-Wunused-variable] int l, m, j, l1, m1, j1, l2, m2, j2, lsum, n, jmax; ^ liberi-091216/source/eri_gtbl.c:72:24: warning: unused variable 'j1' [-Wunused-variable] int l, m, j, l1, m1, j1, l2, m2, j2, lsum, n, jmax; ^ liberi-091216/source/eri_ll.c: In function 'ERI_GL_Interpolate': liberi-091216/source/eri_ll.c:1594:12: warning: 'ndglf' may be used uninitialized in this function [-Wmaybe-uninitialized] glfmax = &glF[ndglf]; ^ liberi-091216/source/eri_ll.c:1595:12: warning: 'ndf' may be used uninitialized in this function [-Wmaybe-uninitialized] fmax = &F[ndf]; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL': liberi-091216/source/eri_ll.c:1721:11: warning: 'ndglf' may be used uninitialized in this function [-Wmaybe-uninitialized] fmax1 = &F1[ndglf]; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/sbt/eri_sbt.o liberi-091216/source/sbt/eri_sbt.c liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL_d': liberi-091216/source/eri_ll.c:1938:11: warning: 'ndglf' may be used uninitialized in this function [-Wmaybe-uninitialized] fmax1 = &F1[ndglf]; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/sbt/log/eri_fsbt.o liberi-091216/source/sbt/log/eri_fsbt.c liberi-091216/source/sbt/log/eri_fsbt.c: In function 'ERI_FSBT_Transform_Input': liberi-091216/source/sbt/log/eri_fsbt.c:255:17: warning: unused variable 'Mmesh' [-Wunused-variable] fftw_complex *Mmesh = ptr->M; ^ liberi-091216/source/sbt/log/eri_fsbt.c: In function 'ERI_FSBT_Transform_Output': liberi-091216/source/sbt/log/eri_fsbt.c:286:10: warning: unused variable 'rho' [-Wunused-variable] double rho, kap, t, p, c, s, e; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/sbt/log/eri_logfsbt.o liberi-091216/source/sbt/log/eri_logfsbt.c mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/sbt/linear/eri_linfsbt.o liberi-091216/source/sbt/linear/eri_linfsbt.c liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'segment_cubic': liberi-091216/source/sbt/linear/eri_linfsbt.c:294:53: warning: unused variable 'c3i' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:48: warning: unused variable 'c3r' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:43: warning: unused variable 'c2i' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:38: warning: unused variable 'c2r' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:33: warning: unused variable 'c1i' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:28: warning: unused variable 'c1r' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:23: warning: unused variable 'c0i' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:18: warning: unused variable 'c0r' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:14: warning: unused variable 'dy' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:10: warning: unused variable 'dx' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'recsum_cubic_twoway_new': liberi-091216/source/sbt/linear/eri_linfsbt.c:454:40: warning: unused variable 'dn7' [-Wunused-variable] double dn1, dn2, dn3, dn4, dn5, dn6, dn7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'recsum_cubic_upward_new': liberi-091216/source/sbt/linear/eri_linfsbt.c:602:40: warning: unused variable 'dn7' [-Wunused-variable] double dn1, dn2, dn3, dn4, dn5, dn6, dn7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:600:13: warning: unused variable 'j' [-Wunused-variable] int n, i, j; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'calculate_gamma': liberi-091216/source/sbt/linear/eri_linfsbt.c:793:42: warning: unused variable 'g7' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:38: warning: unused variable 'g6' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:34: warning: unused variable 'g5' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:30: warning: unused variable 'g4' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:26: warning: unused variable 'g3' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:22: warning: unused variable 'g2' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:17: warning: unused variable 'tmp' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:10: warning: unused variable 'x' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'transform_switch': liberi-091216/source/sbt/linear/eri_linfsbt.c:941:17: warning: unused variable 'iodd' [-Wunused-variable] int n, ieven, iodd; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:941:10: warning: unused variable 'ieven' [-Wunused-variable] int n, ieven, iodd; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:941:7: warning: unused variable 'n' [-Wunused-variable] int n, ieven, iodd; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'transform_in': liberi-091216/source/sbt/linear/eri_linfsbt.c:961:7: warning: unused variable 'i' [-Wunused-variable] int i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'transform_out': liberi-091216/source/sbt/linear/eri_linfsbt.c:999:22: warning: unused variable 'twon' [-Wunused-variable] double fact, twop, twon; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:999:16: warning: unused variable 'twop' [-Wunused-variable] double fact, twop, twon; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:999:10: warning: unused variable 'fact' [-Wunused-variable] double fact, twop, twon; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: At top level: liberi-091216/source/sbt/linear/eri_linfsbt.c:83:19: warning: 'S0_asymptotic' defined but not used [-Wunused-function] ERI_INLINE double S0_asymptotic( ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -o DosMain.o -c DosMain.c DosMain.c: In function 'Dos_Histgram': DosMain.c:372:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c: In function 'Dos_Gaussian': DosMain.c:487:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c: In function 'DosDC_Gaussian': DosMain.c:667:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c:660:16: warning: unused variable 'k' [-Wunused-variable] int spin,i,j,k,ieg,iecenter; ^ DosMain.c:660:14: warning: unused variable 'j' [-Wunused-variable] int spin,i,j,k,ieg,iecenter; ^ DosMain.c: In function 'Dos_NEGF': DosMain.c:839:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c:832:18: warning: unused variable 'factor' [-Wunused-variable] double eg,x,xa,factor,wval; ^ DosMain.c:832:15: warning: unused variable 'xa' [-Wunused-variable] double eg,x,xa,factor,wval; ^ DosMain.c:832:13: warning: unused variable 'x' [-Wunused-variable] double eg,x,xa,factor,wval; ^ DosMain.c:832:10: warning: unused variable 'eg' [-Wunused-variable] double eg,x,xa,factor,wval; ^ DosMain.c:830:22: warning: unused variable 'iecenter' [-Wunused-variable] int spin,i,j,k,ieg,iecenter; ^ DosMain.c:828:7: warning: unused variable 'iewidth' [-Wunused-variable] int iewidth,ie; ^ DosMain.c:827:10: warning: unused variable 'pi2' [-Wunused-variable] double pi2; ^ DosMain.c: In function 'Dos_Tetrahedron': DosMain.c:986:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c: In function 'Spectra_Gaussian': DosMain.c:1179:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c:1175:28: warning: unused variable 'dE' [-Wunused-variable] double dossum[2],MulP[5],dE; ^ DosMain.c:1175:20: warning: unused variable 'MulP' [-Wunused-variable] double dossum[2],MulP[5],dE; ^ DosMain.c: In function 'SpectraDC_Gaussian': DosMain.c:1537:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c:1528:14: warning: unused variable 'i_Dos' [-Wunused-variable] int N_Dos, i_Dos[10]; ^ DosMain.c:1528:7: warning: unused variable 'N_Dos' [-Wunused-variable] int N_Dos, i_Dos[10]; ^ DosMain.c:1526:15: warning: unused variable 'rval' [-Wunused-variable] double eg,x,rval,xa,tmp1; ^ DosMain.c:1524:16: warning: unused variable 'k' [-Wunused-variable] int i,spin,j,k; ^ DosMain.c:1524:14: warning: unused variable 'j' [-Wunused-variable] int i,spin,j,k; ^ DosMain.c: In function 'Spectra_Tetrahedron': DosMain.c:1854:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c: In function 'Spectra_NEGF': DosMain.c:2317:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c:2313:28: warning: unused variable 'dE' [-Wunused-variable] double dossum[2],MulP[5],dE; ^ DosMain.c:2313:20: warning: unused variable 'MulP' [-Wunused-variable] double dossum[2],MulP[5],dE; ^ DosMain.c:2310:19: warning: unused variable 'iecenter' [-Wunused-variable] int iewidth,ie,iecenter; ^ DosMain.c:2310:8: warning: unused variable 'iewidth' [-Wunused-variable] int iewidth,ie,iecenter; ^ DosMain.c:2309:14: warning: unused variable 'factor' [-Wunused-variable] double pi2,factor; ^ DosMain.c:2309:10: warning: unused variable 'pi2' [-Wunused-variable] double pi2,factor; ^ DosMain.c:2306:20: warning: unused variable 'xa' [-Wunused-variable] double eg,x,rval,xa; ^ DosMain.c:2306:13: warning: unused variable 'x' [-Wunused-variable] double eg,x,rval,xa; ^ DosMain.c:2306:10: warning: unused variable 'eg' [-Wunused-variable] double eg,x,rval,xa; ^ DosMain.c: In function 'input_file_eg': DosMain.c:2699:5: warning: suggest parentheses around assignment used as truth value [-Wparentheses] if (fp=input_find("FermiEps || (cal_partial_charge && (FermiEpsFermiEps || (cal_partial_charge && (FermiEps= tmp_threshold){ ^ NBO_Krylov.c:8643:11: note: 'tmp_threshold' was declared here double tmp_threshold,sum; ^ NBO_Krylov.c:1139:23: warning: 'kp' may be used uninitialized in this function [-Wmaybe-uninitialized] int jc, jp, kc, kg, kp; ^ NBO_Krylov.c:1139:11: warning: 'jp' may be used uninitialized in this function [-Wmaybe-uninitialized] int jc, jp, kc, kg, kp; ^ NBO_Krylov.c:1127:13: warning: 'tmp_array' may be used uninitialized in this function [-Wmaybe-uninitialized] free(tmp_array); /* freeing of array */ ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx.o exx.c exx.c: In function 'EXX_New': exx.c:161:19: warning: 'nshell_ep' may be used uninitialized in this function [-Wmaybe-uninitialized] self->nshell_ep = nshell_ep; ^ exx.c:136:7: warning: 'nshell_op' may be used uninitialized in this function [-Wmaybe-uninitialized] nop = EXX_Index_OP(natom, nshell_op, self->atom_rc, self->atom_v, ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_index.o exx_index.c exx_index.c: In function 'EXX_Index_Cmp_OP': exx_index.c:91:25: warning: variable 'ic0_op' set but not used [-Wunused-but-set-variable] int ncd_op, ncell_op, ic0_op; ^ exx_index.c: In function 'EXX_Index_OP': exx_index.c:331:47: warning: unused variable 'z' [-Wunused-variable] double c1[3], c2[3], rc1, rc2, cc[3], x, y, z, d; ^ exx_index.c:331:44: warning: unused variable 'y' [-Wunused-variable] double c1[3], c2[3], rc1, rc2, cc[3], x, y, z, d; ^ exx_index.c:331:41: warning: unused variable 'x' [-Wunused-variable] double c1[3], c2[3], rc1, rc2, cc[3], x, y, z, d; ^ exx_index.c:331:34: warning: unused variable 'cc' [-Wunused-variable] double c1[3], c2[3], rc1, rc2, cc[3], x, y, z, d; ^ exx_index.c: In function 'EXX_Index_EQ': exx_index.c:418:18: warning: unused variable 'cc2' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:418:10: warning: unused variable 'cc1' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:414:53: warning: variable 'ic0_op' set but not used [-Wunused-but-set-variable] int neq, ncell, ncd, nshell_op, ncell_op, ncd_op, ic0_op; ^ exx_index.c: In function 'EXX_Index_EP': exx_index.c:561:36: warning: variable 'ic0_op' set but not used [-Wunused-but-set-variable] int nshell_op, ncd_op, ncell_op, ic0_op, ncd, ncell, iflag, nep; ^ exx_index.c: In function 'EXX_Index_NQ_Full': exx_index.c:690:18: warning: unused variable 'cc2' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:690:10: warning: unused variable 'cc1' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:686:52: warning: variable 'ic0_op' set but not used [-Wunused-but-set-variable] int nq, ncell, ncd, nshell_op, ncell_op, ncd_op, ic0_op; ^ exx_index.c:685:59: warning: variable 'ic0' set but not used [-Wunused-but-set-variable] int iatm1, iatm2, iatm3, iatm4, icell1, icell2, icell3, ic0; ^ exx_index.c: In function 'EXX_Index_NQ_Reduced': exx_index.c:802:18: warning: unused variable 'cc2' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:802:10: warning: unused variable 'cc1' [-Wunused-variable] double cc1[3], cc2[3], cc3[3]; ^ exx_index.c:798:52: warning: variable 'ic0_op' set but not used [-Wunused-but-set-variable] int nq, ncell, ncd, nshell_op, ncell_op, ncd_op, ic0_op; ^ exx_index.c:797:59: warning: variable 'ic0' set but not used [-Wunused-but-set-variable] int iatm1, iatm2, iatm3, iatm4, icell1, icell2, icell3, ic0; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_vector.o exx_vector.c mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_log.o exx_log.c mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_step1.o exx_step1.c exx_step1.c: In function 'EXX_Step1': exx_step1.c:63:14: warning: unused variable 'mpistat' [-Wunused-variable] MPI_Status mpistat; ^ exx_step1.c:55:16: warning: unused variable 'nq_sig' [-Wunused-variable] int nq_full, nq_sig; ^ exx_step1.c:55:7: warning: unused variable 'nq_full' [-Wunused-variable] int nq_full, nq_sig; ^ exx_step1.c:39:16: warning: unused variable 'z' [-Wunused-variable] double x, y, z, c1[3], c2[3], rc1, rc2, d, rc12, cx12, c12[3]; ^ exx_step1.c:39:13: warning: unused variable 'y' [-Wunused-variable] double x, y, z, c1[3], c2[3], rc1, rc2, d, rc12, cx12, c12[3]; ^ exx_step1.c:39:10: warning: unused variable 'x' [-Wunused-variable] double x, y, z, c1[3], c2[3], rc1, rc2, d, rc12, cx12, c12[3]; ^ exx_step1.c:33:10: warning: unused variable 'j' [-Wunused-variable] int i, j; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_step2.o exx_step2.c exx_step2.c: In function 'step2_core': exx_step2.c:116:27: warning: unused variable 'glY' [-Wunused-variable] double *mm_A, *mul_gc, *glY; ^ exx_step2.c:116:11: warning: unused variable 'mm_A' [-Wunused-variable] double *mm_A, *mul_gc, *glY; ^ exx_step2.c:113:22: warning: unused variable 'X' [-Wunused-variable] double I4[NRNMAX], X[NRNMAX*ERI_LMAXMAX*ERI_LMAXMAX]; ^ exx_step2.c:113:10: warning: unused variable 'I4' [-Wunused-variable] double I4[NRNMAX], X[NRNMAX*ERI_LMAXMAX*ERI_LMAXMAX]; ^ exx_step2.c:108:17: warning: unused variable 'nrn0' [-Wunused-variable] int nrn, irn, nrn0; ^ exx_step2.c:102:34: warning: unused variable 'cnt3' [-Wunused-variable] unsigned long long cnt1, cnt2, cnt3; ^ exx_step2.c:100:16: warning: variable 'thresh' set but not used [-Wunused-but-set-variable] double rmin, thresh; ^ exx_step2.c:95:17: warning: unused variable 'glf2_max' [-Wunused-variable] const double *glf2_max; ^ exx_step2.c:94:17: warning: unused variable 'glf1_max' [-Wunused-variable] const double *glf1_max; ^ exx_step2.c:93:22: warning: unused variable 'ip2' [-Wunused-variable] int np1, np2, ip1, ip2; ^ exx_step2.c:93:17: warning: unused variable 'ip1' [-Wunused-variable] int np1, np2, ip1, ip2; ^ exx_step2.c:93:12: warning: unused variable 'np2' [-Wunused-variable] int np1, np2, ip1, ip2; ^ exx_step2.c:93:7: warning: unused variable 'np1' [-Wunused-variable] int np1, np2, ip1, ip2; ^ exx_step2.c:87:22: warning: unused variable 'ngrid' [-Wunused-variable] int lmax, lmax_gl, ngrid, ngl, ndglf, nd; ^ exx_step2.c:87:7: warning: unused variable 'lmax' [-Wunused-variable] int lmax, lmax_gl, ngrid, ngl, ndglf, nd; ^ exx_step2.c:74:12: warning: variable 'natom' set but not used [-Wunused-but-set-variable] int nop, natom, nshop, nshep; ^ exx_step2.c:74:7: warning: variable 'nop' set but not used [-Wunused-but-set-variable] int nop, natom, nshop, nshep; ^ exx_step2.c:62:16: warning: unused variable 'j' [-Wunused-variable] int i, k, f, j; ^ exx_step2.c:62:10: warning: unused variable 'k' [-Wunused-variable] int i, k, f, j; ^ exx_step2.c: In function 'EXX_Step2': exx_step2.c:355:41: warning: unused variable 'nd' [-Wunused-variable] int lmax, lmax_gl, ngrid, ngl, ndglf, nd; ^ exx_step2.c:355:34: warning: unused variable 'ndglf' [-Wunused-variable] int lmax, lmax_gl, ngrid, ngl, ndglf, nd; ^ exx_step2.c:340:13: warning: unused variable 'f' [-Wunused-variable] int i, k, f, iop1, iop2, nop; ^ exx_step2.c:340:10: warning: unused variable 'k' [-Wunused-variable] int i, k, f, iop1, iop2, nop; ^ exx_step2.c: In function 'step2_core': exx_step2.c:333:13: warning: 'cnt2' may be used uninitialized in this function [-Wmaybe-uninitialized] *out_cnt2 = cnt2; ^ exx_step2.c:332:13: warning: 'cnt1' may be used uninitialized in this function [-Wmaybe-uninitialized] *out_cnt1 = cnt1; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_file_overlap.o exx_file_overlap.c exx_file_overlap.c: In function 'EXX_File_Overlap_Write': exx_file_overlap.c:28:22: warning: unused variable 'nd1' [-Wunused-variable] int myrank, nproc, nd1, iop; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_file_eri.o exx_file_eri.c exx_file_eri.c: In function 'EXX_File_ERI_Create': exx_file_eri.c:35:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz; ^ exx_file_eri.c: In function 'EXX_File_ERI_Write': exx_file_eri.c:65:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz; ^ exx_file_eri.c:62:17: warning: unused variable 'stat' [-Wunused-variable] int neri, nr, stat; ^ exx_file_eri.c: In function 'EXX_File_ERI_Read_NRecord': exx_file_eri.c:111:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz; ^ exx_file_eri.c: In function 'EXX_File_ERI_Read_Data_Head': exx_file_eri.c:139:14: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t cb, sz; ^ exx_file_eri.c: In function 'EXX_File_ERI_Read': exx_file_eri.c:200:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz, cb; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_interface_openmx.o exx_interface_openmx.c exx_interface_openmx.c: In function 'EXX_OP2EP_Cluster': exx_interface_openmx.c:643:19: warning: variable 'nep' set but not used [-Wunused-but-set-variable] int i, j, k, l, nep; ^ exx_interface_openmx.c: In function 'EXX_Fock_Cluster': exx_interface_openmx.c:765:14: warning: unused variable 'stat' [-Wunused-variable] MPI_Status stat; ^ exx_interface_openmx.c:764:20: warning: unused variable 'iproc' [-Wunused-variable] int nproc, myid, iproc; ^ exx_interface_openmx.c:758:45: warning: variable 'tnoB' set but not used [-Wunused-but-set-variable] int GA_AN, wanA, tnoA, Anum, GB_AN, wanB, tnoB, Bnum; ^ exx_interface_openmx.c:758:20: warning: variable 'tnoA' set but not used [-Wunused-but-set-variable] int GA_AN, wanA, tnoA, Anum, GB_AN, wanB, tnoB, Bnum; ^ exx_interface_openmx.c:753:25: warning: variable 'op_atom2' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:753:14: warning: variable 'op_atom1' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:746:29: warning: unused variable 'nep' [-Wunused-variable] int i, j, n, ir, nr, irn, nep; ^ exx_interface_openmx.c:746:24: warning: unused variable 'irn' [-Wunused-variable] int i, j, n, ir, nr, irn, nep; ^ exx_interface_openmx.c:746:13: warning: unused variable 'n' [-Wunused-variable] int i, j, n, ir, nr, irn, nep; ^ exx_interface_openmx.c: In function 'EXX_Fock_Band': exx_interface_openmx.c:1047:36: warning: variable 'si2' set but not used [-Wunused-but-set-variable] double kRn, kRmp, co1, si1, co2, si2; ^ exx_interface_openmx.c:1047:31: warning: variable 'co2' set but not used [-Wunused-but-set-variable] double kRn, kRmp, co1, si1, co2, si2; ^ exx_interface_openmx.c:1043:14: warning: unused variable 'stat' [-Wunused-variable] MPI_Status stat; ^ exx_interface_openmx.c:1028:25: warning: variable 'op_atom2' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:1028:14: warning: variable 'op_atom1' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:1021:29: warning: unused variable 'nep' [-Wunused-variable] int i, j, n, ir, nr, irn, nep; ^ exx_interface_openmx.c:1021:13: warning: unused variable 'n' [-Wunused-variable] int i, j, n, ir, nr, irn, nep; ^ exx_interface_openmx.c: In function 'EXX_Energy_Band': exx_interface_openmx.c:1237:14: warning: unused variable 'stat' [-Wunused-variable] MPI_Status stat; ^ exx_interface_openmx.c:1227:25: warning: variable 'op_atom2' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:1227:14: warning: variable 'op_atom1' set but not used [-Wunused-but-set-variable] const int *op_atom1, *op_atom2; ^ exx_interface_openmx.c:1223:63: warning: variable 'icell2' set but not used [-Wunused-but-set-variable] int iatm1, iatm2, iatm3, iatm4, ib1, ib2, ib3, ib4, icell1, icell2; ^ exx_interface_openmx.c:1223:55: warning: variable 'icell1' set but not used [-Wunused-but-set-variable] int iatm1, iatm2, iatm3, iatm4, ib1, ib2, ib3, ib4, icell1, icell2; ^ exx_interface_openmx.c:1221:26: warning: variable 'Bnum' set but not used [-Wunused-but-set-variable] int GA_AN,Anum, GB_AN, Bnum; ^ exx_interface_openmx.c:1221:19: warning: unused variable 'GB_AN' [-Wunused-variable] int GA_AN,Anum, GB_AN, Bnum; ^ exx_interface_openmx.c:1221:13: warning: variable 'Anum' set but not used [-Wunused-but-set-variable] int GA_AN,Anum, GB_AN, Bnum; ^ exx_interface_openmx.c:1221:7: warning: unused variable 'GA_AN' [-Wunused-variable] int GA_AN,Anum, GB_AN, Bnum; ^ exx_interface_openmx.c:1219:29: warning: unused variable 'nep' [-Wunused-variable] int i, j, n, ir, nr, irn, nep, spin; ^ exx_interface_openmx.c:1219:13: warning: unused variable 'n' [-Wunused-variable] int i, j, n, ir, nr, irn, nep, spin; ^ exx_interface_openmx.c:1218:22: warning: unused variable 'iproc' [-Wunused-variable] int myrank, nproc, iproc; ^ In file included from exx_interface_openmx.c:10:0: exx_interface_openmx.c: At top level: openmx_common.h:1:13: warning: 'Version_OpenMX' defined but not used [-Wunused-variable] static char Version_OpenMX[30] = "3.8.5"; /* version of OpenMX */ ^ openmx_common.h:88:12: warning: 'NfundamentalNum' defined but not used [-Wunused-variable] static int NfundamentalNum=4; ^ openmx_common.h:89:12: warning: 'fundamentalNum' defined but not used [-Wunused-variable] static int fundamentalNum[4]={2,3,5,7}; ^ In file included from exx_interface_openmx.c:10:0: openmx_common.h:3952:12: warning: 'NBLK' defined but not used [-Wunused-variable] static int NBLK=128; ^ exx_interface_openmx.c: In function 'EXX_on_OpenMX_Init': exx_interface_openmx.c:256:18: warning: 'rc_cut' may be used uninitialized in this function [-Wmaybe-uninitialized] g_exx = EXX_New(natom, atom_v, atom_sp, nspec, spec_rc, spec_nb, ^ exx_interface_openmx.c:256:18: warning: 'system_type' may be used uninitialized in this function [-Wmaybe-uninitialized] mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_debug.o exx_debug.c exx_debug.c: In function 'EXX_Debug_Copy_DM': exx_debug.c:22:20: warning: unused variable 'diff' [-Wunused-variable] double dm1, dm2, diff; ^ exx_debug.c:22:15: warning: unused variable 'dm2' [-Wunused-variable] double dm1, dm2, diff; ^ exx_debug.c:22:10: warning: unused variable 'dm1' [-Wunused-variable] double dm1, dm2, diff; ^ exx_debug.c:20:17: warning: unused variable 'iatm' [-Wunused-variable] int iep, nep, iatm, nb, nb1, nb2, nbmax; ^ exx_debug.c:18:34: warning: unused variable 'iproc' [-Wunused-variable] int spin, i, j, myrank, nproc, iproc, ib; ^ exx_debug.c: In function 'EXX_Debug_Check_DM': exx_debug.c:191:12: warning: unused variable 'ia2' [-Wunused-variable] int ia1, ia2, l1, l2, l3, iep, Rn; ^ exx_debug.c:191:7: warning: unused variable 'ia1' [-Wunused-variable] int ia1, ia2, l1, l2, l3, iep, Rn; ^ exx_debug.c:189:33: warning: unused variable 'Anum' [-Wunused-variable] int i, j, spin, MA_AN, GA_AN, Anum, LB_AN, GB_AN; ^ In file included from exx_debug.c:4:0: exx_debug.c: At top level: openmx_common.h:1:13: warning: 'Version_OpenMX' defined but not used [-Wunused-variable] static char Version_OpenMX[30] = "3.8.5"; /* version of OpenMX */ ^ openmx_common.h:88:12: warning: 'NfundamentalNum' defined but not used [-Wunused-variable] static int NfundamentalNum=4; ^ openmx_common.h:89:12: warning: 'fundamentalNum' defined but not used [-Wunused-variable] static int fundamentalNum[4]={2,3,5,7}; ^ In file included from exx_debug.c:4:0: openmx_common.h:3952:12: warning: 'NBLK' defined but not used [-Wunused-variable] static int NBLK=128; ^ exx_debug.c: In function 'EXX_Initial_DM': exx_debug.c:137:14: warning: 'spin' may be used uninitialized in this function [-Wmaybe-uninitialized] exx_CDM[spin][iep][i][i].r = den; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_xc.o exx_xc.c mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o exx_rhox.o exx_rhox.c In file included from exx_xc.c:11:0: openmx_common.h:1:13: warning: 'Version_OpenMX' defined but not used [-Wunused-variable] static char Version_OpenMX[30] = "3.8.5"; /* version of OpenMX */ ^ openmx_common.h:88:12: warning: 'NfundamentalNum' defined but not used [-Wunused-variable] static int NfundamentalNum=4; ^ openmx_common.h:89:12: warning: 'fundamentalNum' defined but not used [-Wunused-variable] static int fundamentalNum[4]={2,3,5,7}; ^ In file included from exx_xc.c:11:0: openmx_common.h:3952:12: warning: 'NBLK' defined but not used [-Wunused-variable] static int NBLK=128; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/eri.o liberi-091216/source/eri.c exx_rhox.c: In function 'EXX_Output_DM': exx_rhox.c:21:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz; ^ exx_rhox.c:16:38: warning: unused variable 'icell' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ exx_rhox.c:16:31: warning: unused variable 'iatm2' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ exx_rhox.c:16:24: warning: unused variable 'iatm1' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ exx_rhox.c:15:15: warning: unused variable 'nproc' [-Wunused-variable] int myrank, nproc; ^ exx_rhox.c:15:7: warning: unused variable 'myrank' [-Wunused-variable] int myrank, nproc; ^ exx_rhox.c: In function 'EXX_Input_DM': exx_rhox.c:92:10: warning: variable 'sz' set but not used [-Wunused-but-set-variable] size_t sz; ^ exx_rhox.c:87:38: warning: unused variable 'icell' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ exx_rhox.c:87:31: warning: unused variable 'iatm2' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ exx_rhox.c:87:24: warning: unused variable 'iatm1' [-Wunused-variable] int i, j, iep, spin, iatm1, iatm2, icell; ^ In file included from exx_rhox.c:7:0: exx_rhox.c: At top level: openmx_common.h:1:13: warning: 'Version_OpenMX' defined but not used [-Wunused-variable] static char Version_OpenMX[30] = "3.8.5"; /* version of OpenMX */ ^ openmx_common.h:88:12: warning: 'NfundamentalNum' defined but not used [-Wunused-variable] static int NfundamentalNum=4; ^ openmx_common.h:89:12: warning: 'fundamentalNum' defined but not used [-Wunused-variable] static int fundamentalNum[4]={2,3,5,7}; ^ In file included from exx_rhox.c:7:0: openmx_common.h:3952:12: warning: 'NBLK' defined but not used [-Wunused-variable] static int NBLK=128; ^ exx_rhox.c: In function 'EXX_Input_DM': exx_rhox.c:163:16: warning: ignoring return value of 'fread', declared with attribute warn_unused_result [-Wunused-result] fread(&exx_DM[spin][iep][i][j].r, sizeof(double), 1, fp); ^ exx_rhox.c:164:16: warning: ignoring return value of 'fread', declared with attribute warn_unused_result [-Wunused-result] fread(&exx_DM[spin][iep][i][j].i, sizeof(double), 1, fp); ^ liberi-091216/source/eri.c: In function 'ERI_Overlap': liberi-091216/source/eri.c:133:5: warning: passing argument 5 of 'ERI_LL_Overlap_d' from incompatible pointer type [enabled by default] ERI_LL_Overlap_d(solver, p, dp, alp1, dalp1, alp2, dalp2, cx); ^ In file included from liberi-091216/source/eri.c:14:0: liberi-091216/source/eri.h:527:6: note: expected 'const double **' but argument is of type 'double **' void ERI_LL_Overlap_d( ^ liberi-091216/source/eri.c:133:5: warning: passing argument 7 of 'ERI_LL_Overlap_d' from incompatible pointer type [enabled by default] ERI_LL_Overlap_d(solver, p, dp, alp1, dalp1, alp2, dalp2, cx); ^ In file included from liberi-091216/source/eri.c:14:0: liberi-091216/source/eri.h:527:6: note: expected 'const double **' but argument is of type 'double **' void ERI_LL_Overlap_d( ^ liberi-091216/source/eri.c:45:26: warning: unused variable 'j' [-Wunused-variable] int ngrid, lmax, jmax, j; ^ liberi-091216/source/eri.c:45:20: warning: variable 'jmax' set but not used [-Wunused-but-set-variable] int ngrid, lmax, jmax, j; ^ liberi-091216/source/eri.c:45:7: warning: variable 'ngrid' set but not used [-Wunused-but-set-variable] int ngrid, lmax, jmax, j; ^ liberi-091216/source/eri.c: In function 'ERI_Integral': liberi-091216/source/eri.c:229:23: warning: passing argument 3 of 'ERI_Integral_GL_d' from incompatible pointer type [enabled by default] R[0], R[1], R[2], cx12, cx34, 1e-10, scr, lmax_gl); ^ In file included from liberi-091216/source/eri.c:14:0: liberi-091216/source/eri.h:571:6: note: expected 'double (*)[3][2]' but argument is of type 'double *' void ERI_Integral_GL_d( ^ liberi-091216/source/eri.c:229:23: warning: passing argument 6 of 'ERI_Integral_GL_d' from incompatible pointer type [enabled by default] R[0], R[1], R[2], cx12, cx34, 1e-10, scr, lmax_gl); ^ In file included from liberi-091216/source/eri.c:14:0: liberi-091216/source/eri.h:571:6: note: expected 'const double **' but argument is of type 'double **' void ERI_Integral_GL_d( ^ liberi-091216/source/eri.c:229:23: warning: passing argument 7 of 'ERI_Integral_GL_d' from incompatible pointer type [enabled by default] R[0], R[1], R[2], cx12, cx34, 1e-10, scr, lmax_gl); ^ In file included from liberi-091216/source/eri.c:14:0: liberi-091216/source/eri.h:571:6: note: expected 'const double **' but argument is of type 'double **' void ERI_Integral_GL_d( ^ liberi-091216/source/eri.c:191:23: warning: unused variable 'clk3' [-Wunused-variable] clock_t clk1, clk2, clk3; ^ liberi-091216/source/eri.c:191:17: warning: unused variable 'clk2' [-Wunused-variable] clock_t clk1, clk2, clk3; ^ liberi-091216/source/eri.c:191:11: warning: unused variable 'clk1' [-Wunused-variable] clock_t clk1, clk2, clk3; ^ liberi-091216/source/eri.c: In function 'orbital_T': liberi-091216/source/eri.c:268:17: warning: variable 'kmesh' set but not used [-Wunused-but-set-variable] const double *kmesh; ^ liberi-091216/source/eri.c: At top level: liberi-091216/source/eri.c:330:15: warning: 'orbital_r' defined but not used [-Wunused-function] static double orbital_r( ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/eri_ll.o liberi-091216/source/eri_ll.c mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/eri_sf.o liberi-091216/source/eri_sf.c liberi-091216/source/eri_ll.c: In function 'ERI_Required_Size': liberi-091216/source/eri_ll.c:210:17: warning: variable 'jmax' set but not used [-Wunused-but-set-variable] int nq, type, jmax; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Alpha': liberi-091216/source/eri_ll.c:597:26: warning: variable 'm1' set but not used [-Wunused-but-set-variable] int j, j1, j2, ir, l1, m1, l2, m2; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Alpha_d': liberi-091216/source/eri_ll.c:755:29: warning: variable 'm1' set but not used [-Wunused-but-set-variable] int i, j, ir, j1, j2, l1, m1, l2, m2; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Overlap': liberi-091216/source/eri_ll.c:1033:14: warning: unused variable 'j2m' [-Wunused-variable] const int *j2m = g_itbl_j2m; ^ liberi-091216/source/eri_ll.c:1032:14: warning: unused variable 'j2l' [-Wunused-variable] const int *j2l = g_itbl_j2l; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Overlap_d': liberi-091216/source/eri_ll.c:1178:49: warning: variable 'm' set but not used [-Wunused-but-set-variable] int i, j, j1, j2, ir, ia1, ia2, ip, ixyz, l, m; ^ liberi-091216/source/eri_ll.c:1178:46: warning: variable 'l' set but not used [-Wunused-but-set-variable] int i, j, j1, j2, ir, ia1, ia2, ip, ixyz, l, m; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL': liberi-091216/source/eri_ll.c:1672:18: warning: unused variable 'gnt_r' [-Wunused-variable] double k, gnt, gnt_r[2], sum[2], FG[2], int1[2], sum2[2]; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL_PrejY': liberi-091216/source/eri_ll.c:2165:13: warning: unused variable 'z' [-Wunused-variable] double k, z; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL_Post': liberi-091216/source/eri_ll.c:2316:15: warning: unused variable 'sh' [-Wunused-variable] double gnt, sh, sum; ^ liberi-091216/source/eri_ll.c:2315:41: warning: unused variable 'l2' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2315:37: warning: unused variable 'l1' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2314:30: warning: unused variable 'lphase' [-Wunused-variable] int ngl, lmax, jmax, nmul, lphase; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL_Post2': liberi-091216/source/eri_ll.c:2413:15: warning: unused variable 'sh' [-Wunused-variable] double gnt, sh, sum; ^ liberi-091216/source/eri_ll.c:2412:41: warning: unused variable 'l2' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2412:37: warning: unused variable 'l1' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2411:30: warning: unused variable 'lphase' [-Wunused-variable] int ngl, lmax, jmax, nmul, lphase; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL_X': liberi-091216/source/eri_ll.c:2488:41: warning: unused variable 'l2' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2488:37: warning: unused variable 'l1' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2488:7: warning: unused variable 'iR' [-Wunused-variable] int iR, imR, i, j, j1, j2, ik, l, l1, l2; ^ liberi-091216/source/eri_ll.c:2487:30: warning: unused variable 'lphase' [-Wunused-variable] int ngl, lmax, jmax, nmul, lphase; ^ liberi-091216/source/eri_sf.c: In function 'sph_bessel_drec': liberi-091216/source/eri_sf.c:214:39: warning: variable 'ix2' set but not used [-Wunused-but-set-variable] double j0, j1, sf, tmp, si, co, ix, ix2, tsb[1024], huge; ^ liberi-091216/source/eri_sf.c: In function 'ERI_Gaunt': liberi-091216/source/eri_sf.c:529:10: warning: unused variable 'result' [-Wunused-variable] double result, cg1, cg2; ^ liberi-091216/source/eri_sf.c:528:28: warning: unused variable 'tmp3' [-Wunused-variable] double tmp0, tmp1, tmp2, tmp3; ^ liberi-091216/source/eri_sf.c:528:22: warning: unused variable 'tmp2' [-Wunused-variable] double tmp0, tmp1, tmp2, tmp3; ^ liberi-091216/source/eri_sf.c:528:16: warning: unused variable 'tmp1' [-Wunused-variable] double tmp0, tmp1, tmp2, tmp3; ^ liberi-091216/source/eri_sf.c:528:10: warning: unused variable 'tmp0' [-Wunused-variable] double tmp0, tmp1, tmp2, tmp3; ^ liberi-091216/source/eri_sf.c: At top level: liberi-091216/source/eri_sf.c:114:13: warning: 'ERI_RCSH_Coeff_Inverse' defined but not used [-Wunused-function] static void ERI_RCSH_Coeff_Inverse(int m, double c[2], double d[2]) ^ liberi-091216/source/eri_ll.c: In function 'ERI_Size_of_Alpha': liberi-091216/source/eri_ll.c:375:32: warning: 'ndalp' may be used uninitialized in this function [-Wmaybe-uninitialized] return sizeof(double)*(ndalp + jmax); ^ liberi-091216/source/eri_ll.c: In function 'ERI_Size_of_Overlap': liberi-091216/source/eri_ll.c:395:30: warning: 'ndp' may be used uninitialized in this function [-Wmaybe-uninitialized] return sizeof(double)*(ndp + jmax0); ^ liberi-091216/source/eri_ll.c: In function 'ERI_Size_of_GLF': liberi-091216/source/eri_ll.c:415:32: warning: 'ndglf' may be used uninitialized in this function [-Wmaybe-uninitialized] return sizeof(double)*(ndglf + jmax0); ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Alpha': liberi-091216/source/eri_ll.c:632:11: warning: 'ndalp' may be used uninitialized in this function [-Wmaybe-uninitialized] amax = &alp[ndalp]; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/eri_interpolate.o liberi-091216/source/eri_interpolate.c liberi-091216/source/eri_interpolate.c: In function 'extrapolate': liberi-091216/source/eri_interpolate.c:297:10: warning: variable 'c' set but not used [-Wunused-but-set-variable] double c; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Alpha_d': liberi-091216/source/eri_ll.c:798:14: warning: 'ndalp' may be used uninitialized in this function [-Wmaybe-uninitialized] amax = &alp[ndalp]; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Overlap': liberi-091216/source/eri_ll.c:1071:11: warning: 'ndalp' may be used uninitialized in this function [-Wmaybe-uninitialized] amax1 = &a1[ndalp]; ^ liberi-091216/source/eri_ll.c:1073:11: warning: 'ndp' may be used uninitialized in this function [-Wmaybe-uninitialized] pmax = &p[ndp]; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/eri_gtbl.o liberi-091216/source/eri_gtbl.c liberi-091216/source/eri_gtbl.c: In function 'gtbl_nmax': liberi-091216/source/eri_gtbl.c:72:36: warning: unused variable 'j2' [-Wunused-variable] int l, m, j, l1, m1, j1, l2, m2, j2, lsum, n, jmax; ^ liberi-091216/source/eri_gtbl.c:72:24: warning: unused variable 'j1' [-Wunused-variable] int l, m, j, l1, m1, j1, l2, m2, j2, lsum, n, jmax; ^ liberi-091216/source/eri_ll.c: In function 'ERI_LL_Overlap_d': liberi-091216/source/eri_ll.c:1220:15: warning: 'ndalp' may be used uninitialized in this function [-Wmaybe-uninitialized] amax1 = &a1[ndalp]; ^ liberi-091216/source/eri_ll.c:1185:7: warning: 'ndp' may be used uninitialized in this function [-Wmaybe-uninitialized] int ndp, ndalp; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/sbt/eri_sbt.o liberi-091216/source/sbt/eri_sbt.c liberi-091216/source/eri_ll.c: In function 'ERI_Transform_Overlap': liberi-091216/source/eri_ll.c:1492:10: warning: 'ndp' may be used uninitialized in this function [-Wmaybe-uninitialized] pmax = &P[ndp]; ^ liberi-091216/source/eri_ll.c: In function 'ERI_GL_Interpolate': liberi-091216/source/eri_ll.c:1594:12: warning: 'ndglf' may be used uninitialized in this function [-Wmaybe-uninitialized] glfmax = &glF[ndglf]; ^ liberi-091216/source/eri_ll.c:1595:12: warning: 'ndf' may be used uninitialized in this function [-Wmaybe-uninitialized] fmax = &F[ndf]; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/sbt/log/eri_fsbt.o liberi-091216/source/sbt/log/eri_fsbt.c liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL': liberi-091216/source/eri_ll.c:1721:11: warning: 'ndglf' may be used uninitialized in this function [-Wmaybe-uninitialized] fmax1 = &F1[ndglf]; ^ liberi-091216/source/sbt/log/eri_fsbt.c: In function 'ERI_FSBT_Transform_Input': liberi-091216/source/sbt/log/eri_fsbt.c:255:17: warning: unused variable 'Mmesh' [-Wunused-variable] fftw_complex *Mmesh = ptr->M; ^ liberi-091216/source/sbt/log/eri_fsbt.c: In function 'ERI_FSBT_Transform_Output': liberi-091216/source/sbt/log/eri_fsbt.c:286:10: warning: unused variable 'rho' [-Wunused-variable] double rho, kap, t, p, c, s, e; ^ liberi-091216/source/eri_ll.c: In function 'ERI_Integral_GL_d': liberi-091216/source/eri_ll.c:1938:11: warning: 'ndglf' may be used uninitialized in this function [-Wmaybe-uninitialized] fmax1 = &F1[ndglf]; ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/sbt/log/eri_logfsbt.o liberi-091216/source/sbt/log/eri_logfsbt.c mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -g -c -o liberi-091216/source/sbt/linear/eri_linfsbt.o liberi-091216/source/sbt/linear/eri_linfsbt.c liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'segment_cubic': liberi-091216/source/sbt/linear/eri_linfsbt.c:294:53: warning: unused variable 'c3i' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:48: warning: unused variable 'c3r' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:43: warning: unused variable 'c2i' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:38: warning: unused variable 'c2r' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:33: warning: unused variable 'c1i' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:28: warning: unused variable 'c1r' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:23: warning: unused variable 'c0i' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:18: warning: unused variable 'c0r' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:14: warning: unused variable 'dy' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:294:10: warning: unused variable 'dx' [-Wunused-variable] double dx, dy, c0r, c0i, c1r, c1i, c2r, c2i, c3r, c3i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'recsum_cubic_twoway_new': liberi-091216/source/sbt/linear/eri_linfsbt.c:454:40: warning: unused variable 'dn7' [-Wunused-variable] double dn1, dn2, dn3, dn4, dn5, dn6, dn7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'recsum_cubic_upward_new': liberi-091216/source/sbt/linear/eri_linfsbt.c:602:40: warning: unused variable 'dn7' [-Wunused-variable] double dn1, dn2, dn3, dn4, dn5, dn6, dn7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:600:13: warning: unused variable 'j' [-Wunused-variable] int n, i, j; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'calculate_gamma': liberi-091216/source/sbt/linear/eri_linfsbt.c:793:42: warning: unused variable 'g7' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:38: warning: unused variable 'g6' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:34: warning: unused variable 'g5' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:30: warning: unused variable 'g4' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:26: warning: unused variable 'g3' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:22: warning: unused variable 'g2' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:17: warning: unused variable 'tmp' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:793:10: warning: unused variable 'x' [-Wunused-variable] double x, dx, tmp, g2, g3, g4, g5, g6, g7; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'transform_switch': liberi-091216/source/sbt/linear/eri_linfsbt.c:941:17: warning: unused variable 'iodd' [-Wunused-variable] int n, ieven, iodd; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:941:10: warning: unused variable 'ieven' [-Wunused-variable] int n, ieven, iodd; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:941:7: warning: unused variable 'n' [-Wunused-variable] int n, ieven, iodd; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'transform_in': liberi-091216/source/sbt/linear/eri_linfsbt.c:961:7: warning: unused variable 'i' [-Wunused-variable] int i; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: In function 'transform_out': liberi-091216/source/sbt/linear/eri_linfsbt.c:999:22: warning: unused variable 'twon' [-Wunused-variable] double fact, twop, twon; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:999:16: warning: unused variable 'twop' [-Wunused-variable] double fact, twop, twon; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c:999:10: warning: unused variable 'fact' [-Wunused-variable] double fact, twop, twon; ^ liberi-091216/source/sbt/linear/eri_linfsbt.c: At top level: liberi-091216/source/sbt/linear/eri_linfsbt.c:83:19: warning: 'S0_asymptotic' defined but not used [-Wunused-function] ERI_INLINE double S0_asymptotic( ^ mpicc -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions -fstack-protector-strong --param=ssp-buffer-size=4 -grecord-gcc-switches -m64 -mcpu=power8 -mtune=power8 -Dnosse -fopenmp -I./liberi-091216/source -o DosMain.o -c DosMain.c DosMain.c: In function 'Dos_Histgram': DosMain.c:372:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c: In function 'Dos_Gaussian': DosMain.c:487:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c: In function 'DosDC_Gaussian': DosMain.c:667:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c:660:16: warning: unused variable 'k' [-Wunused-variable] int spin,i,j,k,ieg,iecenter; ^ DosMain.c:660:14: warning: unused variable 'j' [-Wunused-variable] int spin,i,j,k,ieg,iecenter; ^ DosMain.c: In function 'Dos_NEGF': DosMain.c:839:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c:832:18: warning: unused variable 'factor' [-Wunused-variable] double eg,x,xa,factor,wval; ^ DosMain.c:832:15: warning: unused variable 'xa' [-Wunused-variable] double eg,x,xa,factor,wval; ^ DosMain.c:832:13: warning: unused variable 'x' [-Wunused-variable] double eg,x,xa,factor,wval; ^ DosMain.c:832:10: warning: unused variable 'eg' [-Wunused-variable] double eg,x,xa,factor,wval; ^ DosMain.c:830:22: warning: unused variable 'iecenter' [-Wunused-variable] int spin,i,j,k,ieg,iecenter; ^ DosMain.c:828:7: warning: unused variable 'iewidth' [-Wunused-variable] int iewidth,ie; ^ DosMain.c:827:10: warning: unused variable 'pi2' [-Wunused-variable] double pi2; ^ DosMain.c: In function 'Dos_Tetrahedron': DosMain.c:986:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c: In function 'Spectra_Gaussian': DosMain.c:1179:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c:1175:28: warning: unused variable 'dE' [-Wunused-variable] double dossum[2],MulP[5],dE; ^ DosMain.c:1175:20: warning: unused variable 'MulP' [-Wunused-variable] double dossum[2],MulP[5],dE; ^ DosMain.c: In function 'SpectraDC_Gaussian': DosMain.c:1537:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c:1528:14: warning: unused variable 'i_Dos' [-Wunused-variable] int N_Dos, i_Dos[10]; ^ DosMain.c:1528:7: warning: unused variable 'N_Dos' [-Wunused-variable] int N_Dos, i_Dos[10]; ^ DosMain.c:1526:15: warning: unused variable 'rval' [-Wunused-variable] double eg,x,rval,xa,tmp1; ^ DosMain.c:1524:16: warning: unused variable 'k' [-Wunused-variable] int i,spin,j,k; ^ DosMain.c:1524:14: warning: unused variable 'j' [-Wunused-variable] int i,spin,j,k; ^ DosMain.c: In function 'Spectra_Tetrahedron': DosMain.c:1854:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c: In function 'Spectra_NEGF': DosMain.c:2317:8: warning: unused variable 'fp_buf' [-Wunused-variable] char fp_buf[fp_bsize]; /* setvbuf */ ^ DosMain.c:2313:28: warning: unused variable 'dE' [-Wunused-variable] double dossum[2],MulP[5],dE; ^ DosMain.c:2313:20: warning: unused variable 'MulP' [-Wunused-variable] double dossum[2],MulP[5],dE; ^ DosMain.c:2310:19: warning: unused variable 'iecenter' [-Wunused-variable] int iewidth,ie,iecenter; ^ DosMain.c:2310:8: warning: unused variable 'iewidth' [-Wunused-variable] int iewidth,ie,iecenter; ^ DosMain.c:2309:14: warning: unused variable 'factor' [-Wunused-variable] double pi2,factor; ^ DosMain.c:2309:10: warning: unused variable 'pi2' [-Wunused-variable] double pi2,factor; ^ DosMain.c:2306:20: warning: unused variable 'xa' [-Wunused-variable] double eg,x,rval,xa; ^ DosMain.c:2306:13: warning: unused variable 'x' [-Wunused-variable] double eg,x,rval,xa; ^ DosMain.c:2306:10: warning: unused variable 'eg' [-Wunused-variable] double eg,x,rval,xa; ^ DosMain.c: In function 'input_file_eg': DosMain.c:2699:5: warning: suggest parentheses around assignment used as truth value [-Wparentheses] if (fp=input_find(" Your input file was normally read. The system includes 2 species and 12 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species H were normally found. PAOs of species C were normally found. VPSs of species H were normally found. H_CA13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species C were normally found. C_CA13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 12 estimated weight= 12.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 132 Average FNAN= 11.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 3 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 4 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 5 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 6 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 7 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 8 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 9 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 10 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 11 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 12 FNAN SNAN 11 0 TFNAN= 132 Average FNAN= 11.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 4 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 5 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 6 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 7 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 8 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 9 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 10 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 11 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 12 FNAN SNAN 11 0 TFNAN= 132 Average FNAN= 11.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 4 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 5 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 6 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 7 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 8 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 9 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 10 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 11 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 12 FNAN SNAN 11 0 The system is molecule. lattice vectors (bohr) A = 24.566437851526, 0.000000000000, 0.000000000000 B = 0.000000000000, 24.566437851526, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.228081920052 reciprocal lattice vectors (bohr^-1) RA = 0.255762978139, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.255762978139, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.474988387973 Grid_Origin -12.173547013257 -12.173547643166 -6.503806944026 Cell_Volume = 7983.277982894211 (Bohr^3) GridVol = 0.010607033885 (Bohr^3) Grid_Origin -12.173547013257 -12.173547643166 -6.503806944026 Cell_Volume = 7983.277982894211 (Bohr^3) GridVol = 0.010607033885 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 24.566437851526, 0.000000000000, 0.000000000000 B = 0.000000000000, 24.566437851526, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.228081920052 reciprocal lattice vectors (bohr^-1) RA = 0.255762978139, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.255762978139, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.474988387973 Required cutoff energy (Ryd) for 3D-grids = 200.0000 Used cutoff energy (Ryd) for 3D-grids = 205.1405, 205.1405, 203.0526 Num. of grids of a-, b-, and c-axes = 112, 112, 60 Grid_Origin -12.173547013257 -12.173547643166 -6.503806944026 Cell_Volume = 7983.277982894211 (Bohr^3) GridVol = 0.010607033885 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.219343195103, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.219343195103, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.220468032001 |gtv_a| = 0.219343195103 |gtv_b| = 0.219343195103 |gtv_c| = 0.220468032001 Num. of grids overlapping with atom 1 = 49344 Num. of grids overlapping with atom 2 = 49354 Num. of grids overlapping with atom 3 = 49362 Num. of grids overlapping with atom 4 = 49344 Num. of grids overlapping with atom 5 = 49354 Num. of grids overlapping with atom 6 = 49362 Num. of grids overlapping with atom 7 = 49346 Num. of grids overlapping with atom 8 = 49352 Num. of grids overlapping with atom 9 = 49360 Num. of grids overlapping with atom 10 = 49346 Num. of grids overlapping with atom 11 = 49352 Num. of grids overlapping with atom 12 = 49360 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... 1 C MulP 1.9963 1.9963 sum 3.9926 2 C MulP 1.9963 1.9963 sum 3.9925 3 C MulP 1.9963 1.9963 sum 3.9925 4 C MulP 1.9963 1.9963 sum 3.9926 5 C MulP 1.9963 1.9963 sum 3.9925 6 C MulP 1.9963 1.9963 sum 3.9925 7 H MulP 0.5037 0.5037 sum 1.0075 8 H MulP 0.5037 0.5037 sum 1.0075 9 H MulP 0.5037 0.5037 sum 1.0075 10 H MulP 0.5037 0.5037 sum 1.0075 11 H MulP 0.5037 0.5037 sum 1.0075 12 H MulP 0.5037 0.5037 sum 1.0075 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -11.807087965685 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000001000 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0147 2.0147 sum 4.0293 2 C MulP 2.0147 2.0147 sum 4.0293 3 C MulP 2.0147 2.0147 sum 4.0293 4 C MulP 2.0147 2.0147 sum 4.0293 5 C MulP 2.0147 2.0147 sum 4.0293 6 C MulP 2.0146 2.0146 sum 4.0293 7 H MulP 0.4853 0.4853 sum 0.9707 8 H MulP 0.4853 0.4853 sum 0.9707 9 H MulP 0.4853 0.4853 sum 0.9707 10 H MulP 0.4853 0.4853 sum 0.9707 11 H MulP 0.4853 0.4853 sum 0.9707 12 H MulP 0.4853 0.4853 sum 0.9707 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070030602526 Uele = -12.281188255886 dUele = 0.474100290201 NormRD = 1.812137268648 Criterion = 0.000000001000 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2420 2.2420 sum 4.4840 2 C MulP 2.2420 2.2420 sum 4.4840 3 C MulP 2.2420 2.2420 sum 4.4840 4 C MulP 2.2420 2.2420 sum 4.4840 5 C MulP 2.2420 2.2420 sum 4.4840 6 C MulP 2.2420 2.2420 sum 4.4840 7 H MulP 0.2580 0.2580 sum 0.5160 8 H MulP 0.2580 0.2580 sum 0.5160 9 H MulP 0.2580 0.2580 sum 0.5160 10 H MulP 0.2580 0.2580 sum 0.5160 11 H MulP 0.2580 0.2580 sum 0.5160 12 H MulP 0.2580 0.2580 sum 0.5160 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.121515339643 Uele = -18.453719725612 dUele = 6.172531469725 NormRD = 1.179545748085 Criterion = 0.000000001000 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2331 2.2331 sum 4.4662 2 C MulP 2.2331 2.2331 sum 4.4662 3 C MulP 2.2331 2.2331 sum 4.4661 4 C MulP 2.2331 2.2331 sum 4.4662 5 C MulP 2.2331 2.2331 sum 4.4662 6 C MulP 2.2331 2.2331 sum 4.4661 7 H MulP 0.2669 0.2669 sum 0.5338 8 H MulP 0.2669 0.2669 sum 0.5338 9 H MulP 0.2669 0.2669 sum 0.5339 10 H MulP 0.2669 0.2669 sum 0.5338 11 H MulP 0.2669 0.2669 sum 0.5338 12 H MulP 0.2669 0.2669 sum 0.5339 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -18.212665837341 dUele = 0.241053888271 NormRD = 0.991005702620 Criterion = 0.000000001000 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1656 2.1656 sum 4.3311 2 C MulP 2.1656 2.1656 sum 4.3311 3 C MulP 2.1656 2.1656 sum 4.3311 4 C MulP 2.1656 2.1656 sum 4.3311 5 C MulP 2.1656 2.1656 sum 4.3311 6 C MulP 2.1656 2.1656 sum 4.3311 7 H MulP 0.3344 0.3344 sum 0.6689 8 H MulP 0.3344 0.3344 sum 0.6689 9 H MulP 0.3344 0.3344 sum 0.6689 10 H MulP 0.3344 0.3344 sum 0.6689 11 H MulP 0.3344 0.3344 sum 0.6689 12 H MulP 0.3344 0.3344 sum 0.6689 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -16.422350905368 dUele = 1.790314931973 NormRD = 0.269366427837 Criterion = 0.000000001000 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1468 2.1468 sum 4.2936 2 C MulP 2.1468 2.1468 sum 4.2936 3 C MulP 2.1468 2.1468 sum 4.2936 4 C MulP 2.1468 2.1468 sum 4.2936 5 C MulP 2.1468 2.1468 sum 4.2936 6 C MulP 2.1468 2.1468 sum 4.2936 7 H MulP 0.3532 0.3532 sum 0.7064 8 H MulP 0.3532 0.3532 sum 0.7064 9 H MulP 0.3532 0.3532 sum 0.7064 10 H MulP 0.3532 0.3532 sum 0.7064 11 H MulP 0.3532 0.3532 sum 0.7064 12 H MulP 0.3532 0.3532 sum 0.7064 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.939028795326 dUele = 0.483322110041 NormRD = 0.085294615504 Criterion = 0.000000001000 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3600 0.3600 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3600 0.3600 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.762689363080 dUele = 0.176339432247 NormRD = 0.013940119035 Criterion = 0.000000001000 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1401 2.1401 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1401 2.1401 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.761114206024 dUele = 0.001575157056 NormRD = 0.000432494761 Criterion = 0.000000001000 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3600 0.3600 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3600 0.3600 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760835299661 dUele = 0.000278906363 NormRD = 0.000041636876 Criterion = 0.000000001000 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1401 2.1401 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760905033520 dUele = 0.000069733859 NormRD = 0.000030036147 Criterion = 0.000000001000 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760907379201 dUele = 0.000002345681 NormRD = 0.000002030240 Criterion = 0.000000001000 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760906658715 dUele = 0.000000720486 NormRD = 0.000001351631 Criterion = 0.000000001000 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760906285769 dUele = 0.000000372945 NormRD = 0.000000006367 Criterion = 0.000000001000 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760906279840 dUele = 0.000000005929 NormRD = 0.000000002436 Criterion = 0.000000001000 ******************* MD= 1 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760906280353 dUele = 0.000000000513 NormRD = 0.000000001759 Criterion = 0.000000001000 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.00001883 Dx Dy Dz Total 0.00001166 0.00001478 -0.00000000 Core -0.00004803 -0.00009606 0.00000000 Electron 0.00005969 0.00011085 -0.00000000 Back ground -0.00000000 0.00000000 -0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -15.760906280353 Ukin = 24.572738781367 UH0 = -131.905756072662 UH1 = 0.377895405452 Una = -18.783571420156 Unl = -1.949464098545 Uxc0 = -6.373621509081 Uxc1 = -6.373621509081 Ucore = 102.688243958898 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -37.747156463809 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 11.22173 Set_OLP_Kin = 0.33302 Set_Nonlocal = 0.71896 Set_ProExpn_VNA = 0.77340 Set_Hamiltonian = 1.78293 Poisson = 0.95221 diagonalization = 0.02080 Mixing_DM = 0.00227 Force = 2.25706 Total_Energy = 3.27954 Set_Aden_Grid = 0.11350 Set_Orbitals_Grid = 0.21680 Set_Density_Grid = 0.75340 RestartFileDFT = 0.00255 Mulliken_Charge = 0.00361 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 19.986 0 19.986 readfile = 0 6.531 0 6.531 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 1.324 0 1.324 DFT = 0 11.222 0 11.222 *** In DFT *** Set_OLP_Kin = 0 0.333 0 0.333 Set_Nonlocal = 0 0.719 0 0.719 Set_ProExpn_VNA = 0 0.773 0 0.773 Set_Hamiltonian = 0 1.783 0 1.783 Poisson = 0 0.952 0 0.952 Diagonalization = 0 0.021 0 0.021 Mixing_DM = 0 0.002 0 0.002 Force = 0 2.257 0 2.257 Total_Energy = 0 3.280 0 3.280 Set_Aden_Grid = 0 0.113 0 0.113 Set_Orbitals_Grid = 0 0.217 0 0.217 Set_Density_Grid = 0 0.753 0 0.753 RestartFileDFT = 0 0.003 0 0.003 Mulliken_Charge = 0 0.004 0 0.004 FFT(2D)_Density = 0 0.000 0 0.000 Others = 0 0.012 0 0.012 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* Automatic determination of Kerker_factor: 1.804555393029 Your input file was normally read. The system includes 1 species and 60 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species C were normally found. VPSs of species C were normally found. C_CA13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 60 estimated weight= 60.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 1884 Average FNAN= 31.40000 TSNAN= 704 Average SNAN= 11.73333 CpyCell= 1 ct_AN= 1 FNAN SNAN 33 14 CpyCell= 1 ct_AN= 2 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 3 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 4 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 5 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 6 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 7 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 8 FNAN SNAN 33 14 CpyCell= 1 ct_AN= 9 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 10 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 11 FNAN SNAN 33 13 CpyCell= 1 ct_AN= 12 FNAN SNAN 31 12 CpyCell= 1 ct_AN= 13 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 14 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 15 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 16 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 17 FNAN SNAN 33 14 CpyCell= 1 ct_AN= 18 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 19 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 20 FNAN SNAN 31 10 .......... ...... TFNAN= 1884 Average FNAN= 31.40000 TSNAN= 704 Average SNAN= 11.73333 CpyCell= 2 ct_AN= 1 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 2 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 3 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 4 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 5 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 6 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 7 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 8 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 9 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 10 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 11 FNAN SNAN 33 13 CpyCell= 2 ct_AN= 12 FNAN SNAN 31 12 CpyCell= 2 ct_AN= 13 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 14 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 15 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 16 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 17 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 18 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 19 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 20 FNAN SNAN 31 10 .......... ...... TFNAN= 1884 Average FNAN= 31.40000 TSNAN= 704 Average SNAN= 11.73333 CpyCell= 2 ct_AN= 1 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 2 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 3 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 4 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 5 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 6 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 7 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 8 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 9 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 10 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 11 FNAN SNAN 33 13 CpyCell= 2 ct_AN= 12 FNAN SNAN 31 12 CpyCell= 2 ct_AN= 13 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 14 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 15 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 16 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 17 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 18 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 19 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 20 FNAN SNAN 31 10 .......... ...... The system is bulk. lattice vectors (bohr) A = 22.676711862947, 0.000000000000, 0.000000000000 B = 0.000000000000, 22.676711862947, 0.000000000000 C = 0.000000000000, 0.000000000000, 22.676711862947 reciprocal lattice vectors (bohr^-1) RA = 0.277076559651, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.277076559651, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.277076559651 Grid_Origin -17.749804587507 -11.154205148449 -12.524064368027 Cell_Volume = 11661.119488115972 (Bohr^3) GridVol = 0.019674440341 (Bohr^3) Grid_Origin -17.749804587507 -11.154205148449 -12.524064368027 Cell_Volume = 11661.119488115972 (Bohr^3) GridVol = 0.019674440341 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 22.676711862947, 0.000000000000, 0.000000000000 B = 0.000000000000, 22.676711862947, 0.000000000000 C = 0.000000000000, 0.000000000000, 22.676711862947 reciprocal lattice vectors (bohr^-1) RA = 0.277076559651, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.277076559651, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.277076559651 Required cutoff energy (Ryd) for 3D-grids = 140.0000 Used cutoff energy (Ryd) for 3D-grids = 135.4248, 135.4248, 135.4248 Num. of grids of a-, b-, and c-axes = 84, 84, 84 Grid_Origin -17.749804587507 -11.154205148449 -12.524064368027 Cell_Volume = 11661.119488115972 (Bohr^3) GridVol = 0.019674440341 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.269960855511, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.269960855511, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.269960855511 |gtv_a| = 0.269960855511 |gtv_b| = 0.269960855511 |gtv_c| = 0.269960855511 Num. of grids overlapping with atom 1 = 26601 Num. of grids overlapping with atom 2 = 26604 Num. of grids overlapping with atom 3 = 26612 Num. of grids overlapping with atom 4 = 26635 Num. of grids overlapping with atom 5 = 26632 Num. of grids overlapping with atom 6 = 26620 Num. of grids overlapping with atom 7 = 26627 Num. of grids overlapping with atom 8 = 26607 Num. of grids overlapping with atom 9 = 26607 Num. of grids overlapping with atom 10 = 26606 Num. of grids overlapping with atom 11 = 26635 Num. of grids overlapping with atom 12 = 26616 Num. of grids overlapping with atom 13 = 26637 Num. of grids overlapping with atom 14 = 26610 Num. of grids overlapping with atom 15 = 26611 Num. of grids overlapping with atom 16 = 26619 Num. of grids overlapping with atom 17 = 26637 Num. of grids overlapping with atom 18 = 26629 Num. of grids overlapping with atom 19 = 26608 Num. of grids overlapping with atom 20 = 26606 .......... ...... ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... 1 C MulP 2.0001 2.0001 sum 4.0003 2 C MulP 1.9919 1.9919 sum 3.9837 3 C MulP 2.0061 2.0061 sum 4.0122 4 C MulP 2.0061 2.0061 sum 4.0122 5 C MulP 1.9923 1.9923 sum 3.9847 6 C MulP 2.0089 2.0089 sum 4.0178 7 C MulP 1.9922 1.9922 sum 3.9844 8 C MulP 2.0009 2.0009 sum 4.0018 9 C MulP 1.9925 1.9925 sum 3.9849 10 C MulP 2.0072 2.0072 sum 4.0143 11 C MulP 2.0008 2.0008 sum 4.0017 12 C MulP 1.9933 1.9933 sum 3.9865 13 C MulP 2.0072 2.0072 sum 4.0145 14 C MulP 2.0079 2.0079 sum 4.0159 15 C MulP 1.9914 1.9914 sum 3.9828 16 C MulP 1.9937 1.9937 sum 3.9874 17 C MulP 1.9995 1.9995 sum 3.9989 18 C MulP 1.9928 1.9928 sum 3.9857 19 C MulP 2.0068 2.0068 sum 4.0137 20 C MulP 2.0062 2.0062 sum 4.0124 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -88.053364029870 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000001000 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0028 2.0028 sum 4.0056 2 C MulP 1.9977 1.9977 sum 3.9954 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 1.9997 1.9997 sum 3.9993 5 C MulP 1.9979 1.9979 sum 3.9957 6 C MulP 2.0003 2.0003 sum 4.0006 7 C MulP 1.9983 1.9983 sum 3.9965 8 C MulP 2.0032 2.0032 sum 4.0063 9 C MulP 1.9982 1.9982 sum 3.9964 10 C MulP 2.0005 2.0005 sum 4.0010 11 C MulP 2.0032 2.0032 sum 4.0065 12 C MulP 1.9983 1.9983 sum 3.9966 13 C MulP 2.0005 2.0005 sum 4.0010 14 C MulP 2.0005 2.0005 sum 4.0009 15 C MulP 1.9980 1.9980 sum 3.9961 16 C MulP 1.9975 1.9975 sum 3.9950 17 C MulP 2.0032 2.0032 sum 4.0064 18 C MulP 1.9985 1.9985 sum 3.9969 19 C MulP 2.0003 2.0003 sum 4.0006 20 C MulP 2.0008 2.0008 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020592295209 Uele = -107.726799575835 dUele = 19.673435545965 NormRD = 3.683552051031 Criterion = 0.000000001000 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0055 2 C MulP 1.9977 1.9977 sum 3.9953 3 C MulP 2.0001 2.0001 sum 4.0001 4 C MulP 1.9997 1.9997 sum 3.9994 5 C MulP 1.9978 1.9978 sum 3.9957 6 C MulP 2.0003 2.0003 sum 4.0006 7 C MulP 1.9982 1.9982 sum 3.9965 8 C MulP 2.0032 2.0032 sum 4.0063 9 C MulP 1.9982 1.9982 sum 3.9964 10 C MulP 2.0005 2.0005 sum 4.0010 11 C MulP 2.0032 2.0032 sum 4.0064 12 C MulP 1.9983 1.9983 sum 3.9966 13 C MulP 2.0005 2.0005 sum 4.0010 14 C MulP 2.0005 2.0005 sum 4.0010 15 C MulP 1.9980 1.9980 sum 3.9960 16 C MulP 1.9975 1.9975 sum 3.9950 17 C MulP 2.0032 2.0032 sum 4.0063 18 C MulP 1.9984 1.9984 sum 3.9969 19 C MulP 2.0003 2.0003 sum 4.0006 20 C MulP 2.0008 2.0008 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -108.342196986097 dUele = 0.615397410262 NormRD = 3.610261734685 Criterion = 0.000000001000 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0021 2.0021 sum 4.0041 2 C MulP 1.9971 1.9971 sum 3.9941 3 C MulP 2.0008 2.0008 sum 4.0015 4 C MulP 2.0005 2.0005 sum 4.0010 5 C MulP 1.9972 1.9972 sum 3.9944 6 C MulP 2.0009 2.0009 sum 4.0019 7 C MulP 1.9980 1.9980 sum 3.9960 8 C MulP 2.0031 2.0031 sum 4.0062 9 C MulP 1.9980 1.9980 sum 3.9959 10 C MulP 2.0006 2.0006 sum 4.0012 11 C MulP 2.0028 2.0028 sum 4.0055 12 C MulP 1.9981 1.9981 sum 3.9962 13 C MulP 2.0011 2.0011 sum 4.0021 14 C MulP 2.0011 2.0011 sum 4.0023 15 C MulP 1.9976 1.9976 sum 3.9951 16 C MulP 1.9974 1.9974 sum 3.9948 17 C MulP 2.0024 2.0024 sum 4.0048 18 C MulP 1.9981 1.9981 sum 3.9962 19 C MulP 2.0011 2.0011 sum 4.0022 20 C MulP 2.0006 2.0006 sum 4.0012 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -120.031340833956 dUele = 11.689143847859 NormRD = 2.217938000585 Criterion = 0.000000001000 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0021 2.0021 sum 4.0043 2 C MulP 1.9968 1.9968 sum 3.9937 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0008 2.0008 sum 4.0015 5 C MulP 1.9970 1.9970 sum 3.9939 6 C MulP 2.0011 2.0011 sum 4.0022 7 C MulP 1.9977 1.9977 sum 3.9955 8 C MulP 2.0032 2.0032 sum 4.0065 9 C MulP 1.9977 1.9977 sum 3.9953 10 C MulP 2.0007 2.0007 sum 4.0014 11 C MulP 2.0028 2.0028 sum 4.0056 12 C MulP 1.9979 1.9979 sum 3.9958 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9973 1.9973 sum 3.9946 16 C MulP 1.9973 1.9973 sum 3.9946 17 C MulP 2.0024 2.0024 sum 4.0048 18 C MulP 1.9979 1.9979 sum 3.9958 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0008 2.0008 sum 4.0017 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -127.641735312218 dUele = 7.610394478262 NormRD = 1.366717391593 Criterion = 0.000000001000 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0019 2.0019 sum 4.0038 2 C MulP 1.9964 1.9964 sum 3.9928 3 C MulP 2.0012 2.0012 sum 4.0023 4 C MulP 2.0011 2.0011 sum 4.0021 5 C MulP 1.9964 1.9964 sum 3.9927 6 C MulP 2.0016 2.0016 sum 4.0032 7 C MulP 1.9977 1.9977 sum 3.9954 8 C MulP 2.0034 2.0034 sum 4.0067 9 C MulP 1.9978 1.9978 sum 3.9956 10 C MulP 2.0004 2.0004 sum 4.0007 11 C MulP 2.0030 2.0030 sum 4.0060 12 C MulP 1.9979 1.9979 sum 3.9958 13 C MulP 2.0012 2.0012 sum 4.0024 14 C MulP 2.0013 2.0013 sum 4.0027 15 C MulP 1.9969 1.9969 sum 3.9939 16 C MulP 1.9970 1.9970 sum 3.9940 17 C MulP 2.0022 2.0022 sum 4.0043 18 C MulP 1.9976 1.9976 sum 3.9952 19 C MulP 2.0015 2.0015 sum 4.0029 20 C MulP 1.9997 1.9997 sum 3.9994 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -142.115662218989 dUele = 14.473926906772 NormRD = 0.042899604322 Criterion = 0.000000001000 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0054 2.0054 sum 4.0107 2 C MulP 1.9981 1.9981 sum 3.9961 3 C MulP 2.0008 2.0008 sum 4.0017 4 C MulP 2.0006 2.0006 sum 4.0011 5 C MulP 1.9982 1.9982 sum 3.9964 6 C MulP 1.9994 1.9994 sum 3.9988 7 C MulP 1.9971 1.9971 sum 3.9942 8 C MulP 2.0051 2.0051 sum 4.0102 9 C MulP 1.9963 1.9963 sum 3.9927 10 C MulP 2.0020 2.0020 sum 4.0039 11 C MulP 2.0037 2.0037 sum 4.0074 12 C MulP 1.9976 1.9976 sum 3.9952 13 C MulP 2.0021 2.0021 sum 4.0042 14 C MulP 2.0027 2.0027 sum 4.0055 15 C MulP 1.9981 1.9981 sum 3.9963 16 C MulP 1.9986 1.9986 sum 3.9972 17 C MulP 2.0053 2.0053 sum 4.0106 18 C MulP 1.9987 1.9987 sum 3.9975 19 C MulP 2.0021 2.0021 sum 4.0043 20 C MulP 2.0052 2.0052 sum 4.0105 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -143.865184338801 dUele = 1.749522119812 NormRD = 0.037412092324 Criterion = 0.000000001000 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0010 2.0010 sum 4.0020 2 C MulP 1.9951 1.9951 sum 3.9903 3 C MulP 2.0008 2.0008 sum 4.0016 4 C MulP 1.9996 1.9996 sum 3.9992 5 C MulP 1.9958 1.9958 sum 3.9916 6 C MulP 2.0014 2.0014 sum 4.0027 7 C MulP 1.9973 1.9973 sum 3.9946 8 C MulP 2.0028 2.0028 sum 4.0057 9 C MulP 1.9980 1.9980 sum 3.9959 10 C MulP 1.9979 1.9979 sum 3.9958 11 C MulP 2.0033 2.0033 sum 4.0065 12 C MulP 1.9970 1.9970 sum 3.9940 13 C MulP 1.9991 1.9991 sum 3.9981 14 C MulP 1.9983 1.9983 sum 3.9966 15 C MulP 1.9957 1.9957 sum 3.9914 16 C MulP 1.9955 1.9955 sum 3.9910 17 C MulP 2.0013 2.0013 sum 4.0025 18 C MulP 1.9963 1.9963 sum 3.9925 19 C MulP 2.0001 2.0001 sum 4.0002 20 C MulP 1.9962 1.9962 sum 3.9924 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -143.926628220224 dUele = 0.061443881422 NormRD = 0.036835127271 Criterion = 0.000000001000 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0021 2.0021 sum 4.0042 2 C MulP 1.9967 1.9967 sum 3.9933 3 C MulP 2.0016 2.0016 sum 4.0033 4 C MulP 2.0023 2.0023 sum 4.0047 5 C MulP 1.9963 1.9963 sum 3.9927 6 C MulP 2.0027 2.0027 sum 4.0054 7 C MulP 1.9982 1.9982 sum 3.9964 8 C MulP 2.0039 2.0039 sum 4.0078 9 C MulP 1.9981 1.9981 sum 3.9962 10 C MulP 2.0030 2.0030 sum 4.0060 11 C MulP 2.0036 2.0036 sum 4.0072 12 C MulP 1.9985 1.9985 sum 3.9971 13 C MulP 2.0030 2.0030 sum 4.0060 14 C MulP 2.0033 2.0033 sum 4.0066 15 C MulP 1.9974 1.9974 sum 3.9948 16 C MulP 1.9971 1.9971 sum 3.9943 17 C MulP 2.0026 2.0026 sum 4.0052 18 C MulP 1.9980 1.9980 sum 3.9959 19 C MulP 2.0017 2.0017 sum 4.0034 20 C MulP 2.0010 2.0010 sum 4.0020 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.247970036427 dUele = 0.321341816203 NormRD = 0.014792015964 Criterion = 0.000000001000 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0031 2.0031 sum 4.0061 2 C MulP 1.9967 1.9967 sum 3.9934 3 C MulP 2.0006 2.0006 sum 4.0011 4 C MulP 1.9997 1.9997 sum 3.9994 5 C MulP 1.9969 1.9969 sum 3.9938 6 C MulP 2.0000 2.0000 sum 4.0001 7 C MulP 1.9968 1.9968 sum 3.9937 8 C MulP 2.0036 2.0036 sum 4.0072 9 C MulP 1.9967 1.9967 sum 3.9934 10 C MulP 1.9990 1.9990 sum 3.9980 11 C MulP 2.0028 2.0028 sum 4.0056 12 C MulP 1.9971 1.9971 sum 3.9942 13 C MulP 2.0006 2.0006 sum 4.0012 14 C MulP 2.0007 2.0007 sum 4.0014 15 C MulP 1.9969 1.9969 sum 3.9937 16 C MulP 1.9975 1.9975 sum 3.9951 17 C MulP 2.0033 2.0033 sum 4.0066 18 C MulP 1.9978 1.9978 sum 3.9956 19 C MulP 2.0019 2.0019 sum 4.0039 20 C MulP 2.0017 2.0017 sum 4.0035 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.303190901241 dUele = 0.055220864814 NormRD = 0.008385352278 Criterion = 0.000000001000 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0031 2.0031 sum 4.0062 2 C MulP 1.9968 1.9968 sum 3.9936 3 C MulP 2.0015 2.0015 sum 4.0031 4 C MulP 2.0011 2.0011 sum 4.0021 5 C MulP 1.9971 1.9971 sum 3.9942 6 C MulP 2.0014 2.0014 sum 4.0029 7 C MulP 1.9978 1.9978 sum 3.9955 8 C MulP 2.0042 2.0042 sum 4.0083 9 C MulP 1.9977 1.9977 sum 3.9953 10 C MulP 2.0014 2.0014 sum 4.0027 11 C MulP 2.0038 2.0038 sum 4.0076 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0012 2.0012 sum 4.0023 14 C MulP 2.0010 2.0010 sum 4.0020 15 C MulP 1.9971 1.9971 sum 3.9942 16 C MulP 1.9969 1.9969 sum 3.9937 17 C MulP 2.0028 2.0028 sum 4.0057 18 C MulP 1.9974 1.9974 sum 3.9949 19 C MulP 2.0006 2.0006 sum 4.0012 20 C MulP 2.0002 2.0002 sum 4.0004 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.319869270134 dUele = 0.016678368893 NormRD = 0.004868419641 Criterion = 0.000000001000 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0026 2.0026 sum 4.0051 2 C MulP 1.9964 1.9964 sum 3.9928 3 C MulP 2.0008 2.0008 sum 4.0016 4 C MulP 2.0005 2.0005 sum 4.0010 5 C MulP 1.9966 1.9966 sum 3.9932 6 C MulP 2.0009 2.0009 sum 4.0018 7 C MulP 1.9974 1.9974 sum 3.9948 8 C MulP 2.0038 2.0038 sum 4.0075 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0005 2.0005 sum 4.0010 11 C MulP 2.0034 2.0034 sum 4.0068 12 C MulP 1.9977 1.9977 sum 3.9954 13 C MulP 2.0014 2.0014 sum 4.0028 14 C MulP 2.0016 2.0016 sum 4.0031 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0031 2.0031 sum 4.0061 18 C MulP 1.9977 1.9977 sum 3.9953 19 C MulP 2.0015 2.0015 sum 4.0031 20 C MulP 2.0008 2.0008 sum 4.0016 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.321730666860 dUele = 0.001861396726 NormRD = 0.001934045446 Criterion = 0.000000001000 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9965 1.9965 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9949 10 C MulP 2.0007 2.0007 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0013 2.0013 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9941 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0027 20 C MulP 2.0007 2.0007 sum 4.0014 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322066321430 dUele = 0.000335654570 NormRD = 0.000515124730 Criterion = 0.000000001000 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9974 1.9974 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0007 2.0007 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0025 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0008 2.0008 sum 4.0016 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322356998681 dUele = 0.000290677252 NormRD = 0.000325733767 Criterion = 0.000000001000 ******************* MD= 1 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0014 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322620303480 dUele = 0.000263304799 NormRD = 0.000141748628 Criterion = 0.000000001000 ******************* MD= 1 SCF=16 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322712597705 dUele = 0.000092294225 NormRD = 0.000062670808 Criterion = 0.000000001000 ******************* MD= 1 SCF=17 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322732332023 dUele = 0.000019734318 NormRD = 0.000007285198 Criterion = 0.000000001000 ******************* MD= 1 SCF=18 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322752341813 dUele = 0.000020009791 NormRD = 0.000008914956 Criterion = 0.000000001000 ******************* MD= 1 SCF=19 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755047092 dUele = 0.000002705279 NormRD = 0.000004656838 Criterion = 0.000000001000 ******************* MD= 1 SCF=20 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755269300 dUele = 0.000000222207 NormRD = 0.000000890574 Criterion = 0.000000001000 ******************* MD= 1 SCF=21 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755207571 dUele = 0.000000061729 NormRD = 0.000000389457 Criterion = 0.000000001000 ******************* MD= 1 SCF=22 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755142202 dUele = 0.000000065369 NormRD = 0.000000210598 Criterion = 0.000000001000 ******************* MD= 1 SCF=23 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755096202 dUele = 0.000000046000 NormRD = 0.000000059681 Criterion = 0.000000001000 ******************* MD= 1 SCF=24 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755077465 dUele = 0.000000018737 NormRD = 0.000000019169 Criterion = 0.000000001000 ******************* MD= 1 SCF=25 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755065225 dUele = 0.000000012240 NormRD = 0.000000011298 Criterion = 0.000000001000 ******************* MD= 1 SCF=26 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755062610 dUele = 0.000000002615 NormRD = 0.000000003473 Criterion = 0.000000001000 ******************* MD= 1 SCF=27 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755062200 dUele = 0.000000000410 NormRD = 0.000000001683 Criterion = 0.000000001000 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.00717797 Dx Dy Dz Total -0.00474383 0.00093405 0.00530537 Core -3993.44915033 29.99487369 -805.64591100 Electron 3993.44440650 -29.99393964 805.65121637 Back ground 0.00000000 -0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -144.322755062200 Ukin = 219.148217549882 UH0 = -2843.055056298982 UH1 = 4.224145799984 Una = -152.295155346192 Unl = -22.485311765347 Uxc0 = -54.793347615045 Uxc1 = -54.793347615045 Ucore = 2560.202650328739 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -343.847204962005 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 176.34068 Set_OLP_Kin = 5.72375 Set_Nonlocal = 17.16524 Set_ProExpn_VNA = 13.23221 Set_Hamiltonian = 11.67867 Poisson = 0.71060 diagonalization = 61.56831 Mixing_DM = 4.45682 Force = 9.10776 Total_Energy = 40.40487 Set_Aden_Grid = 0.26770 Set_Orbitals_Grid = 0.59972 Set_Density_Grid = 7.41666 RestartFileDFT = 0.00743 Mulliken_Charge = 0.03067 FFT(2D)_Density = 0.53895 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 184.912 0 184.912 readfile = 0 3.503 0 3.503 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 1.132 0 1.132 DFT = 0 176.341 0 176.341 *** In DFT *** Set_OLP_Kin = 0 5.724 0 5.724 Set_Nonlocal = 0 17.165 0 17.165 Set_ProExpn_VNA = 0 13.232 0 13.232 Set_Hamiltonian = 0 11.679 0 11.679 Poisson = 0 0.711 0 0.711 Diagonalization = 0 61.568 0 61.568 Mixing_DM = 0 4.457 0 4.457 Force = 0 9.108 0 9.108 Total_Energy = 0 40.405 0 40.405 Set_Aden_Grid = 0 0.268 0 0.268 Set_Orbitals_Grid = 0 0.600 0 0.600 Set_Density_Grid = 0 7.417 0 7.417 RestartFileDFT = 0 0.007 0 0.007 Mulliken_Charge = 0 0.031 0 0.031 FFT(2D)_Density = 0 0.539 0 0.539 Others = 0 3.431 0 3.431 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* p= 0 l= 0 Primitive= 2 Contracted= 1 p= 0 l= 1 Primitive= 2 Contracted= 1 p= 0 l= 2 Primitive= 0 Contracted= 0 p= 0 l= 3 Primitive= 0 Contracted= 0 p= 0 l= 4 Primitive= 0 Contracted= 0 p= 1 l= 0 Primitive= 2 Contracted= 1 p= 1 l= 1 Primitive= 2 Contracted= 1 p= 1 l= 2 Primitive= 0 Contracted= 0 p= 1 l= 3 Primitive= 0 Contracted= 0 p= 1 l= 4 Primitive= 0 Contracted= 0 automatically determied UnitCell(Ang.) from atomic positions and Rc of PAOs (margin= 10.00%) 8.745140 0.000000 0.000000 0.000000 6.985140 0.000000 0.000000 0.000000 6.985140 widened unit cell to fit energy cutoff (Ang.) A = 9.501715 0.000000 0.000000 (70) B = 0.000000 7.329894 0.000000 (54) C = 0.000000 0.000000 7.329894 (54) Your input file was normally read. The system includes 2 species and 2 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species O were normally found. PAOs of species C were normally found. VPSs of species O were normally found. O_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species C were normally found. C_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 The system is molecule. lattice vectors (bohr) A = 17.955637770240, 0.000000000000, 0.000000000000 B = 0.000000000000, 13.851491994185, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.851491994185 reciprocal lattice vectors (bohr^-1) RA = 0.349928272534, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.453610723655, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.453610723655 Grid_Origin -7.337783538755 -6.797491441591 -6.797491441591 Cell_Volume = 3445.037441039801 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Grid_Origin -7.337783538755 -6.797491441591 -6.797491441591 Cell_Volume = 3445.037441039801 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 17.955637770240, 0.000000000000, 0.000000000000 B = 0.000000000000, 13.851491994185, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.851491994185 reciprocal lattice vectors (bohr^-1) RA = 0.349928272534, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.453610723655, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.453610723655 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 150.0010, 150.0010, 150.0010 Num. of grids of a-, b-, and c-axes = 70, 54, 54 Grid_Origin -7.337783538755 -6.797491441591 -6.797491441591 Cell_Volume = 3445.037441039801 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.256509111003, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.256509111003, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.256509111003 |gtv_a| = 0.256509111003 |gtv_b| = 0.256509111003 |gtv_c| = 0.256509111003 Num. of grids overlapping with atom 1 = 53508 Num. of grids overlapping with atom 2 = 53508 ******************************************************* Orbital optimization SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 1 L-SCF= 1 Solving the eigenvalue problem... 1 O MulP 3.7519 3.7519 sum 7.5039 2 C MulP 1.2481 1.2481 sum 2.4961 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.010000000000 Uele = -4.628744758157 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 2 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 1.0656 1.0656 sum 2.1311 2 C MulP 3.9344 3.9344 sum 7.8689 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001422209813 Uele = -5.398588554187 dUele = 0.769843796030 NormRD = 2.455872828571 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 3 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 1.0666 1.0666 sum 2.1331 2 C MulP 3.9334 3.9334 sum 7.8669 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.391402711831 dUele = 0.007185842356 NormRD = 2.450554261104 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 4 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.7618 3.7618 sum 7.5236 2 C MulP 1.2382 1.2382 sum 2.4764 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.490939750695 dUele = 0.099537038864 NormRD = 0.765622637988 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 5 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.1716 2.1716 sum 4.3432 2 C MulP 2.8284 2.8284 sum 5.6568 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -4.592684427396 dUele = 0.898255323299 NormRD = 1.151028685846 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 6 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1917 3.1917 sum 6.3834 2 C MulP 1.8083 1.8083 sum 3.6166 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -4.829014590365 dUele = 0.236330162969 NormRD = 0.534743702833 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 7 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1247 3.1247 sum 6.2494 2 C MulP 1.8753 1.8753 sum 3.7506 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -4.820328657643 dUele = 0.008685932722 NormRD = 0.511609255143 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 8 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.4597 3.4597 sum 6.9195 2 C MulP 1.5403 1.5403 sum 3.0805 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.137444944055 dUele = 0.317116286412 NormRD = 0.358991009569 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 9 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1568 3.1568 sum 6.3136 2 C MulP 1.8432 1.8432 sum 3.6864 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.008863340043 dUele = 0.128581604012 NormRD = 0.048594833483 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=10 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1195 3.1195 sum 6.2390 2 C MulP 1.8805 1.8805 sum 3.7610 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.001935581804 dUele = 0.006927758239 NormRD = 0.015460106900 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=11 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1269 3.1269 sum 6.2538 2 C MulP 1.8731 1.8731 sum 3.7462 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.006733134514 dUele = 0.004797552710 NormRD = 0.011196192434 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=12 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1233 3.1233 sum 6.2467 2 C MulP 1.8767 1.8767 sum 3.7533 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.006107452784 dUele = 0.000625681730 NormRD = 0.007354543280 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=13 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1174 3.1174 sum 6.2348 2 C MulP 1.8826 1.8826 sum 3.7652 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.005016651571 dUele = 0.001090801213 NormRD = 0.000804852042 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=14 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1167 3.1167 sum 6.2334 2 C MulP 1.8833 1.8833 sum 3.7666 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004856068880 dUele = 0.000160582691 NormRD = 0.000065997238 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=15 L-SCF=15 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004846545420 dUele = 0.000009523460 NormRD = 0.000001303508 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=16 L-SCF=16 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004845906705 dUele = 0.000000638715 NormRD = 0.000000785962 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=17 L-SCF=17 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004846228260 dUele = 0.000000321555 NormRD = 0.000000011544 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=18 L-SCF=18 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004846221392 dUele = 0.000000006868 NormRD = 0.000000008925 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=19 L-SCF=19 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004846224181 dUele = 0.000000002789 NormRD = 0.000000000008 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=20 L-SCF=20 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.113116622295 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.004846224178 dUele = 0.000000000002 NormRD = 0.000000000000 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=21 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1411 3.1411 sum 6.2821 2 C MulP 1.8589 1.8589 sum 3.7179 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.976104157436 dUele = 0.028742066743 NormRD = 0.024654666173 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=22 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8949 2.8949 sum 5.7899 2 C MulP 2.1051 2.1051 sum 4.2101 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.895774568497 dUele = 0.080329588939 NormRD = 0.239201184233 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=23 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8977 2.8977 sum 5.7954 2 C MulP 2.1023 2.1023 sum 4.2046 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.042909742324 Uele = -4.896477176520 dUele = 0.000702608023 NormRD = 0.236397493502 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=24 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0092 3.0092 sum 6.0184 2 C MulP 1.9908 1.9908 sum 3.9816 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.057918857519 Uele = -4.927868130049 dUele = 0.031390953529 NormRD = 0.120340114280 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=25 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0785 3.0785 sum 6.1570 2 C MulP 1.9215 1.9215 sum 3.8430 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.950814482857 dUele = 0.022946352807 NormRD = 0.045583133837 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=26 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1070 3.1070 sum 6.2139 2 C MulP 1.8930 1.8930 sum 3.7861 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.961200809932 dUele = 0.010386327075 NormRD = 0.014184764190 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=27 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1153 3.1153 sum 6.2306 2 C MulP 1.8847 1.8847 sum 3.7694 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.964384632873 dUele = 0.003183822941 NormRD = 0.004994465752 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=28 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1144 3.1144 sum 6.2288 2 C MulP 1.8856 1.8856 sum 3.7712 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.964694802772 dUele = 0.000310169899 NormRD = 0.005196439963 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=29 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1187 3.1187 sum 6.2373 2 C MulP 1.8813 1.8813 sum 3.7627 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.966248073670 dUele = 0.001553270898 NormRD = 0.000422843777 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=30 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1190 3.1190 sum 6.2380 2 C MulP 1.8810 1.8810 sum 3.7620 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.966396914661 dUele = 0.000148840991 NormRD = 0.000025667861 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=31 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1190 3.1190 sum 6.2381 2 C MulP 1.8810 1.8810 sum 3.7619 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.966403518519 dUele = 0.000006603858 NormRD = 0.000000470509 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=32 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1190 3.1190 sum 6.2381 2 C MulP 1.8810 1.8810 sum 3.7619 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.966403396937 dUele = 0.000000121582 NormRD = 0.000000051464 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=33 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1190 3.1190 sum 6.2381 2 C MulP 1.8810 1.8810 sum 3.7619 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.966403407336 dUele = 0.000000010399 NormRD = 0.000000000773 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=34 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1190 3.1190 sum 6.2381 2 C MulP 1.8810 1.8810 sum 3.7619 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.080573572700 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.966403407513 dUele = 0.000000000177 NormRD = 0.000000000030 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=35 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1497 3.1497 sum 6.2993 2 C MulP 1.8503 1.8503 sum 3.7007 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.933238221687 dUele = 0.033165185827 NormRD = 0.030946448634 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=36 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8372 2.8372 sum 5.6744 2 C MulP 2.1628 2.1628 sum 4.3256 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.836423070362 dUele = 0.096815151324 NormRD = 0.301229913902 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=37 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8408 2.8408 sum 5.6816 2 C MulP 2.1592 2.1592 sum 4.3184 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.041953435711 Uele = -4.837260398398 dUele = 0.000837328036 NormRD = 0.297618211413 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=38 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.9831 2.9831 sum 5.9662 2 C MulP 2.0169 2.0169 sum 4.0338 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.056673460310 Uele = -4.874504688924 dUele = 0.037244290525 NormRD = 0.151678458110 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=39 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0702 3.0702 sum 6.1404 2 C MulP 1.9298 1.9298 sum 3.8596 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.902352965227 dUele = 0.027848276304 NormRD = 0.058503243919 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=40 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1062 3.1062 sum 6.2125 2 C MulP 1.8938 1.8938 sum 3.7875 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.915356282683 dUele = 0.013003317455 NormRD = 0.018854016511 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=41 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1170 3.1170 sum 6.2340 2 C MulP 1.8830 1.8830 sum 3.7660 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.919472445063 dUele = 0.004116162380 NormRD = 0.006965563842 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=42 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1150 3.1150 sum 6.2301 2 C MulP 1.8850 1.8850 sum 3.7699 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.919547762126 dUele = 0.000075317064 NormRD = 0.007970238075 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=43 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1219 3.1219 sum 6.2437 2 C MulP 1.8781 1.8781 sum 3.7563 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.922086861958 dUele = 0.002539099832 NormRD = 0.000361807999 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=44 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1221 3.1221 sum 6.2443 2 C MulP 1.8779 1.8779 sum 3.7557 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.922206755885 dUele = 0.000119893927 NormRD = 0.000039582286 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=45 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1222 3.1222 sum 6.2444 2 C MulP 1.8778 1.8778 sum 3.7556 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.922216149138 dUele = 0.000009393253 NormRD = 0.000001088932 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=46 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1222 3.1222 sum 6.2444 2 C MulP 1.8778 1.8778 sum 3.7556 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.922215951066 dUele = 0.000000198073 NormRD = 0.000000070036 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=47 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1222 3.1222 sum 6.2444 2 C MulP 1.8778 1.8778 sum 3.7556 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.922215968169 dUele = 0.000000017103 NormRD = 0.000000001136 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=48 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1222 3.1222 sum 6.2444 2 C MulP 1.8778 1.8778 sum 3.7556 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.050314053234 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.922215967940 dUele = 0.000000000230 NormRD = 0.000000000041 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=49 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1484 3.1484 sum 6.2968 2 C MulP 1.8516 1.8516 sum 3.7032 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.896980436797 dUele = 0.025235531143 NormRD = 0.026522620777 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=50 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8870 2.8870 sum 5.7741 2 C MulP 2.1130 2.1130 sum 4.2259 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.814452772522 dUele = 0.082527664274 NormRD = 0.253736066288 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=51 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8900 2.8900 sum 5.7799 2 C MulP 2.1100 2.1100 sum 4.2201 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.042883161542 Uele = -4.815185863092 dUele = 0.000733090569 NormRD = 0.250760156993 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=52 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0084 3.0084 sum 6.0167 2 C MulP 1.9916 1.9916 sum 3.9833 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.057922364968 Uele = -4.848059306295 dUele = 0.032873443203 NormRD = 0.127775564140 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=53 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0816 3.0816 sum 6.1633 2 C MulP 1.9184 1.9184 sum 3.8367 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.872238464433 dUele = 0.024179158138 NormRD = 0.048712588420 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=54 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1119 3.1119 sum 6.2238 2 C MulP 1.8881 1.8881 sum 3.7762 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.883289787034 dUele = 0.011051322601 NormRD = 0.015307730209 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=55 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1208 3.1208 sum 6.2416 2 C MulP 1.8792 1.8792 sum 3.7584 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.886705191083 dUele = 0.003415404049 NormRD = 0.005426341682 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=56 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1199 3.1199 sum 6.2398 2 C MulP 1.8801 1.8801 sum 3.7602 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.886865748929 dUele = 0.000160557846 NormRD = 0.005610294402 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=57 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1248 3.1248 sum 6.2495 2 C MulP 1.8752 1.8752 sum 3.7505 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.888722219779 dUele = 0.001856470849 NormRD = 0.000161980860 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=58 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1249 3.1249 sum 6.2498 2 C MulP 1.8751 1.8751 sum 3.7502 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.888774204124 dUele = 0.000051984345 NormRD = 0.000007232300 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=59 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1249 3.1249 sum 6.2499 2 C MulP 1.8751 1.8751 sum 3.7501 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.888774880843 dUele = 0.000000676718 NormRD = 0.000000722968 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=60 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1249 3.1249 sum 6.2499 2 C MulP 1.8751 1.8751 sum 3.7501 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.888774683466 dUele = 0.000000197376 NormRD = 0.000000061425 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=61 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1249 3.1249 sum 6.2499 2 C MulP 1.8751 1.8751 sum 3.7501 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.888774691044 dUele = 0.000000007578 NormRD = 0.000000000649 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=62 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1249 3.1249 sum 6.2499 2 C MulP 1.8751 1.8751 sum 3.7501 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.032047053955 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.888774690946 dUele = 0.000000000099 NormRD = 0.000000000004 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=63 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1469 3.1469 sum 6.2937 2 C MulP 1.8531 1.8531 sum 3.7063 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.869490135021 dUele = 0.019284555925 NormRD = 0.022247753326 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=64 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.9327 2.9327 sum 5.8654 2 C MulP 2.0673 2.0673 sum 4.1346 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.800414736319 dUele = 0.069075398703 NormRD = 0.209354182328 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=65 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.9350 2.9350 sum 5.8701 2 C MulP 2.0650 2.0650 sum 4.1299 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.043913073966 Uele = -4.801040378487 dUele = 0.000625642168 NormRD = 0.206956720736 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=66 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0317 3.0317 sum 6.0633 2 C MulP 1.9683 1.9683 sum 3.9367 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.059255390862 Uele = -4.829434672224 dUele = 0.028394293736 NormRD = 0.105307929772 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=67 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0921 3.0921 sum 6.1842 2 C MulP 1.9079 1.9079 sum 3.8158 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.849981227410 dUele = 0.020546555186 NormRD = 0.039572440371 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=68 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1169 3.1169 sum 6.2338 2 C MulP 1.8831 1.8831 sum 3.7662 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.859145965960 dUele = 0.009164738550 NormRD = 0.012098820268 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=69 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1241 3.1241 sum 6.2481 2 C MulP 1.8759 1.8759 sum 3.7519 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.861904451759 dUele = 0.002758485799 NormRD = 0.004110555101 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=70 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1239 3.1239 sum 6.2478 2 C MulP 1.8761 1.8761 sum 3.7522 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.862107689171 dUele = 0.000203237413 NormRD = 0.003789950815 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=71 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1271 3.1271 sum 6.2543 2 C MulP 1.8729 1.8729 sum 3.7457 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.863387842947 dUele = 0.001280153775 NormRD = 0.000118638889 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=72 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1272 3.1272 sum 6.2545 2 C MulP 1.8728 1.8728 sum 3.7455 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.863413053808 dUele = 0.000025210862 NormRD = 0.000021271834 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=73 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1273 3.1273 sum 6.2545 2 C MulP 1.8727 1.8727 sum 3.7455 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.863419765700 dUele = 0.000006711891 NormRD = 0.000000496397 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=74 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1273 3.1273 sum 6.2545 2 C MulP 1.8727 1.8727 sum 3.7455 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.863419598389 dUele = 0.000000167310 NormRD = 0.000000047330 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=75 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1273 3.1273 sum 6.2545 2 C MulP 1.8727 1.8727 sum 3.7455 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.863419602135 dUele = 0.000000003746 NormRD = 0.000000000275 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=76 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1273 3.1273 sum 6.2545 2 C MulP 1.8727 1.8727 sum 3.7455 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.020751408221 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.863419601998 dUele = 0.000000000137 NormRD = 0.000000000010 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=77 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1455 3.1455 sum 6.2909 2 C MulP 1.8545 1.8545 sum 3.7091 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.848494445854 dUele = 0.014925156144 NormRD = 0.018486391031 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=78 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.9712 2.9712 sum 5.9424 2 C MulP 2.0288 2.0288 sum 4.0576 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.791169295113 dUele = 0.057325150740 NormRD = 0.171392596421 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=79 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.9730 2.9730 sum 5.9461 2 C MulP 2.0270 2.0270 sum 4.0539 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.044928402878 Uele = -4.791695555968 dUele = 0.000526260855 NormRD = 0.169474466159 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=80 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0514 3.0514 sum 6.1029 2 C MulP 1.9486 1.9486 sum 3.8971 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060535881312 Uele = -4.815908099528 dUele = 0.024212543560 NormRD = 0.086052642583 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=81 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1009 3.1009 sum 6.2019 2 C MulP 1.8991 1.8991 sum 3.7981 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.833172981322 dUele = 0.017264881794 NormRD = 0.031849659067 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=82 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1210 3.1210 sum 6.2421 2 C MulP 1.8790 1.8790 sum 3.7579 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.840688793587 dUele = 0.007515812264 NormRD = 0.009479351144 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=83 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1268 3.1268 sum 6.2535 2 C MulP 1.8732 1.8732 sum 3.7465 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.842892725240 dUele = 0.002203931653 NormRD = 0.003093977405 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=84 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1270 3.1270 sum 6.2540 2 C MulP 1.8730 1.8730 sum 3.7460 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843103847992 dUele = 0.000211122752 NormRD = 0.002515058954 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=85 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1291 3.1291 sum 6.2581 2 C MulP 1.8709 1.8709 sum 3.7419 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843945889985 dUele = 0.000842041993 NormRD = 0.000163969950 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=86 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1292 3.1292 sum 6.2584 2 C MulP 1.8708 1.8708 sum 3.7416 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843986663485 dUele = 0.000040773500 NormRD = 0.000015734396 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=87 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1292 3.1292 sum 6.2584 2 C MulP 1.8708 1.8708 sum 3.7416 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843991606200 dUele = 0.000004942715 NormRD = 0.000000334003 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=88 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1292 3.1292 sum 6.2584 2 C MulP 1.8708 1.8708 sum 3.7416 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843991472670 dUele = 0.000000133530 NormRD = 0.000000032786 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=89 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1292 3.1292 sum 6.2584 2 C MulP 1.8708 1.8708 sum 3.7416 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843991474673 dUele = 0.000000002003 NormRD = 0.000000000415 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=90 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1292 3.1292 sum 6.2584 2 C MulP 1.8708 1.8708 sum 3.7416 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843991474531 dUele = 0.000000000142 NormRD = 0.000000000006 Criterion = 0.000000001000 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 1.13402503 Dx Dy Dz Total 1.13402503 0.00000000 0.00000000 Core 30.74052351 0.00000000 0.00000000 Electron -29.60649848 0.00000000 0.00000000 Back ground -0.00000000 0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -4.843991474531 Ukin = 14.063275510979 UH0 = -26.457650043134 UH1 = 0.098736840670 Una = -15.440896576666 Unl = 3.273791626418 Uxc0 = -2.674541995206 Uxc1 = -2.674541995206 Ucore = 7.937658735000 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -21.874167897146 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 17.32553 Set_OLP_Kin = 0.03831 Set_Nonlocal = 0.05457 Set_ProExpn_VNA = 0.17392 Set_Hamiltonian = 14.03392 Poisson = 1.42094 diagonalization = 0.03155 Mixing_DM = 0.00300 Force = 0.41444 Total_Energy = 0.29732 Set_Aden_Grid = 0.02056 Set_Orbitals_Grid = 0.21607 Set_Density_Grid = 0.57358 RestartFileDFT = 0.00081 Mulliken_Charge = 0.00636 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* SD_scaling= 1.259817324989 |Maximum force| (Hartree/Bohr) = 0.172437767437 Criterion (Hartree/Bohr) = 0.000100000000 atom= 1, XYZ(ang) Fxyz(a.u.)= 0.1054 -0.0000 0.0000 -0.1718 0.0000 -0.0000 atom= 2, XYZ(ang) Fxyz(a.u.)= 1.4942 0.0000 -0.0000 0.1724 -0.0000 0.0000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* ******************************************************* Allocation of atoms to proccesors at MD_iter= 2 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 17.955637770240, 0.000000000000, 0.000000000000 B = 0.000000000000, 13.851491994185, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.851491994185 reciprocal lattice vectors (bohr^-1) RA = 0.349928272534, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.453610723655, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.453610723655 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 150.0010, 150.0010, 150.0010 Num. of grids of a-, b-, and c-axes = 70, 54, 54 Cell_Volume = 3445.037441039801 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.256509111003, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.256509111003, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.256509111003 |gtv_a| = 0.256509111003 |gtv_b| = 0.256509111003 |gtv_c| = 0.256509111003 Num. of grids overlapping with atom 1 = 53500 Num. of grids overlapping with atom 2 = 53500 ******************************************************* SCF calculation at MD = 2 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 2 SCF= 1 ******************* Found restart files Solving the eigenvalue problem... 1 O MulP 3.6525 3.6525 sum 7.3049 2 C MulP 1.3475 1.3475 sum 2.6951 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -4.856810346438 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000001000 ******************* MD= 2 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 1.2978 1.2978 sum 2.5956 2 C MulP 3.7022 3.7022 sum 7.4044 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.051260142041 Uele = -5.100921065904 dUele = 0.244110719466 NormRD = 2.202839160030 Criterion = 0.000000001000 ******************* MD= 2 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 1.4363 1.4363 sum 2.8727 2 C MulP 3.5637 3.5637 sum 7.1273 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.216695890224 Uele = -4.982098064277 dUele = 0.118823001627 NormRD = 1.924740261536 Criterion = 0.000000001000 ******************* MD= 2 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3962 3.3962 sum 6.7924 2 C MulP 1.6038 1.6038 sum 3.2076 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.228412643405 Uele = -5.420741486580 dUele = 0.438643422304 NormRD = 0.435928940227 Criterion = 0.000000001000 ******************* MD= 2 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0559 3.0559 sum 6.1117 2 C MulP 1.9441 1.9441 sum 3.8883 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.171838634022 dUele = 0.248902852558 NormRD = 0.398035013756 Criterion = 0.000000001000 ******************* MD= 2 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2025 3.2025 sum 6.4049 2 C MulP 1.7975 1.7975 sum 3.5951 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.285908312150 dUele = 0.114069678128 NormRD = 0.223044642309 Criterion = 0.000000001000 ******************* MD= 2 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0740 3.0740 sum 6.1479 2 C MulP 1.9260 1.9260 sum 3.8521 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.223271155029 dUele = 0.062637157120 NormRD = 0.213148593337 Criterion = 0.000000001000 ******************* MD= 2 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1638 3.1638 sum 6.3275 2 C MulP 1.8362 1.8362 sum 3.6725 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.299667840117 dUele = 0.076396685088 NormRD = 0.072747660233 Criterion = 0.000000001000 ******************* MD= 2 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1171 3.1171 sum 6.2341 2 C MulP 1.8829 1.8829 sum 3.7659 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.295300530879 dUele = 0.004367309238 NormRD = 0.026072099143 Criterion = 0.000000001000 ******************* MD= 2 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1368 3.1368 sum 6.2737 2 C MulP 1.8632 1.8632 sum 3.7263 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308054936162 dUele = 0.012754405282 NormRD = 0.000689270974 Criterion = 0.000000001000 ******************* MD= 2 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2745 2 C MulP 1.8628 1.8628 sum 3.7255 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308404336605 dUele = 0.000349400443 NormRD = 0.000036198762 Criterion = 0.000000001000 ******************* MD= 2 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2745 2 C MulP 1.8628 1.8628 sum 3.7255 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308405651832 dUele = 0.000001315227 NormRD = 0.000014163922 Criterion = 0.000000001000 ******************* MD= 2 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2744 2 C MulP 1.8628 1.8628 sum 3.7256 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308400959156 dUele = 0.000004692676 NormRD = 0.000000321010 Criterion = 0.000000001000 ******************* MD= 2 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2744 2 C MulP 1.8628 1.8628 sum 3.7256 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308401063464 dUele = 0.000000104308 NormRD = 0.000000008214 Criterion = 0.000000001000 ******************* MD= 2 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2744 2 C MulP 1.8628 1.8628 sum 3.7256 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308401059034 dUele = 0.000000004430 NormRD = 0.000000001305 Criterion = 0.000000001000 ******************* MD= 2 SCF=16 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2744 2 C MulP 1.8628 1.8628 sum 3.7256 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308401059728 dUele = 0.000000000694 NormRD = 0.000000000005 Criterion = 0.000000001000 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.67610652 Dx Dy Dz Total 0.67610652 -0.00000000 0.00000000 Core 31.74584038 -0.00000000 0.00000000 Electron -31.06973386 -0.00000000 0.00000000 Back ground -0.00000000 0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 2 ******************************************************* Uele = -5.308401059728 Ukin = 14.120132020529 UH0 = -27.476025323880 UH1 = 0.108418252514 Una = -15.676014746284 Unl = 3.249527838519 Uxc0 = -2.702747206989 Uxc1 = -2.702747206989 Ucore = 9.145268240731 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -21.934188131848 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 2 ******************************************************* DFT in total = 3.83187 Set_OLP_Kin = 0.03473 Set_Nonlocal = 0.05420 Set_ProExpn_VNA = 0.19870 Set_Hamiltonian = 2.29791 Poisson = 0.23900 diagonalization = 0.00553 Mixing_DM = 0.00063 Force = 0.41463 Total_Energy = 0.27098 Set_Aden_Grid = 0.02065 Set_Orbitals_Grid = 0.17446 Set_Density_Grid = 0.10775 RestartFileDFT = 0.00257 Mulliken_Charge = 0.00120 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 2 ******************************************************* SD_scaling= 1.259817324989 |Maximum force| (Hartree/Bohr) = 0.109531763437 Criterion (Hartree/Bohr) = 0.000100000000 atom= 1, XYZ(ang) Fxyz(a.u.)= 0.1779 0.0000 -0.0000 -0.1087 -0.0000 0.0000 atom= 2, XYZ(ang) Fxyz(a.u.)= 1.4211 -0.0000 0.0000 0.1095 0.0000 -0.0000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* ******************************************************* Allocation of atoms to proccesors at MD_iter= 3 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 17.955637770240, 0.000000000000, 0.000000000000 B = 0.000000000000, 13.851491994185, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.851491994185 reciprocal lattice vectors (bohr^-1) RA = 0.349928272534, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.453610723655, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.453610723655 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 150.0010, 150.0010, 150.0010 Num. of grids of a-, b-, and c-axes = 70, 54, 54 Cell_Volume = 3445.037441039801 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.256509111003, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.256509111003, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.256509111003 |gtv_a| = 0.256509111003 |gtv_b| = 0.256509111003 |gtv_c| = 0.256509111003 Num. of grids overlapping with atom 1 = 53608 Num. of grids overlapping with atom 2 = 53632 ******************************************************* Orbital optimization SCF calculation at MD = 3 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 1 L-SCF= 1 Solving the eigenvalue problem... 1 O MulP 3.5382 3.5382 sum 7.0765 2 C MulP 1.4618 1.4618 sum 2.9235 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.091647774328 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 2 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 1.7073 1.7073 sum 3.4146 2 C MulP 3.2927 3.2927 sum 6.5854 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.076432770574 Uele = -5.221522391324 dUele = 0.129874616996 NormRD = 1.710268398871 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 3 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.0746 2.0746 sum 4.1492 2 C MulP 2.9254 2.9254 sum 5.8508 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.166331596030 Uele = -5.262682394125 dUele = 0.041160002802 NormRD = 1.257343388939 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 4 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0364 3.0364 sum 6.0728 2 C MulP 1.9636 1.9636 sum 3.9272 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.177105152346 Uele = -5.635471087775 dUele = 0.372788693649 NormRD = 0.310111482932 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 5 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1307 3.1307 sum 6.2614 2 C MulP 1.8693 1.8693 sum 3.7386 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.710196997842 dUele = 0.074725910067 NormRD = 0.203078889950 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 6 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1501 3.1501 sum 6.3002 2 C MulP 1.8499 1.8499 sum 3.6998 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.731585025742 dUele = 0.021388027900 NormRD = 0.131388771986 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 7 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1429 3.1429 sum 6.2858 2 C MulP 1.8571 1.8571 sum 3.7142 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.730014551120 dUele = 0.001570474622 NormRD = 0.092086800455 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 8 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1882 3.1882 sum 6.3764 2 C MulP 1.8118 1.8118 sum 3.6236 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.782504421893 dUele = 0.052489870773 NormRD = 0.054714891146 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 9 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1348 3.1348 sum 6.2697 2 C MulP 1.8652 1.8652 sum 3.7303 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.737152685047 dUele = 0.045351736846 NormRD = 0.017179940858 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=10 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1466 3.1466 sum 6.2931 2 C MulP 1.8534 1.8534 sum 3.7069 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747846840777 dUele = 0.010694155730 NormRD = 0.000275423345 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=11 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2929 2 C MulP 1.8536 1.8536 sum 3.7071 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747843238145 dUele = 0.000003602632 NormRD = 0.000033803738 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=12 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2929 2 C MulP 1.8536 1.8536 sum 3.7071 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747839309143 dUele = 0.000003929003 NormRD = 0.000010903227 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=13 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2928 2 C MulP 1.8536 1.8536 sum 3.7072 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747836183503 dUele = 0.000003125640 NormRD = 0.000000217971 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=14 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2928 2 C MulP 1.8536 1.8536 sum 3.7072 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747836203608 dUele = 0.000000020105 NormRD = 0.000000004790 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=15 L-SCF=15 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2928 2 C MulP 1.8536 1.8536 sum 3.7072 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747836200663 dUele = 0.000000002945 NormRD = 0.000000000056 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=16 L-SCF=16 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2928 2 C MulP 1.8536 1.8536 sum 3.7072 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.426627733652 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.747836200639 dUele = 0.000000000024 NormRD = 0.000000000001 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=17 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1445 3.1445 sum 6.2891 2 C MulP 1.8555 1.8555 sum 3.7109 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.729697811769 dUele = 0.018138388870 NormRD = 0.003296085343 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=18 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1505 3.1505 sum 6.3011 2 C MulP 1.8495 1.8495 sum 3.6989 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.732270789338 dUele = 0.002572977568 NormRD = 0.006216492361 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=19 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1505 3.1505 sum 6.3011 2 C MulP 1.8495 1.8495 sum 3.6989 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.105137343430 Uele = -5.732252303308 dUele = 0.000018486029 NormRD = 0.006186858053 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=20 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1482 3.1482 sum 6.2964 2 C MulP 1.8518 1.8518 sum 3.7036 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.140151526356 Uele = -5.730319591788 dUele = 0.001932711520 NormRD = 0.003092382694 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=21 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1466 3.1466 sum 6.2933 2 C MulP 1.8534 1.8534 sum 3.7067 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310352 Uele = -5.729041133800 dUele = 0.001278457989 NormRD = 0.001068965352 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=22 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1460 3.1460 sum 6.2921 2 C MulP 1.8540 1.8540 sum 3.7079 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310352 Uele = -5.728570049458 dUele = 0.000471084342 NormRD = 0.000404592333 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=23 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1459 3.1459 sum 6.2918 2 C MulP 1.8541 1.8541 sum 3.7082 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310352 Uele = -5.728467563597 dUele = 0.000102485861 NormRD = 0.000285493991 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=24 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1460 3.1460 sum 6.2920 2 C MulP 1.8540 1.8540 sum 3.7080 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310352 Uele = -5.728638594156 dUele = 0.000171030559 NormRD = 0.000217387945 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=25 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1458 3.1458 sum 6.2917 2 C MulP 1.8542 1.8542 sum 3.7083 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310352 Uele = -5.728499959426 dUele = 0.000138634730 NormRD = 0.000000295866 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=26 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1458 3.1458 sum 6.2917 2 C MulP 1.8542 1.8542 sum 3.7083 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310352 Uele = -5.728499830749 dUele = 0.000000128677 NormRD = 0.000000007369 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=27 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1458 3.1458 sum 6.2917 2 C MulP 1.8542 1.8542 sum 3.7083 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310352 Uele = -5.728499825579 dUele = 0.000000005169 NormRD = 0.000000000140 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=28 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1458 3.1458 sum 6.2917 2 C MulP 1.8542 1.8542 sum 3.7083 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.379666058346 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.728499825685 dUele = 0.000000000106 NormRD = 0.000000000036 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=29 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1441 3.1441 sum 6.2882 2 C MulP 1.8559 1.8559 sum 3.7118 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.709634400513 dUele = 0.018865425172 NormRD = 0.003296564378 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=30 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1495 3.1495 sum 6.2990 2 C MulP 1.8505 1.8505 sum 3.7010 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.711414254412 dUele = 0.001779853899 NormRD = 0.005567110019 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=31 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1495 3.1495 sum 6.2990 2 C MulP 1.8505 1.8505 sum 3.7010 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.105216382743 Uele = -5.711397748027 dUele = 0.000016506384 NormRD = 0.005540591331 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=32 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1474 3.1474 sum 6.2948 2 C MulP 1.8526 1.8526 sum 3.7052 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.140370899139 Uele = -5.709670591799 dUele = 0.001727156229 NormRD = 0.002772733574 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=33 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1460 3.1460 sum 6.2920 2 C MulP 1.8540 1.8540 sum 3.7080 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956408 Uele = -5.708530132653 dUele = 0.001140459145 NormRD = 0.000978447392 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=34 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1454 3.1454 sum 6.2909 2 C MulP 1.8546 1.8546 sum 3.7091 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956408 Uele = -5.708111374523 dUele = 0.000418758130 NormRD = 0.000410483862 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=35 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956408 Uele = -5.708024995512 dUele = 0.000086379011 NormRD = 0.000304009264 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=36 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1455 3.1455 sum 6.2910 2 C MulP 1.8545 1.8545 sum 3.7090 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956408 Uele = -5.708262492146 dUele = 0.000237496634 NormRD = 0.000305283511 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=37 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956408 Uele = -5.708068554444 dUele = 0.000193937703 NormRD = 0.000000569929 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=38 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956408 Uele = -5.708068204804 dUele = 0.000000349639 NormRD = 0.000000007317 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=39 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956408 Uele = -5.708068208816 dUele = 0.000000004012 NormRD = 0.000000000566 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=40 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.333812737220 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.708068209196 dUele = 0.000000000380 NormRD = 0.000000000012 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=41 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1437 3.1437 sum 6.2875 2 C MulP 1.8563 1.8563 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.688391470575 dUele = 0.019676738621 NormRD = 0.003298349327 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=42 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1483 3.1483 sum 6.2966 2 C MulP 1.8517 1.8517 sum 3.7034 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.689160380928 dUele = 0.000768910352 NormRD = 0.004711838672 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=43 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1483 3.1483 sum 6.2966 2 C MulP 1.8517 1.8517 sum 3.7034 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.105500024402 Uele = -5.689146481355 dUele = 0.000013899573 NormRD = 0.004689454519 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=44 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1465 3.1465 sum 6.2930 2 C MulP 1.8535 1.8535 sum 3.7070 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.140983962644 Uele = -5.687688038133 dUele = 0.001458443222 NormRD = 0.002352628636 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=45 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731736 Uele = -5.686728834953 dUele = 0.000959203180 NormRD = 0.000864538233 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=46 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1449 3.1449 sum 6.2897 2 C MulP 1.8551 1.8551 sum 3.7103 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731736 Uele = -5.686379158593 dUele = 0.000349676360 NormRD = 0.000419280407 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=47 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1448 3.1448 sum 6.2895 2 C MulP 1.8552 1.8552 sum 3.7105 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731736 Uele = -5.686315064405 dUele = 0.000064094187 NormRD = 0.000324498009 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=48 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1451 3.1451 sum 6.2901 2 C MulP 1.8549 1.8549 sum 3.7099 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731736 Uele = -5.686654097125 dUele = 0.000339032719 NormRD = 0.000445891608 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=49 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1447 3.1447 sum 6.2895 2 C MulP 1.8553 1.8553 sum 3.7105 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731736 Uele = -5.686372786480 dUele = 0.000281310645 NormRD = 0.000000953733 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=50 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1447 3.1447 sum 6.2895 2 C MulP 1.8553 1.8553 sum 3.7105 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731736 Uele = -5.686372159947 dUele = 0.000000626533 NormRD = 0.000000033281 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=51 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1447 3.1447 sum 6.2895 2 C MulP 1.8553 1.8553 sum 3.7105 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731736 Uele = -5.686372180984 dUele = 0.000000021037 NormRD = 0.000000000234 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=52 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1447 3.1447 sum 6.2895 2 C MulP 1.8553 1.8553 sum 3.7105 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.289250081805 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.686372181098 dUele = 0.000000000115 NormRD = 0.000000000003 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=53 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1435 3.1435 sum 6.2869 2 C MulP 1.8565 1.8565 sum 3.7131 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.665789856007 dUele = 0.020582325092 NormRD = 0.003310436803 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=54 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1469 3.1469 sum 6.2939 2 C MulP 1.8531 1.8531 sum 3.7061 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.665245025604 dUele = 0.000544830403 NormRD = 0.003571305266 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=55 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1469 3.1469 sum 6.2938 2 C MulP 1.8531 1.8531 sum 3.7062 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.106616827241 Uele = -5.665234617108 dUele = 0.000010408496 NormRD = 0.003554517489 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=56 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1456 3.1456 sum 6.2911 2 C MulP 1.8544 1.8544 sum 3.7089 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.143133859074 Uele = -5.664130795752 dUele = 0.001103821356 NormRD = 0.001795383378 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=57 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1446 3.1446 sum 6.2893 2 C MulP 1.8554 1.8554 sum 3.7107 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105538 Uele = -5.663413552971 dUele = 0.000717242782 NormRD = 0.000727165280 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=58 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1443 3.1443 sum 6.2886 2 C MulP 1.8557 1.8557 sum 3.7114 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105538 Uele = -5.663157647848 dUele = 0.000255905123 NormRD = 0.000431780480 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=59 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2885 2 C MulP 1.8558 1.8558 sum 3.7115 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105538 Uele = -5.663127369532 dUele = 0.000030278316 NormRD = 0.000343005483 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=60 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1447 3.1447 sum 6.2894 2 C MulP 1.8553 1.8553 sum 3.7106 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105538 Uele = -5.663590996945 dUele = 0.000463627413 NormRD = 0.000621534197 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=61 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2884 2 C MulP 1.8558 1.8558 sum 3.7116 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105538 Uele = -5.663202798463 dUele = 0.000388198482 NormRD = 0.000001375760 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=62 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2884 2 C MulP 1.8558 1.8558 sum 3.7116 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105538 Uele = -5.663201874257 dUele = 0.000000924205 NormRD = 0.000000062765 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=63 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2884 2 C MulP 1.8558 1.8558 sum 3.7116 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105538 Uele = -5.663201913171 dUele = 0.000000038913 NormRD = 0.000000001898 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=64 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2884 2 C MulP 1.8558 1.8558 sum 3.7116 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105538 Uele = -5.663201914297 dUele = 0.000000001127 NormRD = 0.000000000003 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=65 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2884 2 C MulP 1.8558 1.8558 sum 3.7116 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.246211675795 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.663201914298 dUele = 0.000000000001 NormRD = 0.000000000000 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=66 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1433 3.1433 sum 6.2866 2 C MulP 1.8567 1.8567 sum 3.7134 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.641614119019 dUele = 0.021587795279 NormRD = 0.003354960099 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=67 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2905 2 C MulP 1.8547 1.8547 sum 3.7095 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001599040932 Uele = -5.639321181795 dUele = 0.002292937224 NormRD = 0.002053457970 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=68 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2905 2 C MulP 1.8547 1.8547 sum 3.7095 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.114899454920 Uele = -5.639312178662 dUele = 0.000009003134 NormRD = 0.002039119052 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=69 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1444 3.1444 sum 6.2889 2 C MulP 1.8556 1.8556 sum 3.7111 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.158203938365 Uele = -5.638670534659 dUele = 0.000641644003 NormRD = 0.001066842647 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=70 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1439 3.1439 sum 6.2879 2 C MulP 1.8561 1.8561 sum 3.7121 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357742 Uele = -5.638286648426 dUele = 0.000383886232 NormRD = 0.000588606667 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=71 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357742 Uele = -5.638177990156 dUele = 0.000108658271 NormRD = 0.000422217153 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=72 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357742 Uele = -5.638218744606 dUele = 0.000040754451 NormRD = 0.000305982351 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=73 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1436 3.1436 sum 6.2872 2 C MulP 1.8564 1.8564 sum 3.7128 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357742 Uele = -5.638172469655 dUele = 0.000046274952 NormRD = 0.000199843643 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=74 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357742 Uele = -5.638297244661 dUele = 0.000124775006 NormRD = 0.000002795777 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=75 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357742 Uele = -5.638295435146 dUele = 0.000001809515 NormRD = 0.000000035346 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=76 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357742 Uele = -5.638295457798 dUele = 0.000000022652 NormRD = 0.000000000876 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=77 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357742 Uele = -5.638295458334 dUele = 0.000000000536 NormRD = 0.000000000001 Criterion = 0.000000001000 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.35410783 Dx Dy Dz Total 0.35410783 0.00000000 -0.00000000 Core 32.43205046 0.00000000 -0.00000000 Electron -32.07794263 -0.00000000 0.00000000 Back ground -0.00000000 0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 3 ******************************************************* Uele = -5.638295458334 Ukin = 14.346850552718 UH0 = -28.290711366742 UH1 = 0.109180652485 Una = -16.057280549793 Unl = 3.209219921413 Uxc0 = -2.743262361555 Uxc1 = -2.743262361555 Ucore = 10.215684462448 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -21.953581050580 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 3 ******************************************************* DFT in total = 14.44527 Set_OLP_Kin = 0.03675 Set_Nonlocal = 0.05403 Set_ProExpn_VNA = 0.17006 Set_Hamiltonian = 11.47424 Poisson = 1.21245 diagonalization = 0.02678 Mixing_DM = 0.00259 Force = 0.41805 Total_Energy = 0.26509 Set_Aden_Grid = 0.02061 Set_Orbitals_Grid = 0.21818 Set_Density_Grid = 0.50484 RestartFileDFT = 0.00090 Mulliken_Charge = 0.00543 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 3 ******************************************************* SD_scaling= 1.259817324989 |Maximum force| (Hartree/Bohr) = 0.026365123007 Criterion (Hartree/Bohr) = 0.000100000000 atom= 1, XYZ(ang) Fxyz(a.u.)= 0.1779 0.0000 -0.0000 0.0249 0.0000 -0.0000 atom= 2, XYZ(ang) Fxyz(a.u.)= 1.4211 -0.0000 0.0000 -0.0264 -0.0000 0.0000 outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 43.609 0 43.609 readfile = 0 7.266 0 7.266 truncation = 0 0.000 0 0.000 MD_pac = 0 0.001 0 0.001 OutData = 0 0.388 0 0.388 DFT = 0 35.603 0 35.603 *** In DFT *** Set_OLP_Kin = 0 0.110 0 0.110 Set_Nonlocal = 0 0.163 0 0.163 Set_ProExpn_VNA = 0 0.543 0 0.543 Set_Hamiltonian = 0 27.806 0 27.806 Poisson = 0 2.872 0 2.872 Diagonalization = 0 0.064 0 0.064 Mixing_DM = 0 0.006 0 0.006 Force = 0 1.247 0 1.247 Total_Energy = 0 0.833 0 0.833 Set_Aden_Grid = 0 0.062 0 0.062 Set_Orbitals_Grid = 0 0.609 0 0.609 Set_Density_Grid = 0 1.186 0 1.186 RestartFileDFT = 0 0.004 0 0.004 Mulliken_Charge = 0 0.013 0 0.013 FFT(2D)_Density = 0 0.000 0 0.000 Others = 0 0.084 0 0.084 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* automatically determied UnitCell(Ang.) from atomic positions and Rc of PAOs (margin= 10.00%) 11.513520 0.000000 0.000000 0.000000 9.313520 0.000000 0.000000 0.000000 9.313520 widened unit cell to fit energy cutoff (Ang.) A = 11.895558 0.000000 0.000000 (96) B = 0.000000 9.912965 0.000000 (80) C = 0.000000 0.000000 9.912965 (80) Your input file was normally read. The system includes 1 species and 2 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species Cr were normally found. VPSs of species Cr were normally found. Cr_CA13.vps is j-dependent. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 The system is molecule. lattice vectors (bohr) A = 22.479344696793, 0.000000000000, 0.000000000000 B = 0.000000000000, 18.732787247327, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.732787247327 reciprocal lattice vectors (bohr^-1) RA = 0.279509273599, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.335411128319, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.335411128319 Grid_Origin -9.232866439522 -9.249313703368 -9.249313703368 Cell_Volume = 7888.391352601706 (Bohr^3) GridVol = 0.012839178634 (Bohr^3) Grid_Origin -9.232866439522 -9.249313703368 -9.249313703368 Cell_Volume = 7888.391352601706 (Bohr^3) GridVol = 0.012839178634 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 22.479344696793, 0.000000000000, 0.000000000000 B = 0.000000000000, 18.732787247327, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.732787247327 reciprocal lattice vectors (bohr^-1) RA = 0.279509273599, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.335411128319, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.335411128319 Required cutoff energy (Ryd) for 3D-grids = 180.0000 Used cutoff energy (Ryd) for 3D-grids = 180.0010, 180.0010, 180.0010 Num. of grids of a-, b-, and c-axes = 96, 80, 80 Grid_Origin -9.232866439522 -9.249313703368 -9.249313703368 Cell_Volume = 7888.391352601706 (Bohr^3) GridVol = 0.012839178634 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.234159840592, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.234159840592, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.234159840592 |gtv_a| = 0.234159840592 |gtv_b| = 0.234159840592 |gtv_c| = 0.234159840592 Num. of grids overlapping with atom 1 = 167056 Num. of grids overlapping with atom 2 = 167056 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... Assertion failed in file src/mpid/ch3/src/ch3u_buffer.c at line 77: FALSE memcpy argument memory ranges overlap, dst_=0x1002d8c13c0 src_=0x1002d8c13c0 len_=160 internal ABORT - process 0 [cli_0]: aborting job: internal ABORT - process 0 =================================================================================== = BAD TERMINATION OF ONE OF YOUR APPLICATION PROCESSES = EXIT CODE: 1 = CLEANING UP REMAINING PROCESSES = YOU CAN IGNORE THE BELOW CLEANUP MESSAGES =================================================================================== real 4m15.335s user 4m11.005s sys 0m1.022s + '[' -r runtest.result ']' + cat runtest.result 1 input_example/Benzene.dat Elapsed time(s)= 19.99 diff Utot= 0.000000000000 diff Force= 0.000000000000 2 input_example/C60.dat Elapsed time(s)= 184.91 diff Utot= 0.000000000002 diff Force= 0.000000000003 3 input_example/CO.dat Elapsed time(s)= 43.61 diff Utot= 0.000000000000 diff Force= 0.000000000014 ~/build/BUILD/openmx3.8 + popd + module unload mpi/mpich-ppc64le ++ /usr/share/lmod/lmod/libexec/lmod bash unload mpi/mpich-ppc64le + eval 'LMOD_DEFAULT_MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'LMOD_DEFAULT_MODULEPATH;' 'MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'MODULEPATH;' unset 'LD_LIBRARY_PATH;' 'LMOD_DEFAULT_MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'LMOD_DEFAULT_MODULEPATH;' unset 'LOADEDMODULES;' 'MANPATH="/usr/share/lmod/lmod/share/man::";' export 'MANPATH;' 'MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'MODULEPATH;' unset 'MPI_BIN;' unset 'MPI_COMPILER;' unset 'MPI_FORTRAN_MOD_DIR;' unset 'MPI_HOME;' unset 'MPI_INCLUDE;' unset 'MPI_LIB;' unset 'MPI_MAN;' unset 'MPI_PYTHON_SITEARCH;' unset 'MPI_SUFFIX;' unset 'MPI_SYSCONFIG;' 'PATH="/usr/bin:/bin:/usr/sbin:/sbin:/usr/local/sbin:/builddir/.local/bin:/builddir/bin";' export 'PATH;' 'PKG_CONFIG_PATH=":/usr/lib64/pkgconfig:/usr/share/pkgconfig";' export 'PKG_CONFIG_PATH;' unset 'PYTHONPATH;' unset '_LMFILES_;' '_ModuleTable001_="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";' export '_ModuleTable001_;' '_ModuleTable002_="c2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLH0sWyJzeXN0ZW1CYXNlTVBBVEgiXT0iL2V0Yy9tb2R1bGVmaWxlczovdXNyL3NoYXJlL21vZHVsZWZpbGVzOi91c3Ivc2hhcmUvbW9kdWxlZmlsZXMvTGludXg6L3Vzci9zaGFyZS9tb2R1bGVmaWxlcy9Db3JlOi91c3Ivc2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLFsidmVyc2lvbiJdPTIsfQ==";' export '_ModuleTable002_;' '_ModuleTable_Sz_="2";' export '_ModuleTable_Sz_;' ++ LMOD_DEFAULT_MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export LMOD_DEFAULT_MODULEPATH ++ MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export MODULEPATH ++ unset LD_LIBRARY_PATH ++ LMOD_DEFAULT_MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export LMOD_DEFAULT_MODULEPATH ++ unset LOADEDMODULES ++ MANPATH=/usr/share/lmod/lmod/share/man:: ++ export MANPATH ++ MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export MODULEPATH ++ unset MPI_BIN ++ unset MPI_COMPILER ++ unset MPI_FORTRAN_MOD_DIR ++ unset MPI_HOME ++ unset MPI_INCLUDE ++ unset MPI_LIB ++ unset MPI_MAN ++ unset MPI_PYTHON_SITEARCH ++ unset MPI_SUFFIX ++ unset MPI_SYSCONFIG ++ PATH=/usr/bin:/bin:/usr/sbin:/sbin:/usr/local/sbin:/builddir/.local/bin:/builddir/bin ++ export PATH ++ PKG_CONFIG_PATH=:/usr/lib64/pkgconfig:/usr/share/pkgconfig ++ export PKG_CONFIG_PATH ++ unset PYTHONPATH ++ unset _LMFILES_ ++ _ModuleTable001_=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 ++ export _ModuleTable001_ ++ _ModuleTable002_=c2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLH0sWyJzeXN0ZW1CYXNlTVBBVEgiXT0iL2V0Yy9tb2R1bGVmaWxlczovdXNyL3NoYXJlL21vZHVsZWZpbGVzOi91c3Ivc2hhcmUvbW9kdWxlZmlsZXMvTGludXg6L3Vzci9zaGFyZS9tb2R1bGVmaWxlcy9Db3JlOi91c3Ivc2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLFsidmVyc2lvbiJdPTIsfQ== ++ export _ModuleTable002_ ++ _ModuleTable_Sz_=2 ++ export _ModuleTable_Sz_ + '[' 0 = 0 ']' ++ : -s sh + eval + for mpi in mpich openmpi + module load mpi/openmpi-ppc64le ++ /usr/share/lmod/lmod/libexec/lmod bash load mpi/openmpi-ppc64le + eval 'LMOD_DEFAULT_MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'LMOD_DEFAULT_MODULEPATH;' 'MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'MODULEPATH;' 'LD_LIBRARY_PATH="/usr/lib64/openmpi/lib";' export 'LD_LIBRARY_PATH;' 'LMOD_DEFAULT_MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'LMOD_DEFAULT_MODULEPATH;' 'LOADEDMODULES="mpi/openmpi-ppc64le";' export 'LOADEDMODULES;' 'MANPATH="/usr/share/man/openmpi-ppc64le:/usr/share/lmod/lmod/share/man::";' export 'MANPATH;' 'MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'MODULEPATH;' 'MPI_BIN="/usr/lib64/openmpi/bin";' export 'MPI_BIN;' 'MPI_COMPILER="openmpi-ppc64le";' export 'MPI_COMPILER;' 'MPI_FORTRAN_MOD_DIR="/usr/lib64/gfortran/modules/openmpi";' export 'MPI_FORTRAN_MOD_DIR;' 'MPI_HOME="/usr/lib64/openmpi";' export 'MPI_HOME;' 'MPI_INCLUDE="/usr/include/openmpi-ppc64le";' export 'MPI_INCLUDE;' 'MPI_LIB="/usr/lib64/openmpi/lib";' export 'MPI_LIB;' 'MPI_MAN="/usr/share/man/openmpi-ppc64le";' export 'MPI_MAN;' 'MPI_PYTHON2_SITEARCH="/usr/lib64/python2.7/site-packages/openmpi";' export 'MPI_PYTHON2_SITEARCH;' 'MPI_PYTHON3_SITEARCH="/usr/lib64/python3.4/site-packages/openmpi";' export 'MPI_PYTHON3_SITEARCH;' 'MPI_PYTHON_SITEARCH="/usr/lib64/python2.7/site-packages/openmpi";' export 'MPI_PYTHON_SITEARCH;' 'MPI_SUFFIX="_openmpi";' export 'MPI_SUFFIX;' 'MPI_SYSCONFIG="/etc/openmpi-ppc64le";' export 'MPI_SYSCONFIG;' 'PATH="/usr/lib64/openmpi/bin:/usr/bin:/bin:/usr/sbin:/sbin:/usr/local/sbin:/builddir/.local/bin:/builddir/bin";' export 'PATH;' 'PKG_CONFIG_PATH="/usr/lib64/openmpi/lib/pkgconfig::/usr/lib64/pkgconfig:/usr/share/pkgconfig";' export 'PKG_CONFIG_PATH;' '_LMFILES_="/usr/share/modulefiles/mpi/openmpi-ppc64le";' export '_LMFILES_;' '_ModuleTable001_="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";' export '_ModuleTable001_;' '_ModuleTable002_="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";' export '_ModuleTable002_;' '_ModuleTable_Sz_="2";' export '_ModuleTable_Sz_;' ++ LMOD_DEFAULT_MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export LMOD_DEFAULT_MODULEPATH ++ MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export MODULEPATH ++ LD_LIBRARY_PATH=/usr/lib64/openmpi/lib ++ export LD_LIBRARY_PATH ++ LMOD_DEFAULT_MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export LMOD_DEFAULT_MODULEPATH ++ LOADEDMODULES=mpi/openmpi-ppc64le ++ export LOADEDMODULES ++ MANPATH=/usr/share/man/openmpi-ppc64le:/usr/share/lmod/lmod/share/man:: ++ export MANPATH ++ MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export MODULEPATH ++ MPI_BIN=/usr/lib64/openmpi/bin ++ export MPI_BIN ++ MPI_COMPILER=openmpi-ppc64le ++ export MPI_COMPILER ++ MPI_FORTRAN_MOD_DIR=/usr/lib64/gfortran/modules/openmpi ++ export MPI_FORTRAN_MOD_DIR ++ MPI_HOME=/usr/lib64/openmpi ++ export MPI_HOME ++ MPI_INCLUDE=/usr/include/openmpi-ppc64le ++ export MPI_INCLUDE ++ MPI_LIB=/usr/lib64/openmpi/lib ++ export MPI_LIB ++ MPI_MAN=/usr/share/man/openmpi-ppc64le ++ export MPI_MAN ++ MPI_PYTHON2_SITEARCH=/usr/lib64/python2.7/site-packages/openmpi ++ export MPI_PYTHON2_SITEARCH ++ MPI_PYTHON3_SITEARCH=/usr/lib64/python3.4/site-packages/openmpi ++ export MPI_PYTHON3_SITEARCH ++ MPI_PYTHON_SITEARCH=/usr/lib64/python2.7/site-packages/openmpi ++ export MPI_PYTHON_SITEARCH ++ MPI_SUFFIX=_openmpi ++ export MPI_SUFFIX ++ MPI_SYSCONFIG=/etc/openmpi-ppc64le ++ export MPI_SYSCONFIG ++ PATH=/usr/lib64/openmpi/bin:/usr/bin:/bin:/usr/sbin:/sbin:/usr/local/sbin:/builddir/.local/bin:/builddir/bin ++ export PATH ++ PKG_CONFIG_PATH=/usr/lib64/openmpi/lib/pkgconfig::/usr/lib64/pkgconfig:/usr/share/pkgconfig ++ export PKG_CONFIG_PATH ++ _LMFILES_=/usr/share/modulefiles/mpi/openmpi-ppc64le ++ export _LMFILES_ ++ _ModuleTable001_=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 ++ export _ModuleTable001_ ++ _ModuleTable002_=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 ++ export _ModuleTable002_ ++ _ModuleTable_Sz_=2 ++ export _ModuleTable_Sz_ + '[' 0 = 0 ']' ~/build/BUILD/openmx3.8/openmpi ~/build/BUILD/openmx3.8 ++ : -s sh + eval + pushd openmpi + cp -pr ../work/Al-Si111_ESM.dat ../work/C2H4_NEB.dat ../work/C60.dat ../work/C60_DC.dat ../work/C60_LO.dat ../work/CG15c_DC.dat ../work/Cafcc_FS.dat ../work/Cdia.dat ../work/CoO_NC.dat ../work/Cr2_CNC.dat ../work/Crys-NiO.dat ../work/DFT-D3 ../work/DIA216_DC.dat ../work/DIA512-1.dat ../work/DIA512_DC.dat ../work/DIA64_Band.dat ../work/DIA64_DC.dat ../work/DIA8-VA.dat ../work/DIA8.dat ../work/DIA8_DC.dat ../work/Doped_NT.dat ../work/DosMain ../work/Fe2.dat ../work/FeO+U.dat ../work/FeO_NC.dat ../work/Febcc2.dat ../work/GaAs.dat ../work/Gly_NH.dat ../work/Gly_VS.dat ../work/Graphite_STM.dat ../work/H2-075.dat ../work/H2O.dat ../work/MCCN.dat ../work/Methane.dat ../work/Methane2.dat ../work/Methane_OO.dat ../work/Mn12.dat ../work/MnO_NC.dat ../work/Mnfcc-EvsLC.dat ../work/Mol_MnO_NC.dat ../work/NaCl.dat ../work/NaCl_FC.dat ../work/NdCo5_4f+U.dat ../work/NdCo5_4f.dat ../work/NdCo5_OC.dat ../work/NiO_NC.dat ../work/Nitro_Benzene.dat ../work/OpticalConductivityMain ../work/Pt13.dat ../work/Pt63.dat ../work/Si-Wannier90.dat ../work/Si8.dat ../work/Si8_NEB.dat ../work/SialicAcid.dat ../work/SrVO3-Wannier90.dat ../work/Valorphin_DC.dat ../work/analysis_example ../work/cellopt_example ../work/esp ../work/force_example ../work/geoopt_example ../work/input_example ../work/jx ../work/large2_example ../work/large_example ../work/ml_example ../work/nbo_example ../work/negf_example ../work/polB ../work/stress_example ../work/test_mpi ../work/unfolding_example ../work/wf_example ./ + mpiexec -np 1 ./openmx -runtest -nt 1 + tee work.1.log The number of threads in each node for OpenMP parallelization is 1. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2013, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* OpenMX is now in the mode to check whether OpenMX runs normally on your machine or not by comparing the stored *.out and generated *.out 14 dat files are found in the directory 'input_example'. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* Your input file was normally read. The system includes 2 species and 12 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species H were normally found. PAOs of species C were normally found. VPSs of species H were normally found. H_CA13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species C were normally found. C_CA13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 12 estimated weight= 12.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 132 Average FNAN= 11.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 3 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 4 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 5 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 6 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 7 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 8 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 9 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 10 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 11 FNAN SNAN 11 0 CpyCell= 1 ct_AN= 12 FNAN SNAN 11 0 TFNAN= 132 Average FNAN= 11.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 4 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 5 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 6 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 7 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 8 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 9 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 10 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 11 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 12 FNAN SNAN 11 0 TFNAN= 132 Average FNAN= 11.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 4 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 5 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 6 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 7 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 8 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 9 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 10 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 11 FNAN SNAN 11 0 CpyCell= 2 ct_AN= 12 FNAN SNAN 11 0 The system is molecule. lattice vectors (bohr) A = 24.566437851526, 0.000000000000, 0.000000000000 B = 0.000000000000, 24.566437851526, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.228081920052 reciprocal lattice vectors (bohr^-1) RA = 0.255762978139, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.255762978139, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.474988387973 Grid_Origin -12.173547013257 -12.173547643166 -6.503806944026 Cell_Volume = 7983.277982894211 (Bohr^3) GridVol = 0.010607033885 (Bohr^3) Grid_Origin -12.173547013257 -12.173547643166 -6.503806944026 Cell_Volume = 7983.277982894211 (Bohr^3) GridVol = 0.010607033885 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 24.566437851526, 0.000000000000, 0.000000000000 B = 0.000000000000, 24.566437851526, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.228081920052 reciprocal lattice vectors (bohr^-1) RA = 0.255762978139, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.255762978139, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.474988387973 Required cutoff energy (Ryd) for 3D-grids = 200.0000 Used cutoff energy (Ryd) for 3D-grids = 205.1405, 205.1405, 203.0526 Num. of grids of a-, b-, and c-axes = 112, 112, 60 Grid_Origin -12.173547013257 -12.173547643166 -6.503806944026 Cell_Volume = 7983.277982894211 (Bohr^3) GridVol = 0.010607033885 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.219343195103, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.219343195103, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.220468032001 |gtv_a| = 0.219343195103 |gtv_b| = 0.219343195103 |gtv_c| = 0.220468032001 Num. of grids overlapping with atom 1 = 49344 Num. of grids overlapping with atom 2 = 49354 Num. of grids overlapping with atom 3 = 49362 Num. of grids overlapping with atom 4 = 49344 Num. of grids overlapping with atom 5 = 49354 Num. of grids overlapping with atom 6 = 49362 Num. of grids overlapping with atom 7 = 49346 Num. of grids overlapping with atom 8 = 49352 Num. of grids overlapping with atom 9 = 49360 Num. of grids overlapping with atom 10 = 49346 Num. of grids overlapping with atom 11 = 49352 Num. of grids overlapping with atom 12 = 49360 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... 1 C MulP 1.9963 1.9963 sum 3.9926 2 C MulP 1.9963 1.9963 sum 3.9925 3 C MulP 1.9963 1.9963 sum 3.9925 4 C MulP 1.9963 1.9963 sum 3.9926 5 C MulP 1.9963 1.9963 sum 3.9925 6 C MulP 1.9963 1.9963 sum 3.9925 7 H MulP 0.5037 0.5037 sum 1.0075 8 H MulP 0.5037 0.5037 sum 1.0075 9 H MulP 0.5037 0.5037 sum 1.0075 10 H MulP 0.5037 0.5037 sum 1.0075 11 H MulP 0.5037 0.5037 sum 1.0075 12 H MulP 0.5037 0.5037 sum 1.0075 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -11.807087965685 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000001000 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0147 2.0147 sum 4.0293 2 C MulP 2.0147 2.0147 sum 4.0293 3 C MulP 2.0147 2.0147 sum 4.0293 4 C MulP 2.0147 2.0147 sum 4.0293 5 C MulP 2.0147 2.0147 sum 4.0293 6 C MulP 2.0146 2.0146 sum 4.0293 7 H MulP 0.4853 0.4853 sum 0.9707 8 H MulP 0.4853 0.4853 sum 0.9707 9 H MulP 0.4853 0.4853 sum 0.9707 10 H MulP 0.4853 0.4853 sum 0.9707 11 H MulP 0.4853 0.4853 sum 0.9707 12 H MulP 0.4853 0.4853 sum 0.9707 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070030602526 Uele = -12.281188255886 dUele = 0.474100290201 NormRD = 1.812137268648 Criterion = 0.000000001000 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2420 2.2420 sum 4.4840 2 C MulP 2.2420 2.2420 sum 4.4840 3 C MulP 2.2420 2.2420 sum 4.4840 4 C MulP 2.2420 2.2420 sum 4.4840 5 C MulP 2.2420 2.2420 sum 4.4840 6 C MulP 2.2420 2.2420 sum 4.4840 7 H MulP 0.2580 0.2580 sum 0.5160 8 H MulP 0.2580 0.2580 sum 0.5160 9 H MulP 0.2580 0.2580 sum 0.5160 10 H MulP 0.2580 0.2580 sum 0.5160 11 H MulP 0.2580 0.2580 sum 0.5160 12 H MulP 0.2580 0.2580 sum 0.5160 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.121515339643 Uele = -18.453719725611 dUele = 6.172531469724 NormRD = 1.179545748085 Criterion = 0.000000001000 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2331 2.2331 sum 4.4662 2 C MulP 2.2331 2.2331 sum 4.4662 3 C MulP 2.2331 2.2331 sum 4.4661 4 C MulP 2.2331 2.2331 sum 4.4662 5 C MulP 2.2331 2.2331 sum 4.4662 6 C MulP 2.2331 2.2331 sum 4.4661 7 H MulP 0.2669 0.2669 sum 0.5338 8 H MulP 0.2669 0.2669 sum 0.5338 9 H MulP 0.2669 0.2669 sum 0.5339 10 H MulP 0.2669 0.2669 sum 0.5338 11 H MulP 0.2669 0.2669 sum 0.5338 12 H MulP 0.2669 0.2669 sum 0.5339 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -18.212665837340 dUele = 0.241053888271 NormRD = 0.991005702620 Criterion = 0.000000001000 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1656 2.1656 sum 4.3311 2 C MulP 2.1656 2.1656 sum 4.3311 3 C MulP 2.1656 2.1656 sum 4.3311 4 C MulP 2.1656 2.1656 sum 4.3311 5 C MulP 2.1656 2.1656 sum 4.3311 6 C MulP 2.1656 2.1656 sum 4.3311 7 H MulP 0.3344 0.3344 sum 0.6689 8 H MulP 0.3344 0.3344 sum 0.6689 9 H MulP 0.3344 0.3344 sum 0.6689 10 H MulP 0.3344 0.3344 sum 0.6689 11 H MulP 0.3344 0.3344 sum 0.6689 12 H MulP 0.3344 0.3344 sum 0.6689 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -16.422350905367 dUele = 1.790314931973 NormRD = 0.269366427837 Criterion = 0.000000001000 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1468 2.1468 sum 4.2936 2 C MulP 2.1468 2.1468 sum 4.2936 3 C MulP 2.1468 2.1468 sum 4.2936 4 C MulP 2.1468 2.1468 sum 4.2936 5 C MulP 2.1468 2.1468 sum 4.2936 6 C MulP 2.1468 2.1468 sum 4.2936 7 H MulP 0.3532 0.3532 sum 0.7064 8 H MulP 0.3532 0.3532 sum 0.7064 9 H MulP 0.3532 0.3532 sum 0.7064 10 H MulP 0.3532 0.3532 sum 0.7064 11 H MulP 0.3532 0.3532 sum 0.7064 12 H MulP 0.3532 0.3532 sum 0.7064 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.939028795326 dUele = 0.483322110041 NormRD = 0.085294615504 Criterion = 0.000000001000 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3600 0.3600 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3600 0.3600 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.762689363079 dUele = 0.176339432247 NormRD = 0.013940119035 Criterion = 0.000000001000 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1401 2.1401 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1401 2.1401 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.761114206024 dUele = 0.001575157056 NormRD = 0.000432494761 Criterion = 0.000000001000 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3600 0.3600 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3600 0.3600 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760835299660 dUele = 0.000278906364 NormRD = 0.000041636876 Criterion = 0.000000001000 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1401 2.1401 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760905033520 dUele = 0.000069733860 NormRD = 0.000030036148 Criterion = 0.000000001000 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760907379201 dUele = 0.000002345681 NormRD = 0.000002030240 Criterion = 0.000000001000 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760906658714 dUele = 0.000000720486 NormRD = 0.000001351631 Criterion = 0.000000001000 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760906285769 dUele = 0.000000372945 NormRD = 0.000000006367 Criterion = 0.000000001000 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760906279840 dUele = 0.000000005929 NormRD = 0.000000002436 Criterion = 0.000000001000 ******************* MD= 1 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1400 2.1400 sum 4.2801 2 C MulP 2.1400 2.1400 sum 4.2801 3 C MulP 2.1400 2.1400 sum 4.2801 4 C MulP 2.1400 2.1400 sum 4.2801 5 C MulP 2.1400 2.1400 sum 4.2801 6 C MulP 2.1400 2.1400 sum 4.2801 7 H MulP 0.3599 0.3599 sum 0.7199 8 H MulP 0.3600 0.3600 sum 0.7199 9 H MulP 0.3600 0.3600 sum 0.7199 10 H MulP 0.3599 0.3599 sum 0.7199 11 H MulP 0.3600 0.3600 sum 0.7199 12 H MulP 0.3600 0.3600 sum 0.7199 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -15.760906280353 dUele = 0.000000000513 NormRD = 0.000000001759 Criterion = 0.000000001000 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.00001883 Dx Dy Dz Total 0.00001166 0.00001478 0.00000000 Core -0.00004803 -0.00009606 0.00000000 Electron 0.00005969 0.00011085 0.00000000 Back ground -0.00000000 0.00000000 -0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -15.760906280353 Ukin = 24.572738781367 UH0 = -131.905756072662 UH1 = 0.377895405452 Una = -18.783571420156 Unl = -1.949464098545 Uxc0 = -6.373621509081 Uxc1 = -6.373621509081 Ucore = 102.688243958898 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -37.747156463809 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 11.11089 Set_OLP_Kin = 0.32722 Set_Nonlocal = 0.71850 Set_ProExpn_VNA = 0.76947 Set_Hamiltonian = 1.67839 Poisson = 0.94832 diagonalization = 0.02239 Mixing_DM = 0.00217 Force = 2.25400 Total_Energy = 3.27012 Set_Aden_Grid = 0.11505 Set_Orbitals_Grid = 0.21563 Set_Density_Grid = 0.77804 RestartFileDFT = 0.00272 Mulliken_Charge = 0.00149 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 19.847 0 19.847 readfile = 0 6.516 0 6.516 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 1.321 0 1.321 DFT = 0 11.111 0 11.111 *** In DFT *** Set_OLP_Kin = 0 0.327 0 0.327 Set_Nonlocal = 0 0.719 0 0.719 Set_ProExpn_VNA = 0 0.769 0 0.769 Set_Hamiltonian = 0 1.678 0 1.678 Poisson = 0 0.948 0 0.948 Diagonalization = 0 0.022 0 0.022 Mixing_DM = 0 0.002 0 0.002 Force = 0 2.254 0 2.254 Total_Energy = 0 3.270 0 3.270 Set_Aden_Grid = 0 0.115 0 0.115 Set_Orbitals_Grid = 0 0.216 0 0.216 Set_Density_Grid = 0 0.778 0 0.778 RestartFileDFT = 0 0.003 0 0.003 Mulliken_Charge = 0 0.001 0 0.001 FFT(2D)_Density = 0 0.000 0 0.000 Others = 0 0.007 0 0.007 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* Automatic determination of Kerker_factor: 1.804555393029 Your input file was normally read. The system includes 1 species and 60 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species C were normally found. VPSs of species C were normally found. C_CA13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 60 estimated weight= 60.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 1884 Average FNAN= 31.40000 TSNAN= 704 Average SNAN= 11.73333 CpyCell= 1 ct_AN= 1 FNAN SNAN 33 14 CpyCell= 1 ct_AN= 2 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 3 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 4 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 5 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 6 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 7 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 8 FNAN SNAN 33 14 CpyCell= 1 ct_AN= 9 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 10 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 11 FNAN SNAN 33 13 CpyCell= 1 ct_AN= 12 FNAN SNAN 31 12 CpyCell= 1 ct_AN= 13 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 14 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 15 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 16 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 17 FNAN SNAN 33 14 CpyCell= 1 ct_AN= 18 FNAN SNAN 31 13 CpyCell= 1 ct_AN= 19 FNAN SNAN 31 10 CpyCell= 1 ct_AN= 20 FNAN SNAN 31 10 .......... ...... TFNAN= 1884 Average FNAN= 31.40000 TSNAN= 704 Average SNAN= 11.73333 CpyCell= 2 ct_AN= 1 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 2 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 3 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 4 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 5 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 6 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 7 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 8 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 9 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 10 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 11 FNAN SNAN 33 13 CpyCell= 2 ct_AN= 12 FNAN SNAN 31 12 CpyCell= 2 ct_AN= 13 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 14 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 15 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 16 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 17 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 18 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 19 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 20 FNAN SNAN 31 10 .......... ...... TFNAN= 1884 Average FNAN= 31.40000 TSNAN= 704 Average SNAN= 11.73333 CpyCell= 2 ct_AN= 1 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 2 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 3 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 4 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 5 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 6 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 7 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 8 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 9 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 10 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 11 FNAN SNAN 33 13 CpyCell= 2 ct_AN= 12 FNAN SNAN 31 12 CpyCell= 2 ct_AN= 13 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 14 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 15 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 16 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 17 FNAN SNAN 33 14 CpyCell= 2 ct_AN= 18 FNAN SNAN 31 13 CpyCell= 2 ct_AN= 19 FNAN SNAN 31 10 CpyCell= 2 ct_AN= 20 FNAN SNAN 31 10 .......... ...... The system is bulk. lattice vectors (bohr) A = 22.676711862947, 0.000000000000, 0.000000000000 B = 0.000000000000, 22.676711862947, 0.000000000000 C = 0.000000000000, 0.000000000000, 22.676711862947 reciprocal lattice vectors (bohr^-1) RA = 0.277076559651, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.277076559651, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.277076559651 Grid_Origin -17.749804587507 -11.154205148449 -12.524064368027 Cell_Volume = 11661.119488115972 (Bohr^3) GridVol = 0.019674440341 (Bohr^3) Grid_Origin -17.749804587507 -11.154205148449 -12.524064368027 Cell_Volume = 11661.119488115972 (Bohr^3) GridVol = 0.019674440341 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 22.676711862947, 0.000000000000, 0.000000000000 B = 0.000000000000, 22.676711862947, 0.000000000000 C = 0.000000000000, 0.000000000000, 22.676711862947 reciprocal lattice vectors (bohr^-1) RA = 0.277076559651, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.277076559651, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.277076559651 Required cutoff energy (Ryd) for 3D-grids = 140.0000 Used cutoff energy (Ryd) for 3D-grids = 135.4248, 135.4248, 135.4248 Num. of grids of a-, b-, and c-axes = 84, 84, 84 Grid_Origin -17.749804587507 -11.154205148449 -12.524064368027 Cell_Volume = 11661.119488115972 (Bohr^3) GridVol = 0.019674440341 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.269960855511, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.269960855511, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.269960855511 |gtv_a| = 0.269960855511 |gtv_b| = 0.269960855511 |gtv_c| = 0.269960855511 Num. of grids overlapping with atom 1 = 26601 Num. of grids overlapping with atom 2 = 26604 Num. of grids overlapping with atom 3 = 26612 Num. of grids overlapping with atom 4 = 26635 Num. of grids overlapping with atom 5 = 26632 Num. of grids overlapping with atom 6 = 26620 Num. of grids overlapping with atom 7 = 26627 Num. of grids overlapping with atom 8 = 26607 Num. of grids overlapping with atom 9 = 26607 Num. of grids overlapping with atom 10 = 26606 Num. of grids overlapping with atom 11 = 26635 Num. of grids overlapping with atom 12 = 26616 Num. of grids overlapping with atom 13 = 26637 Num. of grids overlapping with atom 14 = 26610 Num. of grids overlapping with atom 15 = 26611 Num. of grids overlapping with atom 16 = 26619 Num. of grids overlapping with atom 17 = 26637 Num. of grids overlapping with atom 18 = 26629 Num. of grids overlapping with atom 19 = 26608 Num. of grids overlapping with atom 20 = 26606 .......... ...... ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... 1 C MulP 2.0001 2.0001 sum 4.0003 2 C MulP 1.9919 1.9919 sum 3.9837 3 C MulP 2.0061 2.0061 sum 4.0122 4 C MulP 2.0061 2.0061 sum 4.0122 5 C MulP 1.9923 1.9923 sum 3.9847 6 C MulP 2.0089 2.0089 sum 4.0178 7 C MulP 1.9922 1.9922 sum 3.9844 8 C MulP 2.0009 2.0009 sum 4.0018 9 C MulP 1.9925 1.9925 sum 3.9849 10 C MulP 2.0072 2.0072 sum 4.0143 11 C MulP 2.0008 2.0008 sum 4.0017 12 C MulP 1.9933 1.9933 sum 3.9865 13 C MulP 2.0072 2.0072 sum 4.0145 14 C MulP 2.0079 2.0079 sum 4.0159 15 C MulP 1.9914 1.9914 sum 3.9828 16 C MulP 1.9937 1.9937 sum 3.9874 17 C MulP 1.9995 1.9995 sum 3.9989 18 C MulP 1.9928 1.9928 sum 3.9857 19 C MulP 2.0068 2.0068 sum 4.0137 20 C MulP 2.0062 2.0062 sum 4.0124 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -88.053364029871 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000001000 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0028 2.0028 sum 4.0056 2 C MulP 1.9977 1.9977 sum 3.9954 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 1.9997 1.9997 sum 3.9993 5 C MulP 1.9979 1.9979 sum 3.9957 6 C MulP 2.0003 2.0003 sum 4.0006 7 C MulP 1.9983 1.9983 sum 3.9965 8 C MulP 2.0032 2.0032 sum 4.0063 9 C MulP 1.9982 1.9982 sum 3.9964 10 C MulP 2.0005 2.0005 sum 4.0010 11 C MulP 2.0032 2.0032 sum 4.0065 12 C MulP 1.9983 1.9983 sum 3.9966 13 C MulP 2.0005 2.0005 sum 4.0010 14 C MulP 2.0005 2.0005 sum 4.0009 15 C MulP 1.9980 1.9980 sum 3.9961 16 C MulP 1.9975 1.9975 sum 3.9950 17 C MulP 2.0032 2.0032 sum 4.0064 18 C MulP 1.9985 1.9985 sum 3.9969 19 C MulP 2.0003 2.0003 sum 4.0006 20 C MulP 2.0008 2.0008 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020592295209 Uele = -107.726799575833 dUele = 19.673435545963 NormRD = 3.683552051031 Criterion = 0.000000001000 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0055 2 C MulP 1.9977 1.9977 sum 3.9953 3 C MulP 2.0001 2.0001 sum 4.0001 4 C MulP 1.9997 1.9997 sum 3.9994 5 C MulP 1.9978 1.9978 sum 3.9957 6 C MulP 2.0003 2.0003 sum 4.0006 7 C MulP 1.9982 1.9982 sum 3.9965 8 C MulP 2.0032 2.0032 sum 4.0063 9 C MulP 1.9982 1.9982 sum 3.9964 10 C MulP 2.0005 2.0005 sum 4.0010 11 C MulP 2.0032 2.0032 sum 4.0064 12 C MulP 1.9983 1.9983 sum 3.9966 13 C MulP 2.0005 2.0005 sum 4.0010 14 C MulP 2.0005 2.0005 sum 4.0010 15 C MulP 1.9980 1.9980 sum 3.9960 16 C MulP 1.9975 1.9975 sum 3.9950 17 C MulP 2.0032 2.0032 sum 4.0063 18 C MulP 1.9984 1.9984 sum 3.9969 19 C MulP 2.0003 2.0003 sum 4.0006 20 C MulP 2.0008 2.0008 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -108.342196986095 dUele = 0.615397410261 NormRD = 3.610261734685 Criterion = 0.000000001000 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0021 2.0021 sum 4.0041 2 C MulP 1.9971 1.9971 sum 3.9941 3 C MulP 2.0008 2.0008 sum 4.0015 4 C MulP 2.0005 2.0005 sum 4.0010 5 C MulP 1.9972 1.9972 sum 3.9944 6 C MulP 2.0009 2.0009 sum 4.0019 7 C MulP 1.9980 1.9980 sum 3.9960 8 C MulP 2.0031 2.0031 sum 4.0062 9 C MulP 1.9980 1.9980 sum 3.9959 10 C MulP 2.0006 2.0006 sum 4.0012 11 C MulP 2.0028 2.0028 sum 4.0055 12 C MulP 1.9981 1.9981 sum 3.9962 13 C MulP 2.0011 2.0011 sum 4.0021 14 C MulP 2.0011 2.0011 sum 4.0023 15 C MulP 1.9976 1.9976 sum 3.9951 16 C MulP 1.9974 1.9974 sum 3.9948 17 C MulP 2.0024 2.0024 sum 4.0048 18 C MulP 1.9981 1.9981 sum 3.9962 19 C MulP 2.0011 2.0011 sum 4.0022 20 C MulP 2.0006 2.0006 sum 4.0012 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -120.031340833954 dUele = 11.689143847859 NormRD = 2.217938000585 Criterion = 0.000000001000 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0021 2.0021 sum 4.0043 2 C MulP 1.9968 1.9968 sum 3.9937 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0008 2.0008 sum 4.0015 5 C MulP 1.9970 1.9970 sum 3.9939 6 C MulP 2.0011 2.0011 sum 4.0022 7 C MulP 1.9977 1.9977 sum 3.9955 8 C MulP 2.0032 2.0032 sum 4.0065 9 C MulP 1.9977 1.9977 sum 3.9953 10 C MulP 2.0007 2.0007 sum 4.0014 11 C MulP 2.0028 2.0028 sum 4.0056 12 C MulP 1.9979 1.9979 sum 3.9958 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9973 1.9973 sum 3.9946 16 C MulP 1.9973 1.9973 sum 3.9946 17 C MulP 2.0024 2.0024 sum 4.0048 18 C MulP 1.9979 1.9979 sum 3.9958 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0008 2.0008 sum 4.0017 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -127.641735312218 dUele = 7.610394478264 NormRD = 1.366717391593 Criterion = 0.000000001000 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0019 2.0019 sum 4.0038 2 C MulP 1.9964 1.9964 sum 3.9928 3 C MulP 2.0012 2.0012 sum 4.0023 4 C MulP 2.0011 2.0011 sum 4.0021 5 C MulP 1.9964 1.9964 sum 3.9927 6 C MulP 2.0016 2.0016 sum 4.0032 7 C MulP 1.9977 1.9977 sum 3.9954 8 C MulP 2.0034 2.0034 sum 4.0067 9 C MulP 1.9978 1.9978 sum 3.9956 10 C MulP 2.0004 2.0004 sum 4.0007 11 C MulP 2.0030 2.0030 sum 4.0060 12 C MulP 1.9979 1.9979 sum 3.9958 13 C MulP 2.0012 2.0012 sum 4.0024 14 C MulP 2.0013 2.0013 sum 4.0027 15 C MulP 1.9969 1.9969 sum 3.9939 16 C MulP 1.9970 1.9970 sum 3.9940 17 C MulP 2.0022 2.0022 sum 4.0043 18 C MulP 1.9976 1.9976 sum 3.9952 19 C MulP 2.0015 2.0015 sum 4.0029 20 C MulP 1.9997 1.9997 sum 3.9994 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -142.115662243208 dUele = 14.473926930991 NormRD = 0.042899606404 Criterion = 0.000000001000 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0054 2.0054 sum 4.0107 2 C MulP 1.9981 1.9981 sum 3.9961 3 C MulP 2.0008 2.0008 sum 4.0017 4 C MulP 2.0006 2.0006 sum 4.0011 5 C MulP 1.9982 1.9982 sum 3.9964 6 C MulP 1.9994 1.9994 sum 3.9988 7 C MulP 1.9971 1.9971 sum 3.9942 8 C MulP 2.0051 2.0051 sum 4.0102 9 C MulP 1.9963 1.9963 sum 3.9927 10 C MulP 2.0020 2.0020 sum 4.0039 11 C MulP 2.0037 2.0037 sum 4.0074 12 C MulP 1.9976 1.9976 sum 3.9952 13 C MulP 2.0021 2.0021 sum 4.0042 14 C MulP 2.0027 2.0027 sum 4.0055 15 C MulP 1.9981 1.9981 sum 3.9963 16 C MulP 1.9986 1.9986 sum 3.9972 17 C MulP 2.0053 2.0053 sum 4.0106 18 C MulP 1.9987 1.9987 sum 3.9975 19 C MulP 2.0021 2.0021 sum 4.0043 20 C MulP 2.0052 2.0052 sum 4.0105 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -143.865184232176 dUele = 1.749521988968 NormRD = 0.037412101187 Criterion = 0.000000001000 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0010 2.0010 sum 4.0020 2 C MulP 1.9951 1.9951 sum 3.9903 3 C MulP 2.0008 2.0008 sum 4.0016 4 C MulP 1.9996 1.9996 sum 3.9992 5 C MulP 1.9958 1.9958 sum 3.9916 6 C MulP 2.0014 2.0014 sum 4.0027 7 C MulP 1.9973 1.9973 sum 3.9946 8 C MulP 2.0028 2.0028 sum 4.0057 9 C MulP 1.9980 1.9980 sum 3.9959 10 C MulP 1.9979 1.9979 sum 3.9958 11 C MulP 2.0033 2.0033 sum 4.0065 12 C MulP 1.9970 1.9970 sum 3.9940 13 C MulP 1.9991 1.9991 sum 3.9981 14 C MulP 1.9983 1.9983 sum 3.9966 15 C MulP 1.9957 1.9957 sum 3.9914 16 C MulP 1.9955 1.9955 sum 3.9910 17 C MulP 2.0013 2.0013 sum 4.0025 18 C MulP 1.9963 1.9963 sum 3.9925 19 C MulP 2.0001 2.0001 sum 4.0002 20 C MulP 1.9962 1.9962 sum 3.9924 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -143.926628113799 dUele = 0.061443881623 NormRD = 0.036835122768 Criterion = 0.000000001000 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0021 2.0021 sum 4.0042 2 C MulP 1.9967 1.9967 sum 3.9933 3 C MulP 2.0016 2.0016 sum 4.0033 4 C MulP 2.0023 2.0023 sum 4.0047 5 C MulP 1.9963 1.9963 sum 3.9927 6 C MulP 2.0027 2.0027 sum 4.0054 7 C MulP 1.9982 1.9982 sum 3.9964 8 C MulP 2.0039 2.0039 sum 4.0078 9 C MulP 1.9981 1.9981 sum 3.9962 10 C MulP 2.0030 2.0030 sum 4.0060 11 C MulP 2.0036 2.0036 sum 4.0072 12 C MulP 1.9985 1.9985 sum 3.9971 13 C MulP 2.0030 2.0030 sum 4.0060 14 C MulP 2.0033 2.0033 sum 4.0066 15 C MulP 1.9974 1.9974 sum 3.9948 16 C MulP 1.9971 1.9971 sum 3.9943 17 C MulP 2.0026 2.0026 sum 4.0052 18 C MulP 1.9980 1.9980 sum 3.9959 19 C MulP 2.0017 2.0017 sum 4.0034 20 C MulP 2.0010 2.0010 sum 4.0020 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.247970008016 dUele = 0.321341894217 NormRD = 0.014792024287 Criterion = 0.000000001000 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0031 2.0031 sum 4.0061 2 C MulP 1.9967 1.9967 sum 3.9934 3 C MulP 2.0006 2.0006 sum 4.0011 4 C MulP 1.9997 1.9997 sum 3.9994 5 C MulP 1.9969 1.9969 sum 3.9938 6 C MulP 2.0000 2.0000 sum 4.0001 7 C MulP 1.9968 1.9968 sum 3.9937 8 C MulP 2.0036 2.0036 sum 4.0072 9 C MulP 1.9967 1.9967 sum 3.9934 10 C MulP 1.9990 1.9990 sum 3.9980 11 C MulP 2.0028 2.0028 sum 4.0056 12 C MulP 1.9971 1.9971 sum 3.9942 13 C MulP 2.0006 2.0006 sum 4.0012 14 C MulP 2.0007 2.0007 sum 4.0014 15 C MulP 1.9969 1.9969 sum 3.9937 16 C MulP 1.9975 1.9975 sum 3.9951 17 C MulP 2.0033 2.0033 sum 4.0066 18 C MulP 1.9978 1.9978 sum 3.9956 19 C MulP 2.0019 2.0019 sum 4.0039 20 C MulP 2.0017 2.0017 sum 4.0035 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.303190908240 dUele = 0.055220900224 NormRD = 0.008385359633 Criterion = 0.000000001000 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0031 2.0031 sum 4.0062 2 C MulP 1.9968 1.9968 sum 3.9936 3 C MulP 2.0015 2.0015 sum 4.0031 4 C MulP 2.0011 2.0011 sum 4.0021 5 C MulP 1.9971 1.9971 sum 3.9942 6 C MulP 2.0014 2.0014 sum 4.0029 7 C MulP 1.9978 1.9978 sum 3.9955 8 C MulP 2.0042 2.0042 sum 4.0083 9 C MulP 1.9977 1.9977 sum 3.9953 10 C MulP 2.0014 2.0014 sum 4.0027 11 C MulP 2.0038 2.0038 sum 4.0076 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0012 2.0012 sum 4.0023 14 C MulP 2.0010 2.0010 sum 4.0020 15 C MulP 1.9971 1.9971 sum 3.9942 16 C MulP 1.9969 1.9969 sum 3.9937 17 C MulP 2.0028 2.0028 sum 4.0057 18 C MulP 1.9974 1.9974 sum 3.9949 19 C MulP 2.0006 2.0006 sum 4.0012 20 C MulP 2.0002 2.0002 sum 4.0004 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.319869271187 dUele = 0.016678362947 NormRD = 0.004868420575 Criterion = 0.000000001000 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0026 2.0026 sum 4.0051 2 C MulP 1.9964 1.9964 sum 3.9928 3 C MulP 2.0008 2.0008 sum 4.0016 4 C MulP 2.0005 2.0005 sum 4.0010 5 C MulP 1.9966 1.9966 sum 3.9932 6 C MulP 2.0009 2.0009 sum 4.0018 7 C MulP 1.9974 1.9974 sum 3.9948 8 C MulP 2.0038 2.0038 sum 4.0075 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0005 2.0005 sum 4.0010 11 C MulP 2.0034 2.0034 sum 4.0068 12 C MulP 1.9977 1.9977 sum 3.9954 13 C MulP 2.0014 2.0014 sum 4.0028 14 C MulP 2.0016 2.0016 sum 4.0031 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0031 2.0031 sum 4.0061 18 C MulP 1.9977 1.9977 sum 3.9953 19 C MulP 2.0015 2.0015 sum 4.0031 20 C MulP 2.0008 2.0008 sum 4.0016 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.321730664240 dUele = 0.001861393053 NormRD = 0.001934045122 Criterion = 0.000000001000 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9965 1.9965 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9949 10 C MulP 2.0007 2.0007 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0013 2.0013 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9941 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0027 20 C MulP 2.0007 2.0007 sum 4.0014 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322066319180 dUele = 0.000335654940 NormRD = 0.000515124756 Criterion = 0.000000001000 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9974 1.9974 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0007 2.0007 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0025 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0008 2.0008 sum 4.0016 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322356997448 dUele = 0.000290678268 NormRD = 0.000325733918 Criterion = 0.000000001000 ******************* MD= 1 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0014 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322620303089 dUele = 0.000263305641 NormRD = 0.000141748684 Criterion = 0.000000001000 ******************* MD= 1 SCF=16 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322712597630 dUele = 0.000092294541 NormRD = 0.000062670837 Criterion = 0.000000001000 ******************* MD= 1 SCF=17 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322732332004 dUele = 0.000019734374 NormRD = 0.000007285200 Criterion = 0.000000001000 ******************* MD= 1 SCF=18 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322752341819 dUele = 0.000020009814 NormRD = 0.000008914970 Criterion = 0.000000001000 ******************* MD= 1 SCF=19 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755047097 dUele = 0.000002705279 NormRD = 0.000004656847 Criterion = 0.000000001000 ******************* MD= 1 SCF=20 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755269301 dUele = 0.000000222204 NormRD = 0.000000890574 Criterion = 0.000000001000 ******************* MD= 1 SCF=21 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755207573 dUele = 0.000000061728 NormRD = 0.000000389456 Criterion = 0.000000001000 ******************* MD= 1 SCF=22 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755142199 dUele = 0.000000065374 NormRD = 0.000000210598 Criterion = 0.000000001000 ******************* MD= 1 SCF=23 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755096198 dUele = 0.000000046000 NormRD = 0.000000059681 Criterion = 0.000000001000 ******************* MD= 1 SCF=24 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755077463 dUele = 0.000000018735 NormRD = 0.000000019169 Criterion = 0.000000001000 ******************* MD= 1 SCF=25 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755065224 dUele = 0.000000012239 NormRD = 0.000000011298 Criterion = 0.000000001000 ******************* MD= 1 SCF=26 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755062609 dUele = 0.000000002615 NormRD = 0.000000003473 Criterion = 0.000000001000 ******************* MD= 1 SCF=27 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0027 2.0027 sum 4.0053 2 C MulP 1.9966 1.9966 sum 3.9931 3 C MulP 2.0011 2.0011 sum 4.0021 4 C MulP 2.0007 2.0007 sum 4.0015 5 C MulP 1.9967 1.9967 sum 3.9934 6 C MulP 2.0012 2.0012 sum 4.0023 7 C MulP 1.9975 1.9975 sum 3.9949 8 C MulP 2.0038 2.0038 sum 4.0076 9 C MulP 1.9974 1.9974 sum 3.9948 10 C MulP 2.0006 2.0006 sum 4.0013 11 C MulP 2.0033 2.0033 sum 4.0067 12 C MulP 1.9976 1.9976 sum 3.9953 13 C MulP 2.0013 2.0013 sum 4.0026 14 C MulP 2.0014 2.0014 sum 4.0027 15 C MulP 1.9970 1.9970 sum 3.9940 16 C MulP 1.9971 1.9971 sum 3.9942 17 C MulP 2.0029 2.0029 sum 4.0058 18 C MulP 1.9976 1.9976 sum 3.9953 19 C MulP 2.0014 2.0014 sum 4.0028 20 C MulP 2.0007 2.0007 sum 4.0015 .......... ...... Sum of MulP: up = 120.00000 down = 120.00000 total= 240.00000 ideal(neutral)= 240.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.040000000000 Uele = -144.322755062202 dUele = 0.000000000407 NormRD = 0.000000001683 Criterion = 0.000000001000 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.00717797 Dx Dy Dz Total -0.00474383 0.00093405 0.00530537 Core -3993.44915033 29.99487369 -805.64591100 Electron 3993.44440650 -29.99393964 805.65121637 Back ground 0.00000000 -0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -144.322755062202 Ukin = 219.148217549883 UH0 = -2843.055056298982 UH1 = 4.224145799984 Una = -152.295155346192 Unl = -22.485311765347 Uxc0 = -54.793347615045 Uxc1 = -54.793347615045 Ucore = 2560.202650328739 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -343.847204962004 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 171.74715 Set_OLP_Kin = 5.94601 Set_Nonlocal = 17.16079 Set_ProExpn_VNA = 13.09355 Set_Hamiltonian = 9.63473 Poisson = 0.69720 diagonalization = 61.75460 Mixing_DM = 4.54883 Force = 9.13995 Total_Energy = 40.32484 Set_Aden_Grid = 0.27023 Set_Orbitals_Grid = 0.59950 Set_Density_Grid = 7.65510 RestartFileDFT = 0.01148 Mulliken_Charge = 0.00960 FFT(2D)_Density = 0.54095 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 180.301 0 180.301 readfile = 0 3.496 0 3.496 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 1.138 0 1.138 DFT = 0 171.747 0 171.747 *** In DFT *** Set_OLP_Kin = 0 5.946 0 5.946 Set_Nonlocal = 0 17.161 0 17.161 Set_ProExpn_VNA = 0 13.094 0 13.094 Set_Hamiltonian = 0 9.635 0 9.635 Poisson = 0 0.697 0 0.697 Diagonalization = 0 61.755 0 61.755 Mixing_DM = 0 4.549 0 4.549 Force = 0 9.140 0 9.140 Total_Energy = 0 40.325 0 40.325 Set_Aden_Grid = 0 0.270 0 0.270 Set_Orbitals_Grid = 0 0.600 0 0.600 Set_Density_Grid = 0 7.655 0 7.655 RestartFileDFT = 0 0.011 0 0.011 Mulliken_Charge = 0 0.010 0 0.010 FFT(2D)_Density = 0 0.541 0 0.541 Others = 0 0.360 0 0.360 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* p= 0 l= 0 Primitive= 2 Contracted= 1 p= 0 l= 1 Primitive= 2 Contracted= 1 p= 0 l= 2 Primitive= 0 Contracted= 0 p= 0 l= 3 Primitive= 0 Contracted= 0 p= 0 l= 4 Primitive= 0 Contracted= 0 p= 1 l= 0 Primitive= 2 Contracted= 1 p= 1 l= 1 Primitive= 2 Contracted= 1 p= 1 l= 2 Primitive= 0 Contracted= 0 p= 1 l= 3 Primitive= 0 Contracted= 0 p= 1 l= 4 Primitive= 0 Contracted= 0 automatically determied UnitCell(Ang.) from atomic positions and Rc of PAOs (margin= 10.00%) 8.745140 0.000000 0.000000 0.000000 6.985140 0.000000 0.000000 0.000000 6.985140 widened unit cell to fit energy cutoff (Ang.) A = 9.501715 0.000000 0.000000 (70) B = 0.000000 7.329894 0.000000 (54) C = 0.000000 0.000000 7.329894 (54) Your input file was normally read. The system includes 2 species and 2 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species O were normally found. PAOs of species C were normally found. VPSs of species O were normally found. O_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species C were normally found. C_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 The system is molecule. lattice vectors (bohr) A = 17.955637770240, 0.000000000000, 0.000000000000 B = 0.000000000000, 13.851491994185, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.851491994185 reciprocal lattice vectors (bohr^-1) RA = 0.349928272534, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.453610723655, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.453610723655 Grid_Origin -7.337783538755 -6.797491441591 -6.797491441591 Cell_Volume = 3445.037441039801 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Grid_Origin -7.337783538755 -6.797491441591 -6.797491441591 Cell_Volume = 3445.037441039801 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 17.955637770240, 0.000000000000, 0.000000000000 B = 0.000000000000, 13.851491994185, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.851491994185 reciprocal lattice vectors (bohr^-1) RA = 0.349928272534, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.453610723655, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.453610723655 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 150.0010, 150.0010, 150.0010 Num. of grids of a-, b-, and c-axes = 70, 54, 54 Grid_Origin -7.337783538755 -6.797491441591 -6.797491441591 Cell_Volume = 3445.037441039801 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.256509111003, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.256509111003, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.256509111003 |gtv_a| = 0.256509111003 |gtv_b| = 0.256509111003 |gtv_c| = 0.256509111003 Num. of grids overlapping with atom 1 = 53508 Num. of grids overlapping with atom 2 = 53508 ******************************************************* Orbital optimization SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 1 L-SCF= 1 Solving the eigenvalue problem... 1 O MulP 3.7519 3.7519 sum 7.5039 2 C MulP 1.2481 1.2481 sum 2.4961 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.010000000000 Uele = -4.628744758157 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 2 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 1.0656 1.0656 sum 2.1311 2 C MulP 3.9344 3.9344 sum 7.8689 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001422209813 Uele = -5.398588554187 dUele = 0.769843796030 NormRD = 2.455872828571 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 3 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 1.0666 1.0666 sum 2.1331 2 C MulP 3.9334 3.9334 sum 7.8669 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.391402711831 dUele = 0.007185842356 NormRD = 2.450554261103 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 4 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.7618 3.7618 sum 7.5236 2 C MulP 1.2382 1.2382 sum 2.4764 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.490939750695 dUele = 0.099537038864 NormRD = 0.765622637988 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 5 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.1716 2.1716 sum 4.3432 2 C MulP 2.8284 2.8284 sum 5.6568 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -4.592684427396 dUele = 0.898255323299 NormRD = 1.151028685846 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 6 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1917 3.1917 sum 6.3834 2 C MulP 1.8083 1.8083 sum 3.6166 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -4.829014590365 dUele = 0.236330162969 NormRD = 0.534743702833 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 7 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1247 3.1247 sum 6.2494 2 C MulP 1.8753 1.8753 sum 3.7506 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -4.820328657643 dUele = 0.008685932722 NormRD = 0.511609255144 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 8 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.4597 3.4597 sum 6.9195 2 C MulP 1.5403 1.5403 sum 3.0805 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.137444944055 dUele = 0.317116286412 NormRD = 0.358991009568 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF= 9 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1568 3.1568 sum 6.3136 2 C MulP 1.8432 1.8432 sum 3.6864 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.008863340043 dUele = 0.128581604012 NormRD = 0.048594833483 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=10 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1195 3.1195 sum 6.2390 2 C MulP 1.8805 1.8805 sum 3.7610 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.001935581804 dUele = 0.006927758239 NormRD = 0.015460106900 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=11 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1269 3.1269 sum 6.2538 2 C MulP 1.8731 1.8731 sum 3.7462 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.006733134514 dUele = 0.004797552710 NormRD = 0.011196192434 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=12 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1233 3.1233 sum 6.2467 2 C MulP 1.8767 1.8767 sum 3.7533 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.006107452784 dUele = 0.000625681730 NormRD = 0.007354543280 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=13 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1174 3.1174 sum 6.2348 2 C MulP 1.8826 1.8826 sum 3.7652 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.005016651571 dUele = 0.001090801213 NormRD = 0.000804852042 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=14 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1167 3.1167 sum 6.2334 2 C MulP 1.8833 1.8833 sum 3.7666 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004856068880 dUele = 0.000160582691 NormRD = 0.000065997238 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=15 L-SCF=15 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004846545420 dUele = 0.000009523460 NormRD = 0.000001303508 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=16 L-SCF=16 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004845906705 dUele = 0.000000638715 NormRD = 0.000000785962 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=17 L-SCF=17 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004846228260 dUele = 0.000000321555 NormRD = 0.000000011544 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=18 L-SCF=18 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004846221392 dUele = 0.000000006868 NormRD = 0.000000008925 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=19 L-SCF=19 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.092019498060 Uele = -5.004846224181 dUele = 0.000000002789 NormRD = 0.000000000008 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 1 G-SCF=20 L-SCF=20 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1166 3.1166 sum 6.2332 2 C MulP 1.8834 1.8834 sum 3.7668 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.113116622295 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.004846224178 dUele = 0.000000000002 NormRD = 0.000000000000 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=21 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1411 3.1411 sum 6.2821 2 C MulP 1.8589 1.8589 sum 3.7179 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.976104157436 dUele = 0.028742066743 NormRD = 0.024654666173 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=22 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8949 2.8949 sum 5.7899 2 C MulP 2.1051 2.1051 sum 4.2101 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.895774568497 dUele = 0.080329588939 NormRD = 0.239201184233 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=23 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8977 2.8977 sum 5.7954 2 C MulP 2.1023 2.1023 sum 4.2046 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.042909742324 Uele = -4.896477176520 dUele = 0.000702608023 NormRD = 0.236397493503 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=24 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0092 3.0092 sum 6.0184 2 C MulP 1.9908 1.9908 sum 3.9816 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.057918857519 Uele = -4.927868130049 dUele = 0.031390953529 NormRD = 0.120340114280 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=25 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0785 3.0785 sum 6.1570 2 C MulP 1.9215 1.9215 sum 3.8430 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.950814482857 dUele = 0.022946352807 NormRD = 0.045583133837 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=26 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1070 3.1070 sum 6.2139 2 C MulP 1.8930 1.8930 sum 3.7861 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.961200809932 dUele = 0.010386327075 NormRD = 0.014184764190 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=27 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1153 3.1153 sum 6.2306 2 C MulP 1.8847 1.8847 sum 3.7694 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.964384632873 dUele = 0.003183822941 NormRD = 0.004994465752 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=28 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1144 3.1144 sum 6.2288 2 C MulP 1.8856 1.8856 sum 3.7712 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.964694802772 dUele = 0.000310169899 NormRD = 0.005196439963 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=29 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1187 3.1187 sum 6.2373 2 C MulP 1.8813 1.8813 sum 3.7627 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.966248073670 dUele = 0.001553270898 NormRD = 0.000422843777 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=30 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1190 3.1190 sum 6.2380 2 C MulP 1.8810 1.8810 sum 3.7620 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.966396914661 dUele = 0.000148840991 NormRD = 0.000025667861 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=31 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1190 3.1190 sum 6.2381 2 C MulP 1.8810 1.8810 sum 3.7619 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.966403518519 dUele = 0.000006603858 NormRD = 0.000000470509 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=32 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1190 3.1190 sum 6.2381 2 C MulP 1.8810 1.8810 sum 3.7619 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.966403396937 dUele = 0.000000121582 NormRD = 0.000000051464 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=33 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1190 3.1190 sum 6.2381 2 C MulP 1.8810 1.8810 sum 3.7619 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067621038101 Uele = -4.966403407336 dUele = 0.000000010399 NormRD = 0.000000000773 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 2 G-SCF=34 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1190 3.1190 sum 6.2381 2 C MulP 1.8810 1.8810 sum 3.7619 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.080573572700 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.966403407513 dUele = 0.000000000177 NormRD = 0.000000000030 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=35 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1497 3.1497 sum 6.2993 2 C MulP 1.8503 1.8503 sum 3.7007 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.933238221687 dUele = 0.033165185827 NormRD = 0.030946448634 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=36 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8372 2.8372 sum 5.6744 2 C MulP 2.1628 2.1628 sum 4.3256 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.836423070362 dUele = 0.096815151325 NormRD = 0.301229913903 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=37 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8408 2.8408 sum 5.6816 2 C MulP 2.1592 2.1592 sum 4.3184 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.041953435711 Uele = -4.837260398398 dUele = 0.000837328036 NormRD = 0.297618211413 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=38 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.9831 2.9831 sum 5.9662 2 C MulP 2.0169 2.0169 sum 4.0338 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.056673460310 Uele = -4.874504688924 dUele = 0.037244290525 NormRD = 0.151678458110 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=39 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0702 3.0702 sum 6.1404 2 C MulP 1.9298 1.9298 sum 3.8596 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.902352965227 dUele = 0.027848276304 NormRD = 0.058503243919 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=40 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1062 3.1062 sum 6.2125 2 C MulP 1.8938 1.8938 sum 3.7875 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.915356282683 dUele = 0.013003317455 NormRD = 0.018854016511 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=41 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1170 3.1170 sum 6.2340 2 C MulP 1.8830 1.8830 sum 3.7660 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.919472445063 dUele = 0.004116162380 NormRD = 0.006965563842 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=42 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1150 3.1150 sum 6.2301 2 C MulP 1.8850 1.8850 sum 3.7699 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.919547762126 dUele = 0.000075317064 NormRD = 0.007970238075 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=43 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1219 3.1219 sum 6.2437 2 C MulP 1.8781 1.8781 sum 3.7563 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.922086861958 dUele = 0.002539099832 NormRD = 0.000361807999 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=44 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1221 3.1221 sum 6.2443 2 C MulP 1.8779 1.8779 sum 3.7557 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.922206755885 dUele = 0.000119893927 NormRD = 0.000039582286 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=45 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1222 3.1222 sum 6.2444 2 C MulP 1.8778 1.8778 sum 3.7556 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.922216149139 dUele = 0.000009393253 NormRD = 0.000001088932 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=46 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1222 3.1222 sum 6.2444 2 C MulP 1.8778 1.8778 sum 3.7556 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.922215951066 dUele = 0.000000198073 NormRD = 0.000000070036 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=47 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1222 3.1222 sum 6.2444 2 C MulP 1.8778 1.8778 sum 3.7556 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.066578228624 Uele = -4.922215968169 dUele = 0.000000017104 NormRD = 0.000000001136 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 3 G-SCF=48 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1222 3.1222 sum 6.2444 2 C MulP 1.8778 1.8778 sum 3.7556 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.050314053234 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.922215967940 dUele = 0.000000000230 NormRD = 0.000000000041 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=49 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1484 3.1484 sum 6.2968 2 C MulP 1.8516 1.8516 sum 3.7032 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.896980436797 dUele = 0.025235531143 NormRD = 0.026522620777 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=50 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8870 2.8870 sum 5.7741 2 C MulP 2.1130 2.1130 sum 4.2259 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.814452772522 dUele = 0.082527664274 NormRD = 0.253736066288 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=51 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.8900 2.8900 sum 5.7799 2 C MulP 2.1100 2.1100 sum 4.2201 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.042883161542 Uele = -4.815185863092 dUele = 0.000733090569 NormRD = 0.250760156993 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=52 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0084 3.0084 sum 6.0167 2 C MulP 1.9916 1.9916 sum 3.9833 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.057922364968 Uele = -4.848059306295 dUele = 0.032873443203 NormRD = 0.127775564140 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=53 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0816 3.0816 sum 6.1633 2 C MulP 1.9184 1.9184 sum 3.8367 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.872238464433 dUele = 0.024179158138 NormRD = 0.048712588420 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=54 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1119 3.1119 sum 6.2238 2 C MulP 1.8881 1.8881 sum 3.7762 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.883289787034 dUele = 0.011051322601 NormRD = 0.015307730209 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=55 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1208 3.1208 sum 6.2416 2 C MulP 1.8792 1.8792 sum 3.7584 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.886705191083 dUele = 0.003415404049 NormRD = 0.005426341682 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=56 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1199 3.1199 sum 6.2398 2 C MulP 1.8801 1.8801 sum 3.7602 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.886865748929 dUele = 0.000160557846 NormRD = 0.005610294402 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=57 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1248 3.1248 sum 6.2495 2 C MulP 1.8752 1.8752 sum 3.7505 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.888722219779 dUele = 0.001856470849 NormRD = 0.000161980860 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=58 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1249 3.1249 sum 6.2498 2 C MulP 1.8751 1.8751 sum 3.7502 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.888774204124 dUele = 0.000051984345 NormRD = 0.000007232300 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=59 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1249 3.1249 sum 6.2499 2 C MulP 1.8751 1.8751 sum 3.7501 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.888774880843 dUele = 0.000000676718 NormRD = 0.000000722968 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=60 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1249 3.1249 sum 6.2499 2 C MulP 1.8751 1.8751 sum 3.7501 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.888774683466 dUele = 0.000000197376 NormRD = 0.000000061425 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=61 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1249 3.1249 sum 6.2499 2 C MulP 1.8751 1.8751 sum 3.7501 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.067772450166 Uele = -4.888774691045 dUele = 0.000000007578 NormRD = 0.000000000649 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 4 G-SCF=62 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1249 3.1249 sum 6.2499 2 C MulP 1.8751 1.8751 sum 3.7501 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.032047053955 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.888774690946 dUele = 0.000000000099 NormRD = 0.000000000004 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=63 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1469 3.1469 sum 6.2937 2 C MulP 1.8531 1.8531 sum 3.7063 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.869490135022 dUele = 0.019284555925 NormRD = 0.022247753326 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=64 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.9327 2.9327 sum 5.8654 2 C MulP 2.0673 2.0673 sum 4.1346 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.800414736319 dUele = 0.069075398703 NormRD = 0.209354182328 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=65 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.9350 2.9350 sum 5.8701 2 C MulP 2.0650 2.0650 sum 4.1299 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.043913073966 Uele = -4.801040378487 dUele = 0.000625642168 NormRD = 0.206956720737 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=66 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0317 3.0317 sum 6.0633 2 C MulP 1.9683 1.9683 sum 3.9367 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.059255390862 Uele = -4.829434672224 dUele = 0.028394293737 NormRD = 0.105307929771 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=67 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0921 3.0921 sum 6.1842 2 C MulP 1.9079 1.9079 sum 3.8158 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.849981227410 dUele = 0.020546555186 NormRD = 0.039572440371 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=68 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1169 3.1169 sum 6.2338 2 C MulP 1.8831 1.8831 sum 3.7662 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.859145965960 dUele = 0.009164738550 NormRD = 0.012098820268 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=69 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1241 3.1241 sum 6.2481 2 C MulP 1.8759 1.8759 sum 3.7519 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.861904451759 dUele = 0.002758485799 NormRD = 0.004110555101 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=70 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1239 3.1239 sum 6.2478 2 C MulP 1.8761 1.8761 sum 3.7522 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.862107689171 dUele = 0.000203237413 NormRD = 0.003789950815 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=71 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1271 3.1271 sum 6.2543 2 C MulP 1.8729 1.8729 sum 3.7457 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.863387842947 dUele = 0.001280153775 NormRD = 0.000118638889 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=72 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1272 3.1272 sum 6.2545 2 C MulP 1.8728 1.8728 sum 3.7455 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.863413053808 dUele = 0.000025210862 NormRD = 0.000021271834 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=73 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1273 3.1273 sum 6.2545 2 C MulP 1.8727 1.8727 sum 3.7455 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.863419765700 dUele = 0.000006711891 NormRD = 0.000000496397 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=74 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1273 3.1273 sum 6.2545 2 C MulP 1.8727 1.8727 sum 3.7455 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.863419598390 dUele = 0.000000167310 NormRD = 0.000000047330 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=75 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1273 3.1273 sum 6.2545 2 C MulP 1.8727 1.8727 sum 3.7455 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.068998646253 Uele = -4.863419602135 dUele = 0.000000003746 NormRD = 0.000000000275 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 5 G-SCF=76 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1273 3.1273 sum 6.2545 2 C MulP 1.8727 1.8727 sum 3.7455 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.020751408221 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.863419601998 dUele = 0.000000000137 NormRD = 0.000000000010 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=77 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1455 3.1455 sum 6.2909 2 C MulP 1.8545 1.8545 sum 3.7091 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.848494445854 dUele = 0.014925156144 NormRD = 0.018486391031 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=78 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.9712 2.9712 sum 5.9424 2 C MulP 2.0288 2.0288 sum 4.0576 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -4.791169295113 dUele = 0.057325150740 NormRD = 0.171392596422 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=79 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.9730 2.9730 sum 5.9461 2 C MulP 2.0270 2.0270 sum 4.0539 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.044928402879 Uele = -4.791695555968 dUele = 0.000526260855 NormRD = 0.169474466159 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=80 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0514 3.0514 sum 6.1029 2 C MulP 1.9486 1.9486 sum 3.8971 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060535881312 Uele = -4.815908099529 dUele = 0.024212543561 NormRD = 0.086052642583 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=81 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1009 3.1009 sum 6.2019 2 C MulP 1.8991 1.8991 sum 3.7981 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.833172981323 dUele = 0.017264881794 NormRD = 0.031849659067 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=82 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1210 3.1210 sum 6.2421 2 C MulP 1.8790 1.8790 sum 3.7579 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.840688793587 dUele = 0.007515812264 NormRD = 0.009479351144 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=83 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1268 3.1268 sum 6.2535 2 C MulP 1.8732 1.8732 sum 3.7465 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.842892725240 dUele = 0.002203931653 NormRD = 0.003093977405 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=84 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1270 3.1270 sum 6.2540 2 C MulP 1.8730 1.8730 sum 3.7460 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843103847992 dUele = 0.000211122752 NormRD = 0.002515058954 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=85 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1291 3.1291 sum 6.2581 2 C MulP 1.8709 1.8709 sum 3.7419 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843945889985 dUele = 0.000842041993 NormRD = 0.000163969950 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=86 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1292 3.1292 sum 6.2584 2 C MulP 1.8708 1.8708 sum 3.7416 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843986663485 dUele = 0.000040773500 NormRD = 0.000015734396 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=87 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1292 3.1292 sum 6.2584 2 C MulP 1.8708 1.8708 sum 3.7416 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843991606200 dUele = 0.000004942715 NormRD = 0.000000334003 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=88 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1292 3.1292 sum 6.2584 2 C MulP 1.8708 1.8708 sum 3.7416 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843991472670 dUele = 0.000000133530 NormRD = 0.000000032786 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=89 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1292 3.1292 sum 6.2584 2 C MulP 1.8708 1.8708 sum 3.7416 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843991474673 dUele = 0.000000002003 NormRD = 0.000000000415 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 1 orbitalOpt_iter= 6 G-SCF=90 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1292 3.1292 sum 6.2584 2 C MulP 1.8708 1.8708 sum 3.7416 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070144854234 Uele = -4.843991474531 dUele = 0.000000000142 NormRD = 0.000000000006 Criterion = 0.000000001000 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 1.13402503 Dx Dy Dz Total 1.13402503 -0.00000000 0.00000000 Core 30.74052351 0.00000000 0.00000000 Electron -29.60649848 -0.00000000 0.00000000 Back ground -0.00000000 0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -4.843991474531 Ukin = 14.063275510980 UH0 = -26.457650043134 UH1 = 0.098736840670 Una = -15.440896576666 Unl = 3.273791626418 Uxc0 = -2.674541995206 Uxc1 = -2.674541995206 Ucore = 7.937658735000 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -21.874167897146 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 17.33333 Set_OLP_Kin = 0.03903 Set_Nonlocal = 0.05428 Set_ProExpn_VNA = 0.17028 Set_Hamiltonian = 14.05003 Poisson = 1.41938 diagonalization = 0.03805 Mixing_DM = 0.00259 Force = 0.41691 Total_Energy = 0.29838 Set_Aden_Grid = 0.02074 Set_Orbitals_Grid = 0.21570 Set_Density_Grid = 0.57871 RestartFileDFT = 0.00085 Mulliken_Charge = 0.00273 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* SD_scaling= 1.259817324989 |Maximum force| (Hartree/Bohr) = 0.172437767437 Criterion (Hartree/Bohr) = 0.000100000000 atom= 1, XYZ(ang) Fxyz(a.u.)= 0.1054 0.0000 -0.0000 -0.1718 -0.0000 0.0000 atom= 2, XYZ(ang) Fxyz(a.u.)= 1.4942 -0.0000 0.0000 0.1724 0.0000 -0.0000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* ******************************************************* Allocation of atoms to proccesors at MD_iter= 2 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 17.955637770240, 0.000000000000, 0.000000000000 B = 0.000000000000, 13.851491994185, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.851491994185 reciprocal lattice vectors (bohr^-1) RA = 0.349928272534, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.453610723655, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.453610723655 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 150.0010, 150.0010, 150.0010 Num. of grids of a-, b-, and c-axes = 70, 54, 54 Cell_Volume = 3445.037441039801 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.256509111003, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.256509111003, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.256509111003 |gtv_a| = 0.256509111003 |gtv_b| = 0.256509111003 |gtv_c| = 0.256509111003 Num. of grids overlapping with atom 1 = 53500 Num. of grids overlapping with atom 2 = 53500 ******************************************************* SCF calculation at MD = 2 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 2 SCF= 1 ******************* Found restart files Solving the eigenvalue problem... 1 O MulP 3.6525 3.6525 sum 7.3049 2 C MulP 1.3475 1.3475 sum 2.6951 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -4.856810346438 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000001000 ******************* MD= 2 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 1.2978 1.2978 sum 2.5956 2 C MulP 3.7022 3.7022 sum 7.4044 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.051260142041 Uele = -5.100921065903 dUele = 0.244110719465 NormRD = 2.202839160030 Criterion = 0.000000001000 ******************* MD= 2 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 1.4363 1.4363 sum 2.8727 2 C MulP 3.5637 3.5637 sum 7.1273 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.216695890224 Uele = -4.982098064276 dUele = 0.118823001627 NormRD = 1.924740261536 Criterion = 0.000000001000 ******************* MD= 2 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3962 3.3962 sum 6.7924 2 C MulP 1.6038 1.6038 sum 3.2076 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.228412643405 Uele = -5.420741486579 dUele = 0.438643422304 NormRD = 0.435928940227 Criterion = 0.000000001000 ******************* MD= 2 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0559 3.0559 sum 6.1117 2 C MulP 1.9441 1.9441 sum 3.8883 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.171838634021 dUele = 0.248902852558 NormRD = 0.398035013756 Criterion = 0.000000001000 ******************* MD= 2 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2025 3.2025 sum 6.4049 2 C MulP 1.7975 1.7975 sum 3.5951 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.285908312149 dUele = 0.114069678128 NormRD = 0.223044642309 Criterion = 0.000000001000 ******************* MD= 2 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0740 3.0740 sum 6.1479 2 C MulP 1.9260 1.9260 sum 3.8521 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.223271155029 dUele = 0.062637157120 NormRD = 0.213148593337 Criterion = 0.000000001000 ******************* MD= 2 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1638 3.1638 sum 6.3275 2 C MulP 1.8362 1.8362 sum 3.6725 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.299667840117 dUele = 0.076396685088 NormRD = 0.072747660233 Criterion = 0.000000001000 ******************* MD= 2 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1171 3.1171 sum 6.2341 2 C MulP 1.8829 1.8829 sum 3.7659 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.295300530879 dUele = 0.004367309238 NormRD = 0.026072099143 Criterion = 0.000000001000 ******************* MD= 2 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1368 3.1368 sum 6.2737 2 C MulP 1.8632 1.8632 sum 3.7263 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308054936161 dUele = 0.012754405282 NormRD = 0.000689270974 Criterion = 0.000000001000 ******************* MD= 2 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2745 2 C MulP 1.8628 1.8628 sum 3.7255 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308404336604 dUele = 0.000349400443 NormRD = 0.000036198762 Criterion = 0.000000001000 ******************* MD= 2 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2745 2 C MulP 1.8628 1.8628 sum 3.7255 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308405651831 dUele = 0.000001315227 NormRD = 0.000014163922 Criterion = 0.000000001000 ******************* MD= 2 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2744 2 C MulP 1.8628 1.8628 sum 3.7256 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308400959155 dUele = 0.000004692676 NormRD = 0.000000321010 Criterion = 0.000000001000 ******************* MD= 2 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2744 2 C MulP 1.8628 1.8628 sum 3.7256 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308401063464 dUele = 0.000000104308 NormRD = 0.000000008214 Criterion = 0.000000001000 ******************* MD= 2 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2744 2 C MulP 1.8628 1.8628 sum 3.7256 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308401059033 dUele = 0.000000004430 NormRD = 0.000000001305 Criterion = 0.000000001000 ******************* MD= 2 SCF=16 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1372 3.1372 sum 6.2744 2 C MulP 1.8628 1.8628 sum 3.7256 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.308401059727 dUele = 0.000000000694 NormRD = 0.000000000005 Criterion = 0.000000001000 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.67610652 Dx Dy Dz Total 0.67610652 0.00000000 0.00000000 Core 31.74584038 0.00000000 -0.00000000 Electron -31.06973386 0.00000000 0.00000000 Back ground -0.00000000 0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 2 ******************************************************* Uele = -5.308401059727 Ukin = 14.120132020529 UH0 = -27.476025323880 UH1 = 0.108418252514 Una = -15.676014746284 Unl = 3.249527838519 Uxc0 = -2.702747206989 Uxc1 = -2.702747206989 Ucore = 9.145268240731 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -21.934188131848 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 2 ******************************************************* DFT in total = 3.78143 Set_OLP_Kin = 0.03624 Set_Nonlocal = 0.05411 Set_ProExpn_VNA = 0.17110 Set_Hamiltonian = 2.28168 Poisson = 0.23834 diagonalization = 0.00659 Mixing_DM = 0.00054 Force = 0.41612 Total_Energy = 0.26845 Set_Aden_Grid = 0.01903 Set_Orbitals_Grid = 0.17230 Set_Density_Grid = 0.10890 RestartFileDFT = 0.00246 Mulliken_Charge = 0.00051 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 2 ******************************************************* SD_scaling= 1.259817324989 |Maximum force| (Hartree/Bohr) = 0.109531763438 Criterion (Hartree/Bohr) = 0.000100000000 atom= 1, XYZ(ang) Fxyz(a.u.)= 0.1779 -0.0000 0.0000 -0.1087 0.0000 -0.0000 atom= 2, XYZ(ang) Fxyz(a.u.)= 1.4211 0.0000 -0.0000 0.1095 -0.0000 0.0000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* ******************************************************* Allocation of atoms to proccesors at MD_iter= 3 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 17.955637770240, 0.000000000000, 0.000000000000 B = 0.000000000000, 13.851491994185, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.851491994185 reciprocal lattice vectors (bohr^-1) RA = 0.349928272534, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.453610723655, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.453610723655 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 150.0010, 150.0010, 150.0010 Num. of grids of a-, b-, and c-axes = 70, 54, 54 Cell_Volume = 3445.037441039801 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.256509111003, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.256509111003, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.256509111003 |gtv_a| = 0.256509111003 |gtv_b| = 0.256509111003 |gtv_c| = 0.256509111003 Num. of grids overlapping with atom 1 = 53608 Num. of grids overlapping with atom 2 = 53632 ******************************************************* Orbital optimization SCF calculation at MD = 3 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 1 L-SCF= 1 Solving the eigenvalue problem... 1 O MulP 3.5382 3.5382 sum 7.0765 2 C MulP 1.4618 1.4618 sum 2.9235 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.091647774328 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 2 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 1.7073 1.7073 sum 3.4146 2 C MulP 3.2927 3.2927 sum 6.5854 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.076432770574 Uele = -5.221522391324 dUele = 0.129874616996 NormRD = 1.710268398874 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 3 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 2.0746 2.0746 sum 4.1492 2 C MulP 2.9254 2.9254 sum 5.8508 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.166331596030 Uele = -5.262682394124 dUele = 0.041160002801 NormRD = 1.257343388943 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 4 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0364 3.0364 sum 6.0728 2 C MulP 1.9636 1.9636 sum 3.9272 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.177105152346 Uele = -5.635471087774 dUele = 0.372788693650 NormRD = 0.310111482933 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 5 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1307 3.1307 sum 6.2614 2 C MulP 1.8693 1.8693 sum 3.7386 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.710196997841 dUele = 0.074725910067 NormRD = 0.203078889950 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 6 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1501 3.1501 sum 6.3002 2 C MulP 1.8499 1.8499 sum 3.6998 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.731585025741 dUele = 0.021388027900 NormRD = 0.131388771986 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 7 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1429 3.1429 sum 6.2858 2 C MulP 1.8571 1.8571 sum 3.7142 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.730014551119 dUele = 0.001570474622 NormRD = 0.092086800456 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 8 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1882 3.1882 sum 6.3764 2 C MulP 1.8118 1.8118 sum 3.6236 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.782504421892 dUele = 0.052489870772 NormRD = 0.054714891146 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF= 9 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1348 3.1348 sum 6.2697 2 C MulP 1.8652 1.8652 sum 3.7303 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.737152685046 dUele = 0.045351736846 NormRD = 0.017179940858 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=10 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1466 3.1466 sum 6.2931 2 C MulP 1.8534 1.8534 sum 3.7069 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747846840777 dUele = 0.010694155730 NormRD = 0.000275423345 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=11 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2929 2 C MulP 1.8536 1.8536 sum 3.7071 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747843238145 dUele = 0.000003602632 NormRD = 0.000033803738 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=12 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2929 2 C MulP 1.8536 1.8536 sum 3.7071 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747839309141 dUele = 0.000003929004 NormRD = 0.000010903227 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=13 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2928 2 C MulP 1.8536 1.8536 sum 3.7072 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747836183502 dUele = 0.000003125639 NormRD = 0.000000217971 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=14 L-SCF=14 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2928 2 C MulP 1.8536 1.8536 sum 3.7072 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747836203607 dUele = 0.000000020105 NormRD = 0.000000004790 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=15 L-SCF=15 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2928 2 C MulP 1.8536 1.8536 sum 3.7072 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -5.747836200662 dUele = 0.000000002945 NormRD = 0.000000000056 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 1 G-SCF=16 L-SCF=16 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1464 3.1464 sum 6.2928 2 C MulP 1.8536 1.8536 sum 3.7072 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.426627733650 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.747836200639 dUele = 0.000000000024 NormRD = 0.000000000001 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=17 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1445 3.1445 sum 6.2891 2 C MulP 1.8555 1.8555 sum 3.7109 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.729697811769 dUele = 0.018138388870 NormRD = 0.003296085343 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=18 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1505 3.1505 sum 6.3011 2 C MulP 1.8495 1.8495 sum 3.6989 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.732270789338 dUele = 0.002572977569 NormRD = 0.006216492361 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=19 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1505 3.1505 sum 6.3011 2 C MulP 1.8495 1.8495 sum 3.6989 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.105137343437 Uele = -5.732252303308 dUele = 0.000018486029 NormRD = 0.006186858053 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=20 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1482 3.1482 sum 6.2964 2 C MulP 1.8518 1.8518 sum 3.7036 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.140151526359 Uele = -5.730319591788 dUele = 0.001932711520 NormRD = 0.003092382694 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=21 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1466 3.1466 sum 6.2933 2 C MulP 1.8534 1.8534 sum 3.7067 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310353 Uele = -5.729041133800 dUele = 0.001278457989 NormRD = 0.001068965351 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=22 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1460 3.1460 sum 6.2921 2 C MulP 1.8540 1.8540 sum 3.7079 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310353 Uele = -5.728570049458 dUele = 0.000471084342 NormRD = 0.000404592333 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=23 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1459 3.1459 sum 6.2918 2 C MulP 1.8541 1.8541 sum 3.7082 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310353 Uele = -5.728467563597 dUele = 0.000102485861 NormRD = 0.000285493991 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=24 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1460 3.1460 sum 6.2920 2 C MulP 1.8540 1.8540 sum 3.7080 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310353 Uele = -5.728638594156 dUele = 0.000171030559 NormRD = 0.000217387945 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=25 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1458 3.1458 sum 6.2917 2 C MulP 1.8542 1.8542 sum 3.7083 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310353 Uele = -5.728499959426 dUele = 0.000138634730 NormRD = 0.000000295866 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=26 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1458 3.1458 sum 6.2917 2 C MulP 1.8542 1.8542 sum 3.7083 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310353 Uele = -5.728499830749 dUele = 0.000000128678 NormRD = 0.000000007369 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=27 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1458 3.1458 sum 6.2917 2 C MulP 1.8542 1.8542 sum 3.7083 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.159171310353 Uele = -5.728499825580 dUele = 0.000000005169 NormRD = 0.000000000140 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 2 G-SCF=28 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1458 3.1458 sum 6.2917 2 C MulP 1.8542 1.8542 sum 3.7083 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.379666058342 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.728499825679 dUele = 0.000000000099 NormRD = 0.000000000034 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=29 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1441 3.1441 sum 6.2882 2 C MulP 1.8559 1.8559 sum 3.7118 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.709634400507 dUele = 0.018865425172 NormRD = 0.003296564379 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=30 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1495 3.1495 sum 6.2990 2 C MulP 1.8505 1.8505 sum 3.7010 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.711414254415 dUele = 0.001779853908 NormRD = 0.005567110024 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=31 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1495 3.1495 sum 6.2990 2 C MulP 1.8505 1.8505 sum 3.7010 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.105216382785 Uele = -5.711397748031 dUele = 0.000016506384 NormRD = 0.005540591336 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=32 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1474 3.1474 sum 6.2948 2 C MulP 1.8526 1.8526 sum 3.7052 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.140370899155 Uele = -5.709670591800 dUele = 0.001727156231 NormRD = 0.002772733576 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=33 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1460 3.1460 sum 6.2920 2 C MulP 1.8540 1.8540 sum 3.7080 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956411 Uele = -5.708530132654 dUele = 0.001140459146 NormRD = 0.000978447392 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=34 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1454 3.1454 sum 6.2909 2 C MulP 1.8546 1.8546 sum 3.7091 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956411 Uele = -5.708111374523 dUele = 0.000418758130 NormRD = 0.000410483861 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=35 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956411 Uele = -5.708024995512 dUele = 0.000086379011 NormRD = 0.000304009264 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=36 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1455 3.1455 sum 6.2910 2 C MulP 1.8545 1.8545 sum 3.7090 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956411 Uele = -5.708262492146 dUele = 0.000237496633 NormRD = 0.000305283511 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=37 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956411 Uele = -5.708068554444 dUele = 0.000193937702 NormRD = 0.000000569929 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=38 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956411 Uele = -5.708068204804 dUele = 0.000000349639 NormRD = 0.000000007317 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=39 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.160336956411 Uele = -5.708068208825 dUele = 0.000000004021 NormRD = 0.000000000564 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 3 G-SCF=40 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.333812737219 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.708068209195 dUele = 0.000000000370 NormRD = 0.000000000011 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=41 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1437 3.1437 sum 6.2875 2 C MulP 1.8563 1.8563 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.688391470574 dUele = 0.019676738621 NormRD = 0.003298349328 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=42 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1483 3.1483 sum 6.2966 2 C MulP 1.8517 1.8517 sum 3.7034 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.689160380930 dUele = 0.000768910355 NormRD = 0.004711838675 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=43 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1483 3.1483 sum 6.2966 2 C MulP 1.8517 1.8517 sum 3.7034 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.105500024448 Uele = -5.689146481357 dUele = 0.000013899573 NormRD = 0.004689454522 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=44 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1465 3.1465 sum 6.2930 2 C MulP 1.8535 1.8535 sum 3.7070 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.140983962663 Uele = -5.687688038133 dUele = 0.001458443224 NormRD = 0.002352628637 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=45 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2906 2 C MulP 1.8547 1.8547 sum 3.7094 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731744 Uele = -5.686728834953 dUele = 0.000959203180 NormRD = 0.000864538233 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=46 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1449 3.1449 sum 6.2897 2 C MulP 1.8551 1.8551 sum 3.7103 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731744 Uele = -5.686379158592 dUele = 0.000349676360 NormRD = 0.000419280407 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=47 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1448 3.1448 sum 6.2895 2 C MulP 1.8552 1.8552 sum 3.7105 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731744 Uele = -5.686315064405 dUele = 0.000064094187 NormRD = 0.000324498009 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=48 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1451 3.1451 sum 6.2901 2 C MulP 1.8549 1.8549 sum 3.7099 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731744 Uele = -5.686654097125 dUele = 0.000339032719 NormRD = 0.000445891608 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=49 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1447 3.1447 sum 6.2895 2 C MulP 1.8553 1.8553 sum 3.7105 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731744 Uele = -5.686372786480 dUele = 0.000281310645 NormRD = 0.000000953733 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=50 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1447 3.1447 sum 6.2895 2 C MulP 1.8553 1.8553 sum 3.7105 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731744 Uele = -5.686372159947 dUele = 0.000000626533 NormRD = 0.000000033281 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=51 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1447 3.1447 sum 6.2895 2 C MulP 1.8553 1.8553 sum 3.7105 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.162994731744 Uele = -5.686372180983 dUele = 0.000000021037 NormRD = 0.000000000234 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 4 G-SCF=52 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1447 3.1447 sum 6.2895 2 C MulP 1.8553 1.8553 sum 3.7105 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.289250081805 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.686372181103 dUele = 0.000000000120 NormRD = 0.000000000004 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=53 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1435 3.1435 sum 6.2869 2 C MulP 1.8565 1.8565 sum 3.7131 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.665789856011 dUele = 0.020582325092 NormRD = 0.003310436803 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=54 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1469 3.1469 sum 6.2939 2 C MulP 1.8531 1.8531 sum 3.7061 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.665245025601 dUele = 0.000544830410 NormRD = 0.003571305262 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=55 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1469 3.1469 sum 6.2938 2 C MulP 1.8531 1.8531 sum 3.7062 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.106616827310 Uele = -5.665234617106 dUele = 0.000010408496 NormRD = 0.003554517486 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=56 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1456 3.1456 sum 6.2911 2 C MulP 1.8544 1.8544 sum 3.7089 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.143133859114 Uele = -5.664130795750 dUele = 0.001103821356 NormRD = 0.001795383376 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=57 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1446 3.1446 sum 6.2893 2 C MulP 1.8554 1.8554 sum 3.7107 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105608 Uele = -5.663413552970 dUele = 0.000717242780 NormRD = 0.000727165279 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=58 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1443 3.1443 sum 6.2886 2 C MulP 1.8557 1.8557 sum 3.7114 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105608 Uele = -5.663157647847 dUele = 0.000255905122 NormRD = 0.000431780480 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=59 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2885 2 C MulP 1.8558 1.8558 sum 3.7115 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105608 Uele = -5.663127369532 dUele = 0.000030278316 NormRD = 0.000343005483 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=60 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1447 3.1447 sum 6.2894 2 C MulP 1.8553 1.8553 sum 3.7106 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105608 Uele = -5.663590996945 dUele = 0.000463627413 NormRD = 0.000621534197 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=61 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2884 2 C MulP 1.8558 1.8558 sum 3.7116 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105608 Uele = -5.663202798462 dUele = 0.000388198483 NormRD = 0.000001375760 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=62 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2884 2 C MulP 1.8558 1.8558 sum 3.7116 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105608 Uele = -5.663201874257 dUele = 0.000000924205 NormRD = 0.000000062765 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=63 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2884 2 C MulP 1.8558 1.8558 sum 3.7116 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105608 Uele = -5.663201913168 dUele = 0.000000038911 NormRD = 0.000000001898 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=64 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2884 2 C MulP 1.8558 1.8558 sum 3.7116 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.171221105608 Uele = -5.663201914296 dUele = 0.000000001128 NormRD = 0.000000000003 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 5 G-SCF=65 L-SCF=13 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1442 3.1442 sum 6.2884 2 C MulP 1.8558 1.8558 sum 3.7116 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Norm of derivatives = 0.246211675794 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.663201914298 dUele = 0.000000000002 NormRD = 0.000000000000 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=66 L-SCF= 1 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1433 3.1433 sum 6.2866 2 C MulP 1.8567 1.8567 sum 3.7134 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001000000000 Uele = -5.641614119019 dUele = 0.021587795279 NormRD = 0.003354960099 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=67 L-SCF= 2 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2905 2 C MulP 1.8547 1.8547 sum 3.7095 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.001599040932 Uele = -5.639321181795 dUele = 0.002292937224 NormRD = 0.002053457970 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=68 L-SCF= 3 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1453 3.1453 sum 6.2905 2 C MulP 1.8547 1.8547 sum 3.7095 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.114899454807 Uele = -5.639312178662 dUele = 0.000009003134 NormRD = 0.002039119052 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=69 L-SCF= 4 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1444 3.1444 sum 6.2889 2 C MulP 1.8556 1.8556 sum 3.7111 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.158203938312 Uele = -5.638670534659 dUele = 0.000641644002 NormRD = 0.001066842648 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=70 L-SCF= 5 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1439 3.1439 sum 6.2879 2 C MulP 1.8561 1.8561 sum 3.7121 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357615 Uele = -5.638286648427 dUele = 0.000383886233 NormRD = 0.000588606667 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=71 L-SCF= 6 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357615 Uele = -5.638177990156 dUele = 0.000108658271 NormRD = 0.000422217153 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=72 L-SCF= 7 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357615 Uele = -5.638218744606 dUele = 0.000040754451 NormRD = 0.000305982351 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=73 L-SCF= 8 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1436 3.1436 sum 6.2872 2 C MulP 1.8564 1.8564 sum 3.7128 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357615 Uele = -5.638172469655 dUele = 0.000046274951 NormRD = 0.000199843642 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=74 L-SCF= 9 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357615 Uele = -5.638297244661 dUele = 0.000124775006 NormRD = 0.000002795777 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=75 L-SCF=10 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357615 Uele = -5.638295435145 dUele = 0.000001809515 NormRD = 0.000000035346 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=76 L-SCF=11 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357615 Uele = -5.638295457798 dUele = 0.000000022652 NormRD = 0.000000000876 Criterion = 0.000000001000 ***************** Orbital optimization ************** MD= 3 orbitalOpt_iter= 6 G-SCF=77 L-SCF=12 Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1438 3.1438 sum 6.2875 2 C MulP 1.8562 1.8562 sum 3.7125 Sum of MulP: up = 5.00000 down = 5.00000 total= 10.00000 ideal(neutral)= 10.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.227436357615 Uele = -5.638295458329 dUele = 0.000000000532 NormRD = 0.000000000002 Criterion = 0.000000001000 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.35410783 Dx Dy Dz Total 0.35410783 -0.00000000 0.00000000 Core 32.43205046 -0.00000000 0.00000000 Electron -32.07794263 0.00000000 -0.00000000 Back ground -0.00000000 0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 3 ******************************************************* Uele = -5.638295458329 Ukin = 14.346850552718 UH0 = -28.290711366743 UH1 = 0.109180652485 Una = -16.057280549794 Unl = 3.209219921415 Uxc0 = -2.743262361555 Uxc1 = -2.743262361555 Ucore = 10.215684462450 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -21.953581050579 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 3 ******************************************************* DFT in total = 14.47404 Set_OLP_Kin = 0.03475 Set_Nonlocal = 0.05389 Set_ProExpn_VNA = 0.17063 Set_Hamiltonian = 11.50052 Poisson = 1.21889 diagonalization = 0.03228 Mixing_DM = 0.00196 Force = 0.42036 Total_Energy = 0.26600 Set_Aden_Grid = 0.02045 Set_Orbitals_Grid = 0.21659 Set_Density_Grid = 0.51225 RestartFileDFT = 0.00098 Mulliken_Charge = 0.00225 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 3 ******************************************************* SD_scaling= 1.259817324989 |Maximum force| (Hartree/Bohr) = 0.026365123008 Criterion (Hartree/Bohr) = 0.000100000000 atom= 1, XYZ(ang) Fxyz(a.u.)= 0.1779 -0.0000 0.0000 0.0249 -0.0000 0.0000 atom= 2, XYZ(ang) Fxyz(a.u.)= 1.4211 0.0000 -0.0000 -0.0264 0.0000 -0.0000 outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 43.622 0 43.622 readfile = 0 7.297 0 7.297 truncation = 0 0.000 0 0.000 MD_pac = 0 0.001 0 0.001 OutData = 0 0.389 0 0.389 DFT = 0 35.589 0 35.589 *** In DFT *** Set_OLP_Kin = 0 0.110 0 0.110 Set_Nonlocal = 0 0.162 0 0.162 Set_ProExpn_VNA = 0 0.512 0 0.512 Set_Hamiltonian = 0 27.832 0 27.832 Poisson = 0 2.877 0 2.877 Diagonalization = 0 0.077 0 0.077 Mixing_DM = 0 0.005 0 0.005 Force = 0 1.253 0 1.253 Total_Energy = 0 0.833 0 0.833 Set_Aden_Grid = 0 0.060 0 0.060 Set_Orbitals_Grid = 0 0.605 0 0.605 Set_Density_Grid = 0 1.200 0 1.200 RestartFileDFT = 0 0.004 0 0.004 Mulliken_Charge = 0 0.005 0 0.005 FFT(2D)_Density = 0 0.000 0 0.000 Others = 0 0.053 0 0.053 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* automatically determied UnitCell(Ang.) from atomic positions and Rc of PAOs (margin= 10.00%) 11.513520 0.000000 0.000000 0.000000 9.313520 0.000000 0.000000 0.000000 9.313520 widened unit cell to fit energy cutoff (Ang.) A = 11.895558 0.000000 0.000000 (96) B = 0.000000 9.912965 0.000000 (80) C = 0.000000 0.000000 9.912965 (80) Your input file was normally read. The system includes 1 species and 2 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species Cr were normally found. VPSs of species Cr were normally found. Cr_CA13.vps is j-dependent. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 The system is molecule. lattice vectors (bohr) A = 22.479344696793, 0.000000000000, 0.000000000000 B = 0.000000000000, 18.732787247327, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.732787247327 reciprocal lattice vectors (bohr^-1) RA = 0.279509273599, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.335411128319, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.335411128319 Grid_Origin -9.232866439522 -9.249313703368 -9.249313703368 Cell_Volume = 7888.391352601706 (Bohr^3) GridVol = 0.012839178634 (Bohr^3) Grid_Origin -9.232866439522 -9.249313703368 -9.249313703368 Cell_Volume = 7888.391352601706 (Bohr^3) GridVol = 0.012839178634 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 22.479344696793, 0.000000000000, 0.000000000000 B = 0.000000000000, 18.732787247327, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.732787247327 reciprocal lattice vectors (bohr^-1) RA = 0.279509273599, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.335411128319, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.335411128319 Required cutoff energy (Ryd) for 3D-grids = 180.0000 Used cutoff energy (Ryd) for 3D-grids = 180.0010, 180.0010, 180.0010 Num. of grids of a-, b-, and c-axes = 96, 80, 80 Grid_Origin -9.232866439522 -9.249313703368 -9.249313703368 Cell_Volume = 7888.391352601706 (Bohr^3) GridVol = 0.012839178634 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.234159840592, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.234159840592, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.234159840592 |gtv_a| = 0.234159840592 |gtv_b| = 0.234159840592 |gtv_c| = 0.234159840592 Num. of grids overlapping with atom 1 = 167056 Num. of grids overlapping with atom 2 = 167056 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... 1 Cr MulP 8.59 5.41 sum 14.00 diff 3.17 (138.00 259.01) Ml 0.00 ( 41.68 83.07) Ml+s 3.17 (138.00 259.00) 2 Cr MulP 8.59 5.41 sum 14.00 diff 3.17 ( 42.00 79.01) Ml 0.00 (138.32 263.07) Ml+s 3.17 ( 42.00 79.00) Sum of MulP: up = 17.17068 down = 10.82932 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000005 Angles 76.600558358 169.712187618 Total Orbital Moment (muB) 0.000000004 Angles 66.723239015 -88.658996131 Total Moment (muB) 0.000000006 Angles 63.722557038 209.052695102 Mixing_weight= 0.001000000000 Uele = -36.869452198533 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000000100 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 8.59 5.41 sum 14.00 diff 3.19 (138.00 259.01) Ml 0.00 ( 41.84 80.76) Ml+s 3.19 (138.00 259.00) 2 Cr MulP 8.59 5.41 sum 14.00 diff 3.19 ( 42.00 79.01) Ml 0.00 (138.16 260.76) Ml+s 3.19 ( 42.00 79.00) Sum of MulP: up = 17.18739 down = 10.81261 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000005 Angles 91.864413680 154.647297760 Total Orbital Moment (muB) 0.000000006 Angles 29.266056152 93.407846249 Total Moment (muB) 0.000000008 Angles 54.316146436 133.271029611 Mixing_weight= 0.012073470643 Uele = -36.820798314998 dUele = 0.048653883535 NormRD = 0.957691899658 Criterion = 0.000000000100 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.09 4.91 sum 14.00 diff 4.18 (138.00 259.00) Ml 0.00 ( 71.09 17.63) Ml+s 4.18 (138.00 259.00) 2 Cr MulP 9.09 4.91 sum 14.00 diff 4.18 ( 42.00 79.00) Ml 0.00 (108.91 197.63) Ml+s 4.18 ( 42.00 79.00) Sum of MulP: up = 18.18034 down = 9.81966 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000005 Angles 128.451054460 73.282372967 Total Orbital Moment (muB) 0.000000004 Angles 145.704860110 88.641973798 Total Moment (muB) 0.000000009 Angles 135.801789419 78.435687350 Mixing_weight= 0.018473518661 Uele = -32.864301593882 dUele = 3.956496721116 NormRD = 0.563692969806 Criterion = 0.000000000100 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.09 4.91 sum 14.00 diff 4.18 (138.00 259.00) Ml 0.00 ( 71.17 17.55) Ml+s 4.18 (138.00 259.00) 2 Cr MulP 9.09 4.91 sum 14.00 diff 4.18 ( 42.00 79.00) Ml 0.00 (108.83 197.55) Ml+s 4.18 ( 42.00 79.00) Sum of MulP: up = 18.18105 down = 9.81895 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000006 Angles 128.496244945 74.894560737 Total Orbital Moment (muB) 0.000000005 Angles 171.893359101 85.673582388 Total Moment (muB) 0.000000010 Angles 148.188189875 76.297858433 Mixing_weight= 0.300000000000 Uele = -32.859868694240 dUele = 0.004432899643 NormRD = 0.553443811865 Criterion = 0.000000000100 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.16 4.84 sum 14.00 diff 4.31 (138.00 259.00) Ml 0.00 ( 82.59 6.60) Ml+s 4.31 (138.00 259.00) 2 Cr MulP 9.16 4.84 sum 14.00 diff 4.31 ( 42.00 79.00) Ml 0.00 ( 97.41 186.60) Ml+s 4.31 ( 42.00 79.00) Sum of MulP: up = 18.31274 down = 9.68726 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 38.988431324 -81.755050596 Total Orbital Moment (muB) 0.000000020 Angles 57.531003220 89.774486479 Total Moment (muB) 0.000000020 Angles 48.842715205 88.697638100 Mixing_weight= 0.300000000000 Uele = -32.868051838082 dUele = 0.008183143842 NormRD = 0.457934956249 Criterion = 0.000000000100 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.21 4.79 sum 14.00 diff 4.41 (138.00 259.00) Ml 0.00 ( 91.56 -1.38) Ml+s 4.41 (138.00 259.00) 2 Cr MulP 9.21 4.79 sum 14.00 diff 4.41 ( 42.00 79.00) Ml 0.00 ( 88.44 178.62) Ml+s 4.41 ( 42.00 79.00) Sum of MulP: up = 18.41385 down = 9.58615 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 124.513797464 74.551331926 Total Orbital Moment (muB) 0.000000020 Angles 151.786202475 -89.867487790 Total Moment (muB) 0.000000020 Angles 159.091517610 -85.151886516 Mixing_weight= 0.300000000000 Uele = -32.861463860499 dUele = 0.006587977583 NormRD = 0.378447968883 Criterion = 0.000000000100 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.76 (138.00 259.00) Ml 0.00 (110.65 -19.46) Ml+s 4.76 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.76 ( 42.00 79.00) Ml 0.00 ( 69.28 160.47) Ml+s 4.76 ( 42.00 79.00) Sum of MulP: up = 18.76179 down = 9.23821 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 98.388058035 12.914487460 Total Orbital Moment (muB) 0.000000389 Angles 41.545814687 90.010853410 Total Moment (muB) 0.000000389 Angles 41.659357341 89.391566703 Mixing_weight= 0.300000000000 Uele = -32.767242055759 dUele = 0.094221804740 NormRD = 0.071512917157 Criterion = 0.000000000100 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.37 4.63 sum 14.00 diff 4.74 (138.00 259.00) Ml 0.00 (106.00 -14.68) Ml+s 4.74 (138.00 259.00) 2 Cr MulP 9.37 4.63 sum 14.00 diff 4.74 ( 42.00 79.00) Ml 0.00 ( 74.56 165.87) Ml+s 4.74 ( 42.00 79.00) Sum of MulP: up = 18.73724 down = 9.26276 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000007 Angles 79.399414213 184.018789792 Total Orbital Moment (muB) 0.000002949 Angles 138.581633917 -89.995870456 Total Moment (muB) 0.000002948 Angles 138.556651183 269.792238581 Mixing_weight= 0.300000000000 Uele = -32.749465707946 dUele = 0.017776347813 NormRD = 0.021638809573 Criterion = 0.000000000100 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (103.87 -12.61) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 73.40 164.72) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75075 down = 9.24925 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000007 Angles 96.746587770 107.236589921 Total Orbital Moment (muB) 0.000014091 Angles 41.476203739 90.003852842 Total Moment (muB) 0.000014095 Angles 41.499574185 90.017013108 Mixing_weight= 0.300000000000 Uele = -32.744410474664 dUele = 0.005055233283 NormRD = 0.004327788820 Criterion = 0.000000000100 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (115.00 -24.35) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 87.62 177.89) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75381 down = 9.24619 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000027 Angles 139.820385648 -72.642008139 Total Orbital Moment (muB) 0.000118380 Angles 138.527786748 -89.996465629 Total Moment (muB) 0.000118406 Angles 138.528360423 -89.992724423 Mixing_weight= 0.300000000000 Uele = -32.743077598925 dUele = 0.001332875738 NormRD = 0.002053605101 Criterion = 0.000000000100 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (103.55 -12.30) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 73.50 164.82) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75392 down = 9.24608 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000007 Angles 88.704680529 120.364231104 Total Orbital Moment (muB) 0.000015169 Angles 41.475363715 90.003810607 Total Moment (muB) 0.000015173 Angles 41.492642173 90.024681407 Mixing_weight= 0.300000000000 Uele = -32.743010825618 dUele = 0.000066773307 NormRD = 0.000998953940 Criterion = 0.000000000100 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.05 -13.74) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.98 166.28) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75445 down = 9.24555 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 94.606107435 151.786098204 Total Orbital Moment (muB) 0.000000124 Angles 140.576841529 -89.973271880 Total Moment (muB) 0.000000124 Angles 141.084242523 268.274984727 Mixing_weight= 0.300000000000 Uele = -32.742732609408 dUele = 0.000278216210 NormRD = 0.000356287228 Criterion = 0.000000000100 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.04 -13.74) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.98 166.28) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75468 down = 9.24532 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000002 Angles 119.031401437 107.434032525 Total Orbital Moment (muB) 0.000000102 Angles 141.261579744 -89.955792023 Total Moment (muB) 0.000000101 Angles 142.572211917 269.453208565 Mixing_weight= 0.300000000000 Uele = -32.742563970879 dUele = 0.000168638529 NormRD = 0.000097284813 Criterion = 0.000000000100 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75475 down = 9.24525 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000001 Angles 109.032188131 110.403262212 Total Orbital Moment (muB) 0.000000009 Angles 155.049695128 -89.588647767 Total Moment (muB) 0.000000009 Angles 161.921144948 262.654030862 Mixing_weight= 0.300000000000 Uele = -32.742528254637 dUele = 0.000035716242 NormRD = 0.000023205738 Criterion = 0.000000000100 ******************* MD= 1 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75476 down = 9.24524 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 75.259300842 178.025141663 Total Orbital Moment (muB) 0.000000004 Angles 79.235393031 89.539462260 Total Moment (muB) 0.000000006 Angles 72.757936172 128.634190352 Mixing_weight= 0.300000000000 Uele = -32.742520263618 dUele = 0.000007991019 NormRD = 0.000006673693 Criterion = 0.000000000100 ******************* MD= 1 SCF=16 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75477 down = 9.24523 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000002 Angles 56.622219665 -32.241117326 Total Orbital Moment (muB) 0.000000004 Angles 96.978589971 90.121158563 Total Moment (muB) 0.000000004 Angles 82.199241591 69.157638908 Mixing_weight= 0.300000000000 Uele = -32.742517025471 dUele = 0.000003238147 NormRD = 0.000000490010 Criterion = 0.000000000100 ******************* MD= 1 SCF=17 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75477 down = 9.24523 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000007 Angles 89.387763221 166.295616447 Total Orbital Moment (muB) 0.000000005 Angles 82.626556816 89.909440847 Total Moment (muB) 0.000000010 Angles 85.648202302 135.458546262 Mixing_weight= 0.300000000000 Uele = -32.742516776333 dUele = 0.000000249138 NormRD = 0.000000030919 Criterion = 0.000000000100 ******************* MD= 1 SCF=18 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75477 down = 9.24523 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 103.367696125 15.000585767 Total Orbital Moment (muB) 0.000000003 Angles 64.943699423 90.208012968 Total Moment (muB) 0.000000004 Angles 82.235492573 51.741197647 Mixing_weight= 0.300000000000 Uele = -32.742516764671 dUele = 0.000000011663 NormRD = 0.000000030284 Criterion = 0.000000000100 ******************* MD= 1 SCF=19 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75477 down = 9.24523 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000002 Angles 98.543206321 13.574097175 Total Orbital Moment (muB) 0.000000003 Angles 64.275300067 90.247388784 Total Moment (muB) 0.000000003 Angles 75.996687825 56.260022314 Mixing_weight= 0.300000000000 Uele = -32.742516770924 dUele = 0.000000006254 NormRD = 0.000000018579 Criterion = 0.000000000100 ******************* MD= 1 SCF=20 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75477 down = 9.24523 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 114.866047959 123.026221679 Total Orbital Moment (muB) 0.000000008 Angles 97.882927016 89.858449559 Total Moment (muB) 0.000000010 Angles 102.667095087 97.786124502 Mixing_weight= 0.300000000000 Uele = -32.742516776742 dUele = 0.000000005818 NormRD = 0.000000012646 Criterion = 0.000000000100 ******************* MD= 1 SCF=21 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75477 down = 9.24523 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 116.640551668 119.696068293 Total Orbital Moment (muB) 0.000000008 Angles 97.366185457 89.850044047 Total Moment (muB) 0.000000010 Angles 102.835321938 97.162287463 Mixing_weight= 0.300000000000 Uele = -32.742516776635 dUele = 0.000000000108 NormRD = 0.000000011563 Criterion = 0.000000000100 ******************* MD= 1 SCF=22 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75477 down = 9.24523 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 117.832814963 117.239792659 Total Orbital Moment (muB) 0.000000008 Angles 97.123063859 89.842924182 Total Moment (muB) 0.000000010 Angles 103.023104389 96.636466511 Mixing_weight= 0.300000000000 Uele = -32.742516776816 dUele = 0.000000000181 NormRD = 0.000000010385 Criterion = 0.000000000100 ******************* MD= 1 SCF=23 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75477 down = 9.24523 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 122.739594198 104.529414271 Total Orbital Moment (muB) 0.000000007 Angles 97.097002093 89.803664263 Total Moment (muB) 0.000000010 Angles 104.569505360 93.587997802 Mixing_weight= 0.300000000000 Uele = -32.742516778582 dUele = 0.000000001766 NormRD = 0.000000003063 Criterion = 0.000000000100 ******************* MD= 1 SCF=24 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75477 down = 9.24523 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 123.043374808 103.392787622 Total Orbital Moment (muB) 0.000000008 Angles 97.600523429 89.801378302 Total Moment (muB) 0.000000010 Angles 104.948610770 93.262577736 Mixing_weight= 0.300000000000 Uele = -32.742516778718 dUele = 0.000000000135 NormRD = 0.000000002255 Criterion = 0.000000000100 ******************* MD= 1 SCF=25 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 (138.00 259.00) Ml 0.00 (105.03 -13.73) Ml+s 4.75 (138.00 259.00) 2 Cr MulP 9.38 4.62 sum 14.00 diff 4.75 ( 42.00 79.00) Ml 0.00 ( 74.97 166.27) Ml+s 4.75 ( 42.00 79.00) Sum of MulP: up = 18.75477 down = 9.24523 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000003 Angles 123.267840620 102.512599422 Total Orbital Moment (muB) 0.000000008 Angles 97.869660328 89.799885881 Total Moment (muB) 0.000000011 Angles 105.172913619 93.023251761 Mixing_weight= 0.300000000000 Uele = -32.742516778813 dUele = 0.000000000095 NormRD = 0.000000000854 Criterion = 0.000000000100 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Force calculation for LDA_U with dual Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.00005218 Dx Dy Dz Total -0.00005218 0.00000000 -0.00000000 Core 134.48979036 0.00000000 0.00000000 Electron -134.48984254 0.00000000 -0.00000000 Back ground -0.00000000 -0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -32.742516778813 Ukin = 82.303682352996 UH0 = -193.568713009044 UH1 = 0.056363065319 Una = -81.177801688637 Unl = -11.651520813447 Uxc0 = -13.947406205876 Uxc1 = -8.433187464582 Ucore = 51.859370402000 Uhub = 0.023954453201 Ucs = 0.000000000007 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -174.535258908063 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 25.30044 Set_OLP_Kin = 0.05381 Set_Nonlocal = 0.14869 Set_ProExpn_VNA = 0.21936 Set_Hamiltonian = 15.44859 Poisson = 1.45375 diagonalization = 0.05824 Mixing_DM = 0.01497 Force = 1.68091 Total_Energy = 0.27379 Set_Aden_Grid = 0.10882 Set_Orbitals_Grid = 0.13154 Set_Density_Grid = 3.39229 RestartFileDFT = 0.00675 Mulliken_Charge = 0.00151 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 32.474 0 32.474 readfile = 0 4.787 0 4.787 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 1.977 0 1.977 DFT = 0 25.300 0 25.300 *** In DFT *** Set_OLP_Kin = 0 0.054 0 0.054 Set_Nonlocal = 0 0.149 0 0.149 Set_ProExpn_VNA = 0 0.219 0 0.219 Set_Hamiltonian = 0 15.449 0 15.449 Poisson = 0 1.454 0 1.454 Diagonalization = 0 0.058 0 0.058 Mixing_DM = 0 0.015 0 0.015 Force = 0 1.681 0 1.681 Total_Energy = 0 0.274 0 0.274 Set_Aden_Grid = 0 0.109 0 0.109 Set_Orbitals_Grid = 0 0.132 0 0.132 Set_Density_Grid = 0 3.392 0 3.392 RestartFileDFT = 0 0.007 0 0.007 Mulliken_Charge = 0 0.002 0 0.002 FFT(2D)_Density = 0 0.000 0 0.000 Others = 0 2.307 0 2.307 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* Your input file was normally read. The system includes 2 species and 4 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species Mn were normally found. PAOs of species O were normally found. VPSs of species Mn were normally found. Mn_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species O were normally found. O_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 4 estimated weight= 4.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 190 Average FNAN= 47.50000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 56 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 55 0 CpyCell= 1 ct_AN= 3 FNAN SNAN 39 0 CpyCell= 1 ct_AN= 4 FNAN SNAN 40 0 TFNAN= 296 Average FNAN= 74.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 92 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 92 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 56 0 CpyCell= 2 ct_AN= 4 FNAN SNAN 56 0 TFNAN= 296 Average FNAN= 74.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 3 ct_AN= 1 FNAN SNAN 92 0 CpyCell= 3 ct_AN= 2 FNAN SNAN 92 0 CpyCell= 3 ct_AN= 3 FNAN SNAN 56 0 CpyCell= 3 ct_AN= 4 FNAN SNAN 56 0 TFNAN= 296 Average FNAN= 74.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 3 ct_AN= 1 FNAN SNAN 92 0 CpyCell= 3 ct_AN= 2 FNAN SNAN 92 0 CpyCell= 3 ct_AN= 3 FNAN SNAN 56 0 CpyCell= 3 ct_AN= 4 FNAN SNAN 56 0 The system is bulk. lattice vectors (bohr) A = 8.381000000000, 4.190500000000, 4.190500000000 B = 4.190500000000, 8.381000000000, 4.190500000000 C = 4.190500000000, 4.190500000000, 8.381000000000 reciprocal lattice vectors (bohr^-1) RA = 1.124540980882, -0.374846993627, -0.374846993627 RB = -0.374846993627, 1.124540980882, -0.374846993627 RC = -0.374846993627, -0.374846993627, 1.124540980882 Grid_Origin -4.819075000000 -5.866700000000 -6.914325000000 Cell_Volume = 294.345585170500 (Bohr^3) GridVol = 0.036793198146 (Bohr^3) Grid_Origin -4.819075000000 -5.866700000000 -6.914325000000 Cell_Volume = 294.345585170500 (Bohr^3) GridVol = 0.036793198146 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 8.381000000000, 4.190500000000, 4.190500000000 B = 4.190500000000, 8.381000000000, 4.190500000000 C = 4.190500000000, 4.190500000000, 8.381000000000 reciprocal lattice vectors (bohr^-1) RA = 1.124540980882, -0.374846993627, -0.374846993627 RB = -0.374846993627, 1.124540980882, -0.374846993627 RC = -0.374846993627, -0.374846993627, 1.124540980882 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 154.5613, 154.5613, 154.5613 Num. of grids of a-, b-, and c-axes = 20, 20, 20 Grid_Origin -4.819075000000 -5.866700000000 -6.914325000000 Cell_Volume = 294.345585170500 (Bohr^3) GridVol = 0.036793198146 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.419050000000, 0.209525000000, 0.209525000000 gtv_b = 0.209525000000, 0.419050000000, 0.209525000000 gtv_c = 0.209525000000, 0.209525000000, 0.419050000000 |gtv_a| = 0.513229338357 |gtv_b| = 0.513229338357 |gtv_c| = 0.513229338357 Num. of grids overlapping with atom 1 = 24591 Num. of grids overlapping with atom 2 = 24591 Num. of grids overlapping with atom 3 = 14239 Num. of grids overlapping with atom 4 = 14239 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376237 DM, time=1.169813 1 Mn MulP 8.3996 5.5151 sum 13.9147 diff 2.8845 2 Mn MulP 5.5151 8.3996 sum 13.9147 diff -2.8845 3 O MulP 3.5426 3.5426 sum 7.0853 diff 0.0000 4 O MulP 3.5426 3.5426 sum 7.0853 diff -0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000000000000 Mixing_weight= 0.010000000000 Uele = -47.446430882755 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000000100 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376172 DM, time=1.172207 1 Mn MulP 8.4006 5.5211 sum 13.9216 diff 2.8795 2 Mn MulP 5.5211 8.4006 sum 13.9216 diff -2.8795 3 O MulP 3.5392 3.5392 sum 7.0784 diff 0.0000 4 O MulP 3.5392 3.5392 sum 7.0784 diff -0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000000000000 Mixing_weight= 0.010000000000 Uele = -47.388946239837 dUele = 0.057484642918 NormRD = 1.281803641488 Criterion = 0.000000000100 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376599 DM, time=1.172391 1 Mn MulP 8.1565 6.5729 sum 14.7294 diff 1.5837 2 Mn MulP 6.5729 8.1565 sum 14.7294 diff -1.5837 3 O MulP 3.1353 3.1353 sum 6.2706 diff 0.0000 4 O MulP 3.1353 3.1353 sum 6.2706 diff -0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000000000013 Mixing_weight= 0.010000000000 Uele = -42.080880472716 dUele = 5.308065767121 NormRD = 1.855558528119 Criterion = 0.000000000100 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376045 DM, time=1.169674 1 Mn MulP 8.1531 6.5717 sum 14.7248 diff 1.5814 2 Mn MulP 6.5717 8.1531 sum 14.7248 diff -1.5814 3 O MulP 3.1376 3.1376 sum 6.2752 diff 0.0000 4 O MulP 3.1376 3.1376 sum 6.2752 diff -0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000000000012 Mixing_weight= 0.200000000000 Uele = -42.071166409714 dUele = 0.009714063002 NormRD = 1.837513443983 Criterion = 0.000000000100 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.389544 DM, time=1.174025 1 Mn MulP 7.7779 6.3316 sum 14.1095 diff 1.4463 2 Mn MulP 6.3316 7.7779 sum 14.1095 diff -1.4463 3 O MulP 3.4453 3.4453 sum 6.8905 diff 0.0000 4 O MulP 3.4453 3.4453 sum 6.8905 diff -0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000000000093 Mixing_weight= 0.200000000000 Uele = -42.388524951162 dUele = 0.317358541448 NormRD = 1.588488859012 Criterion = 0.000000000100 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.386750 DM, time=1.221605 1 Mn MulP 7.7245 6.3516 sum 14.0761 diff 1.3729 2 Mn MulP 6.3516 7.7245 sum 14.0761 diff -1.3729 3 O MulP 3.4619 3.4619 sum 6.9239 diff -0.0000 4 O MulP 3.4619 3.4619 sum 6.9239 diff -0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000000000548 Mixing_weight= 0.200000000000 Uele = -43.087402053611 dUele = 0.698877102449 NormRD = 1.272857928476 Criterion = 0.000000000100 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.386953 DM, time=1.158340 1 Mn MulP 7.6383 6.5548 sum 14.1931 diff 1.0835 2 Mn MulP 6.5548 7.6383 sum 14.1931 diff -1.0835 3 O MulP 3.4034 3.4034 sum 6.8069 diff 0.0000 4 O MulP 3.4034 3.4034 sum 6.8069 diff 0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000000027423 Mixing_weight= 0.200000000000 Uele = -44.410595020841 dUele = 1.323192967230 NormRD = 0.653325188339 Criterion = 0.000000000100 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376388 DM, time=1.170293 1 Mn MulP 7.5690 6.4535 sum 14.0225 diff 1.1155 2 Mn MulP 6.4535 7.5690 sum 14.0225 diff -1.1155 3 O MulP 3.4888 3.4888 sum 6.9775 diff -0.0000 4 O MulP 3.4888 3.4888 sum 6.9775 diff -0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000000197401 Mixing_weight= 0.200000000000 Uele = -44.108449058890 dUele = 0.302145961951 NormRD = 0.325167465641 Criterion = 0.000000000100 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376449 DM, time=1.245247 1 Mn MulP 7.5896 6.5331 sum 14.1227 diff 1.0564 2 Mn MulP 6.5331 7.5896 sum 14.1227 diff -1.0564 3 O MulP 3.4387 3.4387 sum 6.8773 diff 0.0000 4 O MulP 3.4387 3.4387 sum 6.8773 diff 0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000003180719 Mixing_weight= 0.200000000000 Uele = -44.260698992626 dUele = 0.152249933736 NormRD = 0.222909556960 Criterion = 0.000000000100 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.377288 DM, time=1.158022 1 Mn MulP 7.5561 6.5028 sum 14.0588 diff 1.0533 2 Mn MulP 6.5027 7.5561 sum 14.0588 diff -1.0534 3 O MulP 3.4706 3.4706 sum 6.9412 diff -0.0000 4 O MulP 3.4706 3.4706 sum 6.9412 diff -0.0000 Sum of MulP: up = 20.99997 down = 21.00003 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000063891570 Mixing_weight= 0.200000000000 Uele = -44.189309184730 dUele = 0.071389807896 NormRD = 0.042997325678 Criterion = 0.000000000100 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.377167 DM, time=1.182543 1 Mn MulP 7.5595 6.5171 sum 14.0766 diff 1.0424 2 Mn MulP 6.5185 7.5596 sum 14.0781 diff -1.0411 3 O MulP 3.4614 3.4613 sum 6.9226 diff 0.0001 4 O MulP 3.4614 3.4613 sum 6.9226 diff 0.0001 Sum of MulP: up = 21.00072 down = 20.99928 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.001448007330 Mixing_weight= 0.200000000000 Uele = -44.203584061333 dUele = 0.014274876603 NormRD = 0.039968644239 Criterion = 0.000000000100 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376365 DM, time=1.169624 1 Mn MulP 7.5581 6.5277 sum 14.0858 diff 1.0305 2 Mn MulP 6.5049 7.5566 sum 14.0615 diff -1.0517 3 O MulP 3.4627 3.4637 sum 6.9263 diff -0.0010 4 O MulP 3.4627 3.4637 sum 6.9263 diff -0.0010 Sum of MulP: up = 20.98837 down = 21.01163 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.023264989813 Mixing_weight= 0.200000000000 Uele = -44.193845937692 dUele = 0.009738123641 NormRD = 0.027953074375 Criterion = 0.000000000100 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.491900 DM, time=1.209368 1 Mn MulP 7.5532 6.4577 sum 14.0109 diff 1.0954 2 Mn MulP 6.5756 7.5610 sum 14.1366 diff -0.9853 3 O MulP 3.4658 3.4605 sum 6.9263 diff 0.0053 4 O MulP 3.4658 3.4605 sum 6.9263 diff 0.0053 Sum of MulP: up = 21.06039 down = 20.93961 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.120783145431 Mixing_weight= 0.200000000000 Uele = -44.193685328126 dUele = 0.000160609566 NormRD = 0.109729741421 Criterion = 0.000000000100 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.424613 DM, time=1.157823 1 Mn MulP 7.5558 6.5141 sum 14.0699 diff 1.0417 2 Mn MulP 6.5133 7.5557 sum 14.0690 diff -1.0424 3 O MulP 3.4653 3.4653 sum 6.9306 diff -0.0000 4 O MulP 3.4653 3.4653 sum 6.9306 diff -0.0000 Sum of MulP: up = 20.99961 down = 21.00039 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000787840357 Mixing_weight= 0.200000000000 Uele = -44.188467301194 dUele = 0.005218026932 NormRD = 0.004023060116 Criterion = 0.000000000100 ******************* MD= 1 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376867 DM, time=1.161768 1 Mn MulP 7.5551 6.5118 sum 14.0669 diff 1.0434 2 Mn MulP 6.5142 7.5553 sum 14.0695 diff -1.0411 3 O MulP 3.4660 3.4658 sum 6.9318 diff 0.0001 4 O MulP 3.4660 3.4658 sum 6.9318 diff 0.0001 Sum of MulP: up = 21.00125 down = 20.99875 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.002499685064 Mixing_weight= 0.200000000000 Uele = -44.187886723992 dUele = 0.000580577202 NormRD = 0.003361053420 Criterion = 0.000000000100 ******************* MD= 1 SCF=16 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376247 DM, time=1.159041 1 Mn MulP 7.5553 6.5131 sum 14.0684 diff 1.0422 2 Mn MulP 6.5129 7.5553 sum 14.0681 diff -1.0424 3 O MulP 3.4658 3.4659 sum 6.9317 diff -0.0000 4 O MulP 3.4658 3.4659 sum 6.9317 diff -0.0000 Sum of MulP: up = 20.99987 down = 21.00013 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000265366429 Mixing_weight= 0.200000000000 Uele = -44.187208155520 dUele = 0.000678568472 NormRD = 0.001261689709 Criterion = 0.000000000100 ******************* MD= 1 SCF=17 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376353 DM, time=1.161098 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5129 7.5553 sum 14.0682 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 Sum of MulP: up = 20.99997 down = 21.00003 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000060010213 Mixing_weight= 0.200000000000 Uele = -44.187409742013 dUele = 0.000201586493 NormRD = 0.000726746549 Criterion = 0.000000000100 ******************* MD= 1 SCF=18 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.377859 DM, time=1.159800 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00001 down = 20.99999 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000027097737 Mixing_weight= 0.200000000000 Uele = -44.187646157297 dUele = 0.000236415284 NormRD = 0.000119299751 Criterion = 0.000000000100 ******************* MD= 1 SCF=19 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376722 DM, time=1.158604 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00001 down = 20.99999 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000018943033 Mixing_weight= 0.200000000000 Uele = -44.187678619656 dUele = 0.000032462359 NormRD = 0.000088770364 Criterion = 0.000000000100 ******************* MD= 1 SCF=20 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376329 DM, time=1.157543 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00001 down = 20.99999 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000022374823 Mixing_weight= 0.200000000000 Uele = -44.187681060686 dUele = 0.000002441030 NormRD = 0.000104485556 Criterion = 0.000000000100 ******************* MD= 1 SCF=21 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376224 DM, time=1.158064 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00002 down = 20.99998 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000031839022 Mixing_weight= 0.200000000000 Uele = -44.187718880587 dUele = 0.000037819902 NormRD = 0.000205651714 Criterion = 0.000000000100 ******************* MD= 1 SCF=22 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376560 DM, time=1.160833 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00002 down = 20.99998 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000030961473 Mixing_weight= 0.200000000000 Uele = -44.187707990934 dUele = 0.000010889654 NormRD = 0.000163844100 Criterion = 0.000000000100 ******************* MD= 1 SCF=23 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376579 DM, time=1.158296 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000003487646 Mixing_weight= 0.200000000000 Uele = -44.187672567776 dUele = 0.000035423158 NormRD = 0.000036586746 Criterion = 0.000000000100 ******************* MD= 1 SCF=24 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376568 DM, time=1.157951 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000000783047 Mixing_weight= 0.200000000000 Uele = -44.187661427119 dUele = 0.000011140657 NormRD = 0.000002651833 Criterion = 0.000000000100 ******************* MD= 1 SCF=25 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.377953 DM, time=1.158882 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000000548315 Mixing_weight= 0.200000000000 Uele = -44.187661087076 dUele = 0.000000340043 NormRD = 0.000002865674 Criterion = 0.000000000100 ******************* MD= 1 SCF=26 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376567 DM, time=1.157787 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000000968128 Mixing_weight= 0.200000000000 Uele = -44.187661158734 dUele = 0.000000071657 NormRD = 0.000003210016 Criterion = 0.000000000100 ******************* MD= 1 SCF=27 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376388 DM, time=1.158634 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000000763005 Mixing_weight= 0.200000000000 Uele = -44.187661325773 dUele = 0.000000167040 NormRD = 0.000002982405 Criterion = 0.000000000100 ******************* MD= 1 SCF=28 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376471 DM, time=1.157792 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000000208737 Mixing_weight= 0.200000000000 Uele = -44.187661718678 dUele = 0.000000392905 NormRD = 0.000000471716 Criterion = 0.000000000100 ******************* MD= 1 SCF=29 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376343 DM, time=1.158171 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000000094411 Mixing_weight= 0.200000000000 Uele = -44.187661629575 dUele = 0.000000089103 NormRD = 0.000000226711 Criterion = 0.000000000100 ******************* MD= 1 SCF=30 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376460 DM, time=1.158121 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000000024595 Mixing_weight= 0.200000000000 Uele = -44.187661589529 dUele = 0.000000040046 NormRD = 0.000000029919 Criterion = 0.000000000100 ******************* MD= 1 SCF=31 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376333 DM, time=1.158896 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000000000988 Mixing_weight= 0.200000000000 Uele = -44.187661591820 dUele = 0.000000002291 NormRD = 0.000000006255 Criterion = 0.000000000100 ******************* MD= 1 SCF=32 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376328 DM, time=1.157152 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = 0.000000000956 Mixing_weight= 0.200000000000 Uele = -44.187661590190 dUele = 0.000000001630 NormRD = 0.000000001665 Criterion = 0.000000000100 ******************* MD= 1 SCF=33 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.377080 DM, time=1.158680 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000000000592 Mixing_weight= 0.200000000000 Uele = -44.187661589686 dUele = 0.000000000504 NormRD = 0.000000000686 Criterion = 0.000000000100 ******************* MD= 1 SCF=34 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: -0.40000 -0.20000 0.00000 0.20000 0.40000 Eigen, time=0.376945 DM, time=1.157999 1 Mn MulP 7.5553 6.5130 sum 14.0683 diff 1.0423 2 Mn MulP 6.5130 7.5553 sum 14.0683 diff -1.0423 3 O MulP 3.4659 3.4659 sum 6.9317 diff -0.0000 4 O MulP 3.4659 3.4659 sum 6.9317 diff 0.0000 Sum of MulP: up = 21.00000 down = 21.00000 total= 42.00000 ideal(neutral)= 42.00000 Total Spin Moment (muB) = -0.000000000089 Mixing_weight= 0.200000000000 Uele = -44.187661589622 dUele = 0.000000000063 NormRD = 0.000000000197 Criterion = 0.000000000100 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 40.15411378 Dx Dy Dz Total -29.31745605 -1.94882147 -27.36862655 Core 287.58223768 223.67507375 63.90716393 Electron -316.89969373 -225.62389522 -91.27579048 Back ground -0.00000000 -0.00000000 -0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -44.187661589622 Ukin = 133.166815543209 UH0 = -2588.591039340980 UH1 = 0.198260503948 Una = -135.548901047265 Unl = -4.734453863176 Uxc0 = -16.912293531321 Uxc1 = -16.912293531315 Ucore = 2386.383601473770 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -242.950303793130 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 120.13172 Set_OLP_Kin = 3.59601 Set_Nonlocal = 6.74600 Set_ProExpn_VNA = 10.09269 Set_Hamiltonian = 14.17129 Poisson = 0.03277 diagonalization = 65.84849 Mixing_DM = 1.16079 Force = 7.23166 Total_Energy = 6.45985 Set_Aden_Grid = 0.01569 Set_Orbitals_Grid = 0.03670 Set_Density_Grid = 4.72012 RestartFileDFT = 0.00145 Mulliken_Charge = 0.00892 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 128.471 0 128.471 readfile = 0 7.438 0 7.438 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 0.075 0 0.075 DFT = 0 120.132 0 120.132 *** In DFT *** Set_OLP_Kin = 0 3.596 0 3.596 Set_Nonlocal = 0 6.746 0 6.746 Set_ProExpn_VNA = 0 10.093 0 10.093 Set_Hamiltonian = 0 14.171 0 14.171 Poisson = 0 0.033 0 0.033 Diagonalization = 0 65.848 0 65.848 Mixing_DM = 0 1.161 0 1.161 Force = 0 7.232 0 7.232 Total_Energy = 0 6.460 0 6.460 Set_Aden_Grid = 0 0.016 0 0.016 Set_Orbitals_Grid = 0 0.037 0 0.037 Set_Density_Grid = 0 4.720 0 4.720 RestartFileDFT = 0 0.001 0 0.001 Mulliken_Charge = 0 0.009 0 0.009 FFT(2D)_Density = 0 0.000 0 0.000 Others = 0 0.009 0 0.009 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* Automatic determination of Kerker_factor: 0.490542671827 Your input file was normally read. The system includes 2 species and 2 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species Ga were normally found. PAOs of species As were normally found. VPSs of species Ga were normally found. Ga_PBE13.vps is j-dependent. VPSs of species As were normally found. As_PBE13.vps is j-dependent. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 94 Average FNAN= 47.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 47 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 47 0 TFNAN= 172 Average FNAN= 86.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 86 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 86 0 TFNAN= 172 Average FNAN= 86.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 3 ct_AN= 1 FNAN SNAN 86 0 CpyCell= 3 ct_AN= 2 FNAN SNAN 86 0 TFNAN= 172 Average FNAN= 86.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 3 ct_AN= 1 FNAN SNAN 86 0 CpyCell= 3 ct_AN= 2 FNAN SNAN 86 0 The system is bulk. lattice vectors (bohr) A = 5.338475917735, 5.338475917735, 0.000000000000 B = 5.338475917735, 0.000000000000, 5.338475917735 C = 0.000000000000, 5.338475917735, 5.338475917735 reciprocal lattice vectors (bohr^-1) RA = 0.588481188639, 0.588481188639, -0.588481188639 RB = 0.588481188639, -0.588481188639, 0.588481188639 RC = -0.588481188639, 0.588481188639, 0.588481188639 Grid_Origin -3.781420441729 -3.781420441729 -3.781420441729 Cell_Volume = 304.285921694952 (Bohr^3) GridVol = 0.022011423734 (Bohr^3) Grid_Origin -3.781420441729 -3.781420441729 -3.781420441729 Cell_Volume = 304.285921694952 (Bohr^3) GridVol = 0.022011423734 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 5.338475917735, 5.338475917735, 0.000000000000 B = 5.338475917735, 0.000000000000, 5.338475917735 C = 0.000000000000, 5.338475917735, 5.338475917735 reciprocal lattice vectors (bohr^-1) RA = 0.588481188639, 0.588481188639, -0.588481188639 RB = 0.588481188639, -0.588481188639, 0.588481188639 RC = -0.588481188639, 0.588481188639, 0.588481188639 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 149.6060, 149.6060, 149.6060 Num. of grids of a-, b-, and c-axes = 24, 24, 24 Grid_Origin -3.781420441729 -3.781420441729 -3.781420441729 Cell_Volume = 304.285921694952 (Bohr^3) GridVol = 0.022011423734 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.222436496572, 0.222436496572, 0.000000000000 gtv_b = 0.222436496572, 0.000000000000, 0.222436496572 gtv_c = 0.000000000000, 0.222436496572, 0.222436496572 |gtv_a| = 0.314572710219 |gtv_b| = 0.314572710219 |gtv_c| = 0.314572710219 Num. of grids overlapping with atom 1 = 65520 Num. of grids overlapping with atom 2 = 65520 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.322454 DM, time=2.708328 1 Ga MulP 6.39 6.39 sum 12.79 diff 0.00 ( 36.69 206.56) Ml 0.00 (143.30 26.57) Ml+s 0.00 (143.29 26.57) 2 As MulP 7.61 7.61 sum 15.21 diff 0.00 (143.31 26.56) Ml 0.00 (143.31 26.57) Ml+s 0.00 (143.31 26.56) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 143.297865832 26.571796344 Total Orbital Moment (muB) 0.000000001 Angles 143.300159016 26.565011457 Total Moment (muB) 0.000000001 Angles 143.300073829 26.565263533 Mixing_weight= 0.100000000000 Uele = -24.757084715321 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000000100 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.318853 DM, time=2.707151 1 Ga MulP 6.42 6.42 sum 12.84 diff 0.00 ( 33.89 203.98) Ml 0.00 (143.28 26.56) Ml+s 0.00 (142.29 27.37) 2 As MulP 7.58 7.58 sum 15.16 diff 0.00 (145.47 24.58) Ml 0.00 (143.28 26.56) Ml+s 0.00 (143.95 25.98) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 143.229274374 26.544122173 Total Orbital Moment (muB) 0.000000001 Angles 143.280425419 26.560516463 Total Moment (muB) 0.000000001 Angles 143.278368237 26.559856350 Mixing_weight= 0.108039629762 Uele = -24.772940094677 dUele = 0.015855379356 NormRD = 0.272788765867 Criterion = 0.000000000100 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.319123 DM, time=2.711931 1 Ga MulP 6.44 6.44 sum 12.88 diff 0.00 ( 30.89 201.25) Ml 0.00 (143.27 26.55) Ml+s 0.00 (141.16 28.09) 2 As MulP 7.56 7.56 sum 15.12 diff 0.00 (147.71 22.67) Ml 0.00 (143.26 26.56) Ml+s 0.00 (144.55 25.53) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 143.184475221 26.515382548 Total Orbital Moment (muB) 0.000000002 Angles 143.265933865 26.557316336 Total Moment (muB) 0.000000002 Angles 143.262440722 26.555514681 Mixing_weight= 0.385300982983 Uele = -24.791645405959 dUele = 0.018705311281 NormRD = 0.231404122543 Criterion = 0.000000000100 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.318998 DM, time=2.717423 1 Ga MulP 6.50 6.50 sum 13.01 diff 0.00 ( 24.61 192.96) Ml 0.00 (143.25 26.54) Ml+s 0.00 (138.02 29.98) 2 As MulP 7.50 7.50 sum 14.99 diff 0.00 (151.98 17.98) Ml 0.00 (143.23 26.56) Ml+s 0.00 (145.51 24.74) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 143.129096096 26.479369431 Total Orbital Moment (muB) 0.000000002 Angles 143.235699921 26.553735066 Total Moment (muB) 0.000000003 Angles 143.230152128 26.549855058 Mixing_weight= 0.050000000000 Uele = -24.857567150408 dUele = 0.065921744449 NormRD = 0.066840997268 Criterion = 0.000000000100 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.329853 DM, time=2.930630 1 Ga MulP 6.53 6.53 sum 13.06 diff 0.00 ( 15.72 74.68) Ml 0.00 (143.12 26.50) Ml+s 0.00 (124.12 32.74) 2 As MulP 7.47 7.47 sum 14.94 diff 0.00 (170.40 -39.00) Ml 0.00 (143.07 26.56) Ml+s 0.00 (150.12 22.54) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 142.548444703 26.260200371 Total Orbital Moment (muB) 0.000000003 Angles 143.088708280 26.539988419 Total Moment (muB) 0.000000003 Angles 143.057911483 26.523842096 Mixing_weight= 0.050000000000 Uele = -25.013260823153 dUele = 0.155693672744 NormRD = 0.002538264352 Criterion = 0.000000000100 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.318896 DM, time=2.744231 1 Ga MulP 6.53 6.53 sum 13.06 diff 0.00 ( 14.93 80.67) Ml 0.00 (143.13 26.50) Ml+s 0.00 (124.52 33.05) 2 As MulP 7.47 7.47 sum 14.94 diff 0.00 (169.59 -32.76) Ml 0.00 (143.09 26.56) Ml+s 0.00 (149.82 22.51) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 142.612559959 26.358097426 Total Orbital Moment (muB) 0.000000003 Angles 143.103655504 26.541397293 Total Moment (muB) 0.000000003 Angles 143.075647341 26.530828244 Mixing_weight= 0.050000000000 Uele = -25.008449228877 dUele = 0.004811594276 NormRD = 0.000419145623 Criterion = 0.000000000100 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.368142 DM, time=2.740427 1 Ga MulP 6.53 6.53 sum 13.06 diff 0.00 ( 15.50 82.13) Ml 0.00 (143.14 26.50) Ml+s 0.00 (124.68 33.38) 2 As MulP 7.47 7.47 sum 14.94 diff 0.00 (169.15 -34.02) Ml 0.00 (143.10 26.56) Ml+s 0.00 (149.80 22.30) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 142.648980090 26.402676779 Total Orbital Moment (muB) 0.000000003 Angles 143.112944316 26.541020111 Total Moment (muB) 0.000000003 Angles 143.086516891 26.533058801 Mixing_weight= 0.050000000000 Uele = -25.006828615003 dUele = 0.001620613874 NormRD = 0.000031298303 Criterion = 0.000000000100 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.339528 DM, time=2.709402 1 Ga MulP 6.53 6.53 sum 13.06 diff 0.00 ( 15.65 83.44) Ml 0.00 (143.14 26.50) Ml+s 0.00 (124.82 33.54) 2 As MulP 7.47 7.47 sum 14.94 diff 0.00 (168.86 -33.73) Ml 0.00 (143.10 26.56) Ml+s 0.00 (149.74 22.22) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 142.657095217 26.407561767 Total Orbital Moment (muB) 0.000000003 Angles 143.115786160 26.540820965 Total Moment (muB) 0.000000003 Angles 143.089672531 26.533157117 Mixing_weight= 0.050000000000 Uele = -25.006834211009 dUele = 0.000005596006 NormRD = 0.000001114738 Criterion = 0.000000000100 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.319098 DM, time=2.706934 1 Ga MulP 6.53 6.53 sum 13.06 diff 0.00 ( 15.65 83.79) Ml 0.00 (143.14 26.50) Ml+s 0.00 (124.86 33.56) 2 As MulP 7.47 7.47 sum 14.94 diff 0.00 (168.80 -33.52) Ml 0.00 (143.10 26.56) Ml+s 0.00 (149.72 22.20) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 142.665623244 26.407264979 Total Orbital Moment (muB) 0.000000003 Angles 143.115708860 26.540763400 Total Moment (muB) 0.000000003 Angles 143.090080074 26.533085678 Mixing_weight= 0.050000000000 Uele = -25.006831906779 dUele = 0.000002304230 NormRD = 0.000000240971 Criterion = 0.000000000100 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.321215 DM, time=2.708398 1 Ga MulP 6.53 6.53 sum 13.06 diff 0.00 ( 15.64 83.89) Ml 0.00 (143.14 26.50) Ml+s 0.00 (124.87 33.57) 2 As MulP 7.47 7.47 sum 14.94 diff 0.00 (168.79 -33.42) Ml 0.00 (143.10 26.56) Ml+s 0.00 (149.72 22.20) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 142.660427921 26.407612596 Total Orbital Moment (muB) 0.000000003 Angles 143.115754412 26.540746901 Total Moment (muB) 0.000000003 Angles 143.089830628 26.533090284 Mixing_weight= 0.050000000000 Uele = -25.006831994246 dUele = 0.000000087468 NormRD = 0.000000015057 Criterion = 0.000000000100 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.318505 DM, time=2.710354 1 Ga MulP 6.53 6.53 sum 13.06 diff 0.00 ( 15.63 83.94) Ml 0.00 (143.14 26.50) Ml+s 0.00 (124.87 33.57) 2 As MulP 7.47 7.47 sum 14.94 diff 0.00 (168.78 -33.39) Ml 0.00 (143.10 26.56) Ml+s 0.00 (149.72 22.20) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 142.667034531 26.407188063 Total Orbital Moment (muB) 0.000000003 Angles 143.115736467 26.540761697 Total Moment (muB) 0.000000003 Angles 143.090186407 26.533079854 Mixing_weight= 0.050000000000 Uele = -25.006832071157 dUele = 0.000000076911 NormRD = 0.000000001342 Criterion = 0.000000000100 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.321338 DM, time=2.706964 1 Ga MulP 6.53 6.53 sum 13.06 diff 0.00 ( 15.63 83.95) Ml 0.00 (143.14 26.50) Ml+s 0.00 (124.88 33.57) 2 As MulP 7.47 7.47 sum 14.94 diff 0.00 (168.78 -33.38) Ml 0.00 (143.10 26.56) Ml+s 0.00 (149.71 22.20) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 142.666021557 26.407368170 Total Orbital Moment (muB) 0.000000003 Angles 143.115734747 26.540753573 Total Moment (muB) 0.000000003 Angles 143.090127574 26.533082534 Mixing_weight= 0.050000000000 Uele = -25.006832075151 dUele = 0.000000003994 NormRD = 0.000000000282 Criterion = 0.000000000100 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.341772 DM, time=2.713301 1 Ga MulP 6.53 6.53 sum 13.06 diff 0.00 ( 15.63 83.95) Ml 0.00 (143.14 26.50) Ml+s 0.00 (124.87 33.57) 2 As MulP 7.47 7.47 sum 14.94 diff 0.00 (168.78 -33.37) Ml 0.00 (143.10 26.56) Ml+s 0.00 (149.71 22.20) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 142.666794609 26.407334615 Total Orbital Moment (muB) 0.000000003 Angles 143.115742761 26.540750674 Total Moment (muB) 0.000000003 Angles 143.090178824 26.533077899 Mixing_weight= 0.050000000000 Uele = -25.006832076288 dUele = 0.000000001136 NormRD = 0.000000000003 Criterion = 0.000000000100 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=1.320196 DM, time=2.762953 1 Ga MulP 6.53 6.53 sum 13.06 diff 0.00 ( 15.63 83.95) Ml 0.00 (143.14 26.50) Ml+s 0.00 (124.87 33.57) 2 As MulP 7.47 7.47 sum 14.94 diff 0.00 (168.78 -33.37) Ml 0.00 (143.10 26.56) Ml+s 0.00 (149.71 22.20) Sum of MulP: up = 14.00000 down = 14.00000 total= 28.00000 ideal(neutral)= 28.00000 Total Spin Moment (muB) 0.000000000 Angles 142.665070577 26.407582379 Total Orbital Moment (muB) 0.000000003 Angles 143.115744819 26.540747513 Total Moment (muB) 0.000000003 Angles 143.090083448 26.533089147 Mixing_weight= 0.050000000000 Uele = -25.006832076279 dUele = 0.000000000009 NormRD = 0.000000000000 Criterion = 0.000000000100 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.88168887 Dx Dy Dz Total -0.50904330 -0.50904330 -0.50904330 Core 101.76794404 101.76794404 101.76794404 Electron -102.27698735 -102.27698735 -102.27698735 Back ground -0.00000000 -0.00000000 -0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -25.006832076279 Ukin = 188.308711806913 UH0 = -1800.873200360719 UH1 = 0.005892510372 Una = -121.370569258998 Unl = -60.390728538011 Uxc0 = -16.544959312003 Uxc1 = -16.544959235992 Ucore = 1644.494082264319 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -182.915730124120 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 111.97795 Set_OLP_Kin = 2.13197 Set_Nonlocal = 7.87922 Set_ProExpn_VNA = 6.33112 Set_Hamiltonian = 12.97941 Poisson = 0.01125 diagonalization = 57.05750 Mixing_DM = 0.12252 Force = 14.43021 Total_Energy = 4.32680 Set_Aden_Grid = 0.03599 Set_Orbitals_Grid = 0.06076 Set_Density_Grid = 6.45832 RestartFileDFT = 0.00271 Mulliken_Charge = 0.00443 FFT(2D)_Density = 0.03234 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 122.592 0 122.592 readfile = 0 9.148 0 9.148 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 0.093 0 0.093 DFT = 0 111.978 0 111.978 *** In DFT *** Set_OLP_Kin = 0 2.132 0 2.132 Set_Nonlocal = 0 7.879 0 7.879 Set_ProExpn_VNA = 0 6.331 0 6.331 Set_Hamiltonian = 0 12.979 0 12.979 Poisson = 0 0.011 0 0.011 Diagonalization = 0 57.057 0 57.057 Mixing_DM = 0 0.123 0 0.123 Force = 0 14.430 0 14.430 Total_Energy = 0 4.327 0 4.327 Set_Aden_Grid = 0 0.036 0 0.036 Set_Orbitals_Grid = 0 0.061 0 0.061 Set_Density_Grid = 0 6.458 0 6.458 RestartFileDFT = 0 0.003 0 0.003 Mulliken_Charge = 0 0.004 0 0.004 FFT(2D)_Density = 0 0.032 0 0.032 Others = 0 0.113 0 0.113 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* automatically determied UnitCell(Ang.) from atomic positions and Rc of PAOs (margin= 10.00%) 9.835284 0.000000 0.000000 0.000000 10.020619 0.000000 0.000000 0.000000 8.546322 widened unit cell to fit energy cutoff (Ang.) A = 10.200355 0.000000 0.000000 (80) B = 0.000000 10.200355 0.000000 (80) C = 0.000000 0.000000 8.925311 (70) Automatic determination of Kerker_factor: 1.812821005457 Your input file was normally read. The system includes 4 species and 10 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species H were normally found. PAOs of species C were normally found. PAOs of species N were normally found. PAOs of species O were normally found. VPSs of species H were normally found. H_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species C were normally found. C_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species N were normally found. N_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species O were normally found. O_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 10 estimated weight= 10.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 90 Average FNAN= 9.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 9 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 9 0 CpyCell= 1 ct_AN= 3 FNAN SNAN 9 0 CpyCell= 1 ct_AN= 4 FNAN SNAN 9 0 CpyCell= 1 ct_AN= 5 FNAN SNAN 9 0 CpyCell= 1 ct_AN= 6 FNAN SNAN 9 0 CpyCell= 1 ct_AN= 7 FNAN SNAN 9 0 CpyCell= 1 ct_AN= 8 FNAN SNAN 9 0 CpyCell= 1 ct_AN= 9 FNAN SNAN 9 0 CpyCell= 1 ct_AN= 10 FNAN SNAN 9 0 TFNAN= 90 Average FNAN= 9.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 4 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 5 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 6 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 7 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 8 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 9 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 10 FNAN SNAN 9 0 TFNAN= 90 Average FNAN= 9.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 4 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 5 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 6 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 7 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 8 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 9 FNAN SNAN 9 0 CpyCell= 2 ct_AN= 10 FNAN SNAN 9 0 The system is molecule. lattice vectors (bohr) A = 19.275875902519, 0.000000000000, 0.000000000000 B = 0.000000000000, 19.275875902519, 0.000000000000 C = 0.000000000000, 0.000000000000, 16.866391414704 reciprocal lattice vectors (bohr^-1) RA = 0.325961078965, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.325961078965, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.372526947389 Grid_Origin -9.517463726869 -9.517463348923 -8.312721671934 Cell_Volume = 6266.866136064820 (Bohr^3) GridVol = 0.013988540482 (Bohr^3) Grid_Origin -9.517463726869 -9.517463348923 -8.312721671934 Cell_Volume = 6266.866136064820 (Bohr^3) GridVol = 0.013988540482 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 19.275875902519, 0.000000000000, 0.000000000000 B = 0.000000000000, 19.275875902519, 0.000000000000 C = 0.000000000000, 0.000000000000, 16.866391414704 reciprocal lattice vectors (bohr^-1) RA = 0.325961078965, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.325961078965, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.372526947389 Required cutoff energy (Ryd) for 3D-grids = 170.0000 Used cutoff energy (Ryd) for 3D-grids = 170.0010, 170.0010, 170.0010 Num. of grids of a-, b-, and c-axes = 80, 80, 70 Grid_Origin -9.517463726869 -9.517463348923 -8.312721671934 Cell_Volume = 6266.866136064820 (Bohr^3) GridVol = 0.013988540482 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.240948448781, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.240948448781, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.240948448781 |gtv_a| = 0.240948448781 |gtv_b| = 0.240948448781 |gtv_c| = 0.240948448781 Num. of grids overlapping with atom 1 = 37419 Num. of grids overlapping with atom 2 = 37432 Num. of grids overlapping with atom 3 = 37439 Num. of grids overlapping with atom 4 = 37427 Num. of grids overlapping with atom 5 = 37404 Num. of grids overlapping with atom 6 = 37425 Num. of grids overlapping with atom 7 = 37443 Num. of grids overlapping with atom 8 = 37413 Num. of grids overlapping with atom 9 = 37427 Num. of grids overlapping with atom 10 = 37434 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... 1 C MulP 1.8241 1.8241 sum 3.6483 2 C MulP 1.1642 1.1642 sum 2.3284 3 O MulP 3.5072 3.5072 sum 7.0144 4 N MulP 3.1315 3.1315 sum 6.2629 5 H MulP 0.4946 0.4946 sum 0.9893 6 H MulP 0.4943 0.4943 sum 0.9886 7 O MulP 3.6013 3.6013 sum 7.2025 8 H MulP 0.2221 0.2221 sum 0.4441 9 H MulP 0.2802 0.2802 sum 0.5604 10 H MulP 0.2806 0.2806 sum 0.5611 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.100000000000 Uele = -16.248989074259 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000000100 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 1.9161 1.9161 sum 3.8322 2 C MulP 1.3046 1.3046 sum 2.6092 3 O MulP 3.4548 3.4548 sum 6.9096 4 N MulP 3.0613 3.0613 sum 6.1226 5 H MulP 0.4639 0.4639 sum 0.9278 6 H MulP 0.4670 0.4670 sum 0.9339 7 O MulP 3.5098 3.5098 sum 7.0197 8 H MulP 0.2329 0.2329 sum 0.4658 9 H MulP 0.2944 0.2944 sum 0.5888 10 H MulP 0.2952 0.2952 sum 0.5904 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.013793373902 Uele = -16.187736167957 dUele = 0.061252906302 NormRD = 2.499971568959 Criterion = 0.000000000100 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 1.9248 1.9248 sum 3.8496 2 C MulP 1.3191 1.3191 sum 2.6382 3 O MulP 3.4493 3.4493 sum 6.8986 4 N MulP 3.0544 3.0544 sum 6.1088 5 H MulP 0.4610 0.4610 sum 0.9220 6 H MulP 0.4643 0.4643 sum 0.9287 7 O MulP 3.5003 3.5003 sum 7.0007 8 H MulP 0.2341 0.2341 sum 0.4683 9 H MulP 0.2958 0.2958 sum 0.5917 10 H MulP 0.2967 0.2967 sum 0.5934 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.200000000000 Uele = -16.177409830010 dUele = 0.010326337947 NormRD = 2.440633506586 Criterion = 0.000000000100 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.0499 2.0499 sum 4.0997 2 C MulP 1.5443 1.5443 sum 3.0885 3 O MulP 3.3710 3.3710 sum 6.7420 4 N MulP 2.9554 2.9554 sum 5.9109 5 H MulP 0.4201 0.4201 sum 0.8403 6 H MulP 0.4283 0.4283 sum 0.8565 7 O MulP 3.3451 3.3451 sum 6.6903 8 H MulP 0.2516 0.2516 sum 0.5032 9 H MulP 0.3165 0.3165 sum 0.6329 10 H MulP 0.3178 0.3178 sum 0.6356 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.200000000000 Uele = -16.057865653726 dUele = 0.119544176283 NormRD = 1.621101739937 Criterion = 0.000000000100 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.1268 2.1268 sum 4.2536 2 C MulP 1.6800 1.6800 sum 3.3600 3 O MulP 3.3213 3.3213 sum 6.6426 4 N MulP 2.8968 2.8968 sum 5.7936 5 H MulP 0.3952 0.3952 sum 0.7903 6 H MulP 0.4067 0.4067 sum 0.8135 7 O MulP 3.2533 3.2533 sum 6.5066 8 H MulP 0.2622 0.2622 sum 0.5244 9 H MulP 0.3282 0.3282 sum 0.6563 10 H MulP 0.3295 0.3295 sum 0.6591 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.073154107681 dUele = 0.015288453954 NormRD = 1.165092379308 Criterion = 0.000000000100 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2287 2.2287 sum 4.4574 2 C MulP 1.7590 1.7590 sum 3.5179 3 O MulP 3.2203 3.2203 sum 6.4406 4 N MulP 2.8161 2.8161 sum 5.6322 5 H MulP 0.3585 0.3585 sum 0.7170 6 H MulP 0.3749 0.3749 sum 0.7497 7 O MulP 3.2803 3.2803 sum 6.5606 8 H MulP 0.2753 0.2753 sum 0.5506 9 H MulP 0.3437 0.3437 sum 0.6874 10 H MulP 0.3433 0.3433 sum 0.6866 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.605760164717 dUele = 0.532606057036 NormRD = 0.385112129790 Criterion = 0.000000000100 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2254 2.2254 sum 4.4509 2 C MulP 1.7314 1.7314 sum 3.4628 3 O MulP 3.2600 3.2600 sum 6.5200 4 N MulP 2.8179 2.8179 sum 5.6359 5 H MulP 0.3609 0.3609 sum 0.7218 6 H MulP 0.3748 0.3748 sum 0.7496 7 O MulP 3.2701 3.2701 sum 6.5401 8 H MulP 0.2713 0.2713 sum 0.5427 9 H MulP 0.3447 0.3447 sum 0.6894 10 H MulP 0.3435 0.3435 sum 0.6870 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.609798371528 dUele = 0.004038206812 NormRD = 0.370678463916 Criterion = 0.000000000100 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2398 2.2398 sum 4.4796 2 C MulP 1.8397 1.8397 sum 3.6793 3 O MulP 3.2487 3.2487 sum 6.4974 4 N MulP 2.8157 2.8157 sum 5.6314 5 H MulP 0.3546 0.3546 sum 0.7092 6 H MulP 0.3705 0.3705 sum 0.7409 7 O MulP 3.1726 3.1726 sum 6.3453 8 H MulP 0.2741 0.2741 sum 0.5482 9 H MulP 0.3430 0.3430 sum 0.6860 10 H MulP 0.3414 0.3414 sum 0.6828 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.586752944497 dUele = 0.023045427031 NormRD = 0.077763231665 Criterion = 0.000000000100 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2404 2.2404 sum 4.4808 2 C MulP 1.8243 1.8243 sum 3.6486 3 O MulP 3.2445 3.2445 sum 6.4890 4 N MulP 2.8114 2.8114 sum 5.6227 5 H MulP 0.3552 0.3552 sum 0.7105 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1906 3.1906 sum 6.3812 8 H MulP 0.2745 0.2745 sum 0.5490 9 H MulP 0.3444 0.3444 sum 0.6888 10 H MulP 0.3427 0.3427 sum 0.6854 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.585488977788 dUele = 0.001263966709 NormRD = 0.018552750111 Criterion = 0.000000000100 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2393 2.2393 sum 4.4786 2 C MulP 1.8261 1.8261 sum 3.6522 3 O MulP 3.2444 3.2444 sum 6.4888 4 N MulP 2.8136 2.8136 sum 5.6271 5 H MulP 0.3554 0.3554 sum 0.7107 6 H MulP 0.3720 0.3720 sum 0.7441 7 O MulP 3.1889 3.1889 sum 6.3778 8 H MulP 0.2745 0.2745 sum 0.5491 9 H MulP 0.3438 0.3438 sum 0.6876 10 H MulP 0.3420 0.3420 sum 0.6841 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.591890611626 dUele = 0.006401633838 NormRD = 0.002305892214 Criterion = 0.000000000100 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2394 2.2394 sum 4.4788 2 C MulP 1.8266 1.8266 sum 3.6532 3 O MulP 3.2444 3.2444 sum 6.4887 4 N MulP 2.8131 2.8131 sum 5.6263 5 H MulP 0.3553 0.3553 sum 0.7107 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1886 3.1886 sum 6.3771 8 H MulP 0.2745 0.2745 sum 0.5490 9 H MulP 0.3439 0.3439 sum 0.6878 10 H MulP 0.3422 0.3422 sum 0.6843 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.592453744180 dUele = 0.000563132554 NormRD = 0.000456886915 Criterion = 0.000000000100 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2395 2.2395 sum 4.4790 2 C MulP 1.8266 1.8266 sum 3.6531 3 O MulP 3.2443 3.2443 sum 6.4886 4 N MulP 2.8132 2.8132 sum 5.6264 5 H MulP 0.3553 0.3553 sum 0.7106 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1886 3.1886 sum 6.3772 8 H MulP 0.2745 0.2745 sum 0.5491 9 H MulP 0.3439 0.3439 sum 0.6878 10 H MulP 0.3421 0.3421 sum 0.6843 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.592673678182 dUele = 0.000219934002 NormRD = 0.000126507674 Criterion = 0.000000000100 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2394 2.2394 sum 4.4789 2 C MulP 1.8266 1.8266 sum 3.6531 3 O MulP 3.2443 3.2443 sum 6.4887 4 N MulP 2.8132 2.8132 sum 5.6264 5 H MulP 0.3553 0.3553 sum 0.7106 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1886 3.1886 sum 6.3772 8 H MulP 0.2745 0.2745 sum 0.5491 9 H MulP 0.3439 0.3439 sum 0.6878 10 H MulP 0.3421 0.3421 sum 0.6843 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.592653320766 dUele = 0.000020357416 NormRD = 0.000034464028 Criterion = 0.000000000100 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2394 2.2394 sum 4.4789 2 C MulP 1.8266 1.8266 sum 3.6531 3 O MulP 3.2443 3.2443 sum 6.4887 4 N MulP 2.8132 2.8132 sum 5.6264 5 H MulP 0.3553 0.3553 sum 0.7106 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1886 3.1886 sum 6.3772 8 H MulP 0.2745 0.2745 sum 0.5491 9 H MulP 0.3439 0.3439 sum 0.6878 10 H MulP 0.3421 0.3421 sum 0.6843 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.592675743027 dUele = 0.000022422262 NormRD = 0.000004931521 Criterion = 0.000000000100 ******************* MD= 1 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2394 2.2394 sum 4.4789 2 C MulP 1.8266 1.8266 sum 3.6531 3 O MulP 3.2443 3.2443 sum 6.4887 4 N MulP 2.8132 2.8132 sum 5.6264 5 H MulP 0.3553 0.3553 sum 0.7106 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1886 3.1886 sum 6.3772 8 H MulP 0.2745 0.2745 sum 0.5491 9 H MulP 0.3439 0.3439 sum 0.6878 10 H MulP 0.3421 0.3421 sum 0.6843 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.592673058192 dUele = 0.000002684835 NormRD = 0.000001348064 Criterion = 0.000000000100 ******************* MD= 1 SCF=16 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2394 2.2394 sum 4.4789 2 C MulP 1.8266 1.8266 sum 3.6531 3 O MulP 3.2443 3.2443 sum 6.4887 4 N MulP 2.8132 2.8132 sum 5.6264 5 H MulP 0.3553 0.3553 sum 0.7106 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1886 3.1886 sum 6.3772 8 H MulP 0.2745 0.2745 sum 0.5491 9 H MulP 0.3439 0.3439 sum 0.6878 10 H MulP 0.3421 0.3421 sum 0.6843 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.592673347289 dUele = 0.000000289097 NormRD = 0.000000174135 Criterion = 0.000000000100 ******************* MD= 1 SCF=17 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2394 2.2394 sum 4.4789 2 C MulP 1.8266 1.8266 sum 3.6531 3 O MulP 3.2443 3.2443 sum 6.4887 4 N MulP 2.8132 2.8132 sum 5.6264 5 H MulP 0.3553 0.3553 sum 0.7106 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1886 3.1886 sum 6.3772 8 H MulP 0.2745 0.2745 sum 0.5491 9 H MulP 0.3439 0.3439 sum 0.6878 10 H MulP 0.3421 0.3421 sum 0.6843 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.592673289205 dUele = 0.000000058084 NormRD = 0.000000029698 Criterion = 0.000000000100 ******************* MD= 1 SCF=18 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2394 2.2394 sum 4.4789 2 C MulP 1.8266 1.8266 sum 3.6531 3 O MulP 3.2443 3.2443 sum 6.4887 4 N MulP 2.8132 2.8132 sum 5.6264 5 H MulP 0.3553 0.3553 sum 0.7106 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1886 3.1886 sum 6.3772 8 H MulP 0.2745 0.2745 sum 0.5491 9 H MulP 0.3439 0.3439 sum 0.6878 10 H MulP 0.3421 0.3421 sum 0.6843 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.592673269484 dUele = 0.000000019721 NormRD = 0.000000009809 Criterion = 0.000000000100 ******************* MD= 1 SCF=19 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2394 2.2394 sum 4.4789 2 C MulP 1.8266 1.8266 sum 3.6531 3 O MulP 3.2443 3.2443 sum 6.4887 4 N MulP 2.8132 2.8132 sum 5.6264 5 H MulP 0.3553 0.3553 sum 0.7106 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1886 3.1886 sum 6.3772 8 H MulP 0.2745 0.2745 sum 0.5491 9 H MulP 0.3439 0.3439 sum 0.6878 10 H MulP 0.3421 0.3421 sum 0.6843 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.592673281902 dUele = 0.000000012418 NormRD = 0.000000001783 Criterion = 0.000000000100 ******************* MD= 1 SCF=20 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2394 2.2394 sum 4.4789 2 C MulP 1.8266 1.8266 sum 3.6531 3 O MulP 3.2443 3.2443 sum 6.4887 4 N MulP 2.8132 2.8132 sum 5.6264 5 H MulP 0.3553 0.3553 sum 0.7106 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1886 3.1886 sum 6.3772 8 H MulP 0.2745 0.2745 sum 0.5491 9 H MulP 0.3439 0.3439 sum 0.6878 10 H MulP 0.3421 0.3421 sum 0.6843 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.592673281403 dUele = 0.000000000499 NormRD = 0.000000000231 Criterion = 0.000000000100 ******************* MD= 1 SCF=21 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.2394 2.2394 sum 4.4789 2 C MulP 1.8266 1.8266 sum 3.6531 3 O MulP 3.2443 3.2443 sum 6.4887 4 N MulP 2.8132 2.8132 sum 5.6264 5 H MulP 0.3553 0.3553 sum 0.7106 6 H MulP 0.3720 0.3720 sum 0.7440 7 O MulP 3.1886 3.1886 sum 6.3772 8 H MulP 0.2745 0.2745 sum 0.5491 9 H MulP 0.3439 0.3439 sum 0.6878 10 H MulP 0.3421 0.3421 sum 0.6843 Sum of MulP: up = 15.00000 down = 15.00000 total= 30.00000 ideal(neutral)= 30.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.020000000000 Uele = -16.592673281476 dUele = 0.000000000073 NormRD = 0.000000000012 Criterion = 0.000000000100 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 1.64091870 Dx Dy Dz Total -0.84978567 -0.47765370 1.31997175 Core 52.30611990 -19.89965695 -18.94716183 Electron -53.15590557 19.42200325 20.26713358 Back ground 0.00000000 -0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -16.592673281476 Ukin = 40.401553344527 UH0 = -144.142599850953 UH1 = 0.336294152990 Una = -43.586120737268 Unl = 6.167545195960 Uxc0 = -7.920048475369 Uxc1 = -7.920048475369 Ucore = 99.950365047936 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -56.713059797547 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 18.50782 Set_OLP_Kin = 0.22316 Set_Nonlocal = 0.45151 Set_ProExpn_VNA = 0.58290 Set_Hamiltonian = 9.70982 Poisson = 0.47975 diagonalization = 0.02630 Mixing_DM = 1.74101 Force = 1.43058 Total_Energy = 2.55783 Set_Aden_Grid = 0.06571 Set_Orbitals_Grid = 0.13706 Set_Density_Grid = 0.65911 RestartFileDFT = 0.00219 Mulliken_Charge = 0.00196 FFT(2D)_Density = 0.39999 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 33.011 0 33.011 readfile = 0 13.088 0 13.088 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 0.880 0 0.880 DFT = 0 18.508 0 18.508 *** In DFT *** Set_OLP_Kin = 0 0.223 0 0.223 Set_Nonlocal = 0 0.452 0 0.452 Set_ProExpn_VNA = 0 0.583 0 0.583 Set_Hamiltonian = 0 9.710 0 9.710 Poisson = 0 0.480 0 0.480 Diagonalization = 0 0.026 0 0.026 Mixing_DM = 0 1.741 0 1.741 Force = 0 1.431 0 1.431 Total_Energy = 0 2.558 0 2.558 Set_Aden_Grid = 0 0.066 0 0.066 Set_Orbitals_Grid = 0 0.137 0 0.137 Set_Density_Grid = 0 0.659 0 0.659 RestartFileDFT = 0 0.002 0 0.002 Mulliken_Charge = 0 0.002 0 0.002 FFT(2D)_Density = 0 0.400 0 0.400 Others = 0 0.039 0 0.039 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* Your input file was normally read. The system includes 1 species and 4 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species C were normally found. VPSs of species C were normally found. C_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 4 estimated weight= 4.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 112 Average FNAN= 28.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 28 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 28 0 CpyCell= 1 ct_AN= 3 FNAN SNAN 28 0 CpyCell= 1 ct_AN= 4 FNAN SNAN 28 0 TFNAN= 144 Average FNAN= 36.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 36 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 36 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 36 0 CpyCell= 2 ct_AN= 4 FNAN SNAN 36 0 TFNAN= 144 Average FNAN= 36.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 3 ct_AN= 1 FNAN SNAN 36 0 CpyCell= 3 ct_AN= 2 FNAN SNAN 36 0 CpyCell= 3 ct_AN= 3 FNAN SNAN 36 0 CpyCell= 3 ct_AN= 4 FNAN SNAN 36 0 TFNAN= 144 Average FNAN= 36.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 3 ct_AN= 1 FNAN SNAN 36 0 CpyCell= 3 ct_AN= 2 FNAN SNAN 36 0 CpyCell= 3 ct_AN= 3 FNAN SNAN 36 0 CpyCell= 3 ct_AN= 4 FNAN SNAN 36 0 The system is slab. lattice vectors (bohr) A = 8.050232711346, 0.000000000000, 0.000000000000 B = 0.000000000000, 4.647804022935, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.897259885789 reciprocal lattice vectors (bohr^-1) RA = 0.780497351129, 0.000000000000, 0.000000000000 RB = 0.000000000000, 1.351861067329, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.332491871581 Grid_Origin -1.215920565776 -1.032845407758 -9.322648210323 Cell_Volume = 707.058061397437 (Bohr^3) GridVol = 0.016367084755 (Bohr^3) Grid_Origin -1.215920565776 -1.032845407758 -9.322648210323 Cell_Volume = 707.058061397437 (Bohr^3) GridVol = 0.016367084755 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 8.050232711346, 0.000000000000, 0.000000000000 B = 0.000000000000, 4.647804022935, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.897259885789 reciprocal lattice vectors (bohr^-1) RA = 0.780497351129, 0.000000000000, 0.000000000000 RB = 0.000000000000, 1.351861067329, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.332491871581 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 155.9491, 148.0298, 155.4621 Num. of grids of a-, b-, and c-axes = 32, 18, 75 Grid_Origin -1.215920565776 -1.032845407758 -9.322648210323 Cell_Volume = 707.058061397437 (Bohr^3) GridVol = 0.016367084755 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.251569772230, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.258211334607, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.251963465144 |gtv_a| = 0.251569772230 |gtv_b| = 0.258211334607 |gtv_c| = 0.251963465144 Num. of grids overlapping with atom 1 = 31988 Num. of grids overlapping with atom 2 = 31988 Num. of grids overlapping with atom 3 = 31988 Num. of grids overlapping with atom 4 = 31988 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028265 DM, time=0.032034 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.010000000000 Uele = -6.143694467938 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000001000 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028155 DM, time=0.032089 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -6.147300911221 dUele = 0.003606443283 NormRD = 0.825378479221 Criterion = 0.000000001000 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028183 DM, time=0.032058 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.961858684594 dUele = 1.814557773373 NormRD = 0.176574055137 Criterion = 0.000000001000 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028126 DM, time=0.032041 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.961938002217 dUele = 0.000079317623 NormRD = 0.176226329309 Criterion = 0.000000001000 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028168 DM, time=0.032075 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.960369177592 dUele = 0.001568824625 NormRD = 0.175738707802 Criterion = 0.000000001000 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028130 DM, time=0.032038 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.958804688379 dUele = 0.001564489213 NormRD = 0.175252435751 Criterion = 0.000000001000 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028205 DM, time=0.032039 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.394319351880 dUele = 0.564485336499 NormRD = 0.002281732146 Criterion = 0.000000001000 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028083 DM, time=0.032091 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.397202526631 dUele = 0.002883174751 NormRD = 0.000508818904 Criterion = 0.000000001000 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028184 DM, time=0.032081 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.395840216758 dUele = 0.001362309874 NormRD = 0.000137287520 Criterion = 0.000000001000 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028178 DM, time=0.032056 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.395619446378 dUele = 0.000220770380 NormRD = 0.000031706771 Criterion = 0.000000001000 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028173 DM, time=0.032053 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.395545819373 dUele = 0.000073627005 NormRD = 0.000000206410 Criterion = 0.000000001000 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028123 DM, time=0.032061 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.395546285871 dUele = 0.000000466498 NormRD = 0.000000002076 Criterion = 0.000000001000 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028156 DM, time=0.032045 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.395546281058 dUele = 0.000000004814 NormRD = 0.000000001440 Criterion = 0.000000001000 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.40000 -0.20000 0.00000 0.20000 0.40000 KGrids2: -0.40000 -0.20000 -0.00000 0.20000 0.40000 KGrids3: 0.00000 Eigen, time=0.028205 DM, time=0.032189 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 3 C MulP 2.0000 2.0000 sum 4.0000 4 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 8.00000 down = 8.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.002000000000 Uele = -7.395546281125 dUele = 0.000000000067 NormRD = 0.000000000057 Criterion = 0.000000001000 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.00004515 Dx Dy Dz Total -0.00004144 -0.00001794 0.00000000 Core 109.12885846 47.25417904 0.00000000 Electron -109.12889990 -47.25419698 0.00000000 Back ground -0.00000000 -0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -7.395546281125 Ukin = 16.946666857951 UH0 = -205.149225762336 UH1 = 0.050889696413 Una = -11.516265701442 Unl = -2.244592973846 Uxc0 = -3.886833893789 Uxc1 = -3.886833893789 Ucore = 186.366267826204 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -23.319927844636 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 12.77222 Set_OLP_Kin = 0.84159 Set_Nonlocal = 2.35165 Set_ProExpn_VNA = 2.00648 Set_Hamiltonian = 1.72980 Poisson = 0.05248 diagonalization = 0.85635 Mixing_DM = 0.00848 Force = 1.16255 Total_Energy = 3.10962 Set_Aden_Grid = 0.02076 Set_Orbitals_Grid = 0.05265 Set_Density_Grid = 0.57381 RestartFileDFT = 0.00083 Mulliken_Charge = 0.00119 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 17.038 0 17.038 readfile = 0 3.583 0 3.583 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 0.101 0 0.101 DFT = 0 12.772 0 12.772 *** In DFT *** Set_OLP_Kin = 0 0.842 0 0.842 Set_Nonlocal = 0 2.352 0 2.352 Set_ProExpn_VNA = 0 2.006 0 2.006 Set_Hamiltonian = 0 1.730 0 1.730 Poisson = 0 0.052 0 0.052 Diagonalization = 0 0.856 0 0.856 Mixing_DM = 0 0.008 0 0.008 Force = 0 1.163 0 1.163 Total_Energy = 0 3.110 0 3.110 Set_Aden_Grid = 0 0.021 0 0.021 Set_Orbitals_Grid = 0 0.053 0 0.053 Set_Density_Grid = 0 0.574 0 0.574 RestartFileDFT = 0 0.001 0 0.001 Mulliken_Charge = 0 0.001 0 0.001 FFT(2D)_Density = 0 0.000 0 0.000 Others = 0 0.004 0 0.004 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* Automatic determination of Kerker_factor: 1.503796160858 direction (x, y, z) = 0.00000 1.00000 0.00000 magnitude (10^9 V/m) = 1.00000 Your input file was normally read. The system includes 2 species and 3 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species H were normally found. PAOs of species O were normally found. VPSs of species H were normally found. H_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species O were normally found. O_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 3 estimated weight= 3.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 6 Average FNAN= 2.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 2 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 2 0 CpyCell= 1 ct_AN= 3 FNAN SNAN 2 0 TFNAN= 6 Average FNAN= 2.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 2 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 2 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 2 0 TFNAN= 6 Average FNAN= 2.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 2 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 2 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 2 0 The system is molecule. lattice vectors (bohr) A = 18.897259885789, 0.000000000000, 0.000000000000 B = 0.000000000000, 18.897259885789, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.897259885789 reciprocal lattice vectors (bohr^-1) RA = 0.332491871581, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.332491871581, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.332491871581 Grid_Origin -9.322648210323 -8.584395257451 -9.322648210323 Cell_Volume = 6748.333037104149 (Bohr^3) GridVol = 0.015996048681 (Bohr^3) Grid_Origin -9.322648210323 -8.584395257451 -9.322648210323 Cell_Volume = 6748.333037104149 (Bohr^3) GridVol = 0.015996048681 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 18.897259885789, 0.000000000000, 0.000000000000 B = 0.000000000000, 18.897259885789, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.897259885789 reciprocal lattice vectors (bohr^-1) RA = 0.332491871581, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.332491871581, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.332491871581 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 155.4621, 155.4621, 155.4621 Num. of grids of a-, b-, and c-axes = 75, 75, 75 Grid_Origin -9.322648210323 -8.584395257451 -9.322648210323 Cell_Volume = 6748.333037104149 (Bohr^3) GridVol = 0.015996048681 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.251963465144, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.251963465144, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.251963465144 |gtv_a| = 0.251963465144 |gtv_b| = 0.251963465144 |gtv_c| = 0.251963465144 Num. of grids overlapping with atom 1 = 56559 Num. of grids overlapping with atom 2 = 56556 Num. of grids overlapping with atom 3 = 56556 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... 1 O MulP 3.5901 3.5901 sum 7.1801 2 H MulP 0.2050 0.2050 sum 0.4099 3 H MulP 0.2050 0.2050 sum 0.4099 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.100000000000 Uele = -5.201025196541 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000000100 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.5245 3.5245 sum 7.0490 2 H MulP 0.2377 0.2377 sum 0.4755 3 H MulP 0.2377 0.2377 sum 0.4755 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.600000000000 Uele = -4.971430093084 dUele = 0.229595103458 NormRD = 0.922886475235 Criterion = 0.000000000100 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1942 3.1942 sum 6.3885 2 H MulP 0.4029 0.4029 sum 0.8058 3 H MulP 0.4029 0.4029 sum 0.8058 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.600000000000 Uele = -4.082363915237 dUele = 0.889066177847 NormRD = 0.566751570739 Criterion = 0.000000000100 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3644 3.3644 sum 6.7288 2 H MulP 0.3178 0.3178 sum 0.6356 3 H MulP 0.3178 0.3178 sum 0.6356 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.600000000000 Uele = -4.469164668368 dUele = 0.386800753131 NormRD = 0.218356350957 Criterion = 0.000000000100 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2720 3.2720 sum 6.5439 2 H MulP 0.3640 0.3640 sum 0.7280 3 H MulP 0.3640 0.3640 sum 0.7280 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.600000000000 Uele = -4.230153141544 dUele = 0.239011526824 NormRD = 0.146052221756 Criterion = 0.000000000100 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3217 3.3217 sum 6.6433 2 H MulP 0.3392 0.3392 sum 0.6783 3 H MulP 0.3392 0.3392 sum 0.6783 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060000000000 Uele = -4.342825274865 dUele = 0.112672133321 NormRD = 0.062342130180 Criterion = 0.000000000100 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3032 3.3032 sum 6.6063 2 H MulP 0.3484 0.3484 sum 0.6968 3 H MulP 0.3484 0.3484 sum 0.6968 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060000000000 Uele = -4.290395331362 dUele = 0.052429943503 NormRD = 0.002849704511 Criterion = 0.000000000100 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3036 3.3036 sum 6.6072 2 H MulP 0.3482 0.3482 sum 0.6964 3 H MulP 0.3482 0.3482 sum 0.6964 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060000000000 Uele = -4.290802442454 dUele = 0.000407111092 NormRD = 0.000745486041 Criterion = 0.000000000100 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3038 3.3038 sum 6.6075 2 H MulP 0.3481 0.3481 sum 0.6962 3 H MulP 0.3481 0.3481 sum 0.6962 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060000000000 Uele = -4.290762500440 dUele = 0.000039942013 NormRD = 0.000043194136 Criterion = 0.000000000100 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3037 3.3037 sum 6.6075 2 H MulP 0.3481 0.3481 sum 0.6963 3 H MulP 0.3481 0.3481 sum 0.6963 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060000000000 Uele = -4.290743223922 dUele = 0.000019276519 NormRD = 0.000001611618 Criterion = 0.000000000100 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3037 3.3037 sum 6.6075 2 H MulP 0.3481 0.3481 sum 0.6963 3 H MulP 0.3481 0.3481 sum 0.6963 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060000000000 Uele = -4.290741978281 dUele = 0.000001245641 NormRD = 0.000000042662 Criterion = 0.000000000100 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3037 3.3037 sum 6.6075 2 H MulP 0.3481 0.3481 sum 0.6963 3 H MulP 0.3481 0.3481 sum 0.6963 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060000000000 Uele = -4.290741973435 dUele = 0.000000004845 NormRD = 0.000000011380 Criterion = 0.000000000100 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3037 3.3037 sum 6.6075 2 H MulP 0.3481 0.3481 sum 0.6963 3 H MulP 0.3481 0.3481 sum 0.6963 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060000000000 Uele = -4.290741981163 dUele = 0.000000007728 NormRD = 0.000000000355 Criterion = 0.000000000100 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3037 3.3037 sum 6.6075 2 H MulP 0.3481 0.3481 sum 0.6963 3 H MulP 0.3481 0.3481 sum 0.6963 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060000000000 Uele = -4.290741981281 dUele = 0.000000000118 NormRD = 0.000000000008 Criterion = 0.000000000100 ******************* MD= 1 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3037 3.3037 sum 6.6075 2 H MulP 0.3481 0.3481 sum 0.6963 3 H MulP 0.3481 0.3481 sum 0.6963 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.060000000000 Uele = -4.290741981282 dUele = 0.000000000001 NormRD = 0.000000000001 Criterion = 0.000000000100 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 1.90035331 Dx Dy Dz Total -0.00000000 1.90035331 -0.00000000 Core 0.00000000 5.62935837 0.00000000 Electron -0.00000000 -3.72900506 -0.00000000 Back ground 0.00000000 -0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -4.290741981282 Ukin = 12.550889115279 UH0 = -20.135991826795 UH1 = 0.049256795503 Una = -15.734867849695 Unl = 3.434191232528 Uxc0 = -2.261589100408 Uxc1 = -2.261589100408 Ucore = 6.982816022051 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = -0.008632438268 UvdW = 0.000000000000 Utot = -17.385517150213 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 9.38931 Set_OLP_Kin = 0.04076 Set_Nonlocal = 0.03870 Set_ProExpn_VNA = 0.18093 Set_Hamiltonian = 6.02732 Poisson = 0.31511 diagonalization = 0.00839 Mixing_DM = 1.04617 Force = 0.65229 Total_Energy = 0.45376 Set_Aden_Grid = 0.03393 Set_Orbitals_Grid = 0.06615 Set_Density_Grid = 0.20775 RestartFileDFT = 0.00135 Mulliken_Charge = 0.00071 FFT(2D)_Density = 0.28122 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 17.195 0 17.195 readfile = 0 6.737 0 6.737 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 0.830 0 0.830 DFT = 0 9.389 0 9.389 *** In DFT *** Set_OLP_Kin = 0 0.041 0 0.041 Set_Nonlocal = 0 0.039 0 0.039 Set_ProExpn_VNA = 0 0.181 0 0.181 Set_Hamiltonian = 0 6.027 0 6.027 Poisson = 0 0.315 0 0.315 Diagonalization = 0 0.008 0 0.008 Mixing_DM = 0 1.046 0 1.046 Force = 0 0.652 0 0.652 Total_Energy = 0 0.454 0 0.454 Set_Aden_Grid = 0 0.034 0 0.034 Set_Orbitals_Grid = 0 0.066 0 0.066 Set_Density_Grid = 0 0.208 0 0.208 RestartFileDFT = 0 0.001 0 0.001 Mulliken_Charge = 0 0.001 0 0.001 FFT(2D)_Density = 0 0.281 0 0.281 Others = 0 0.035 0 0.035 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* automatically determied UnitCell(Ang.) from atomic positions and Rc of PAOs (margin= 10.00%) 8.650540 0.000000 0.000000 0.000000 7.629740 0.000000 0.000000 0.000000 6.985140 widened unit cell to fit energy cutoff (Ang.) A = 8.687282 0.000000 0.000000 (64) B = 0.000000 8.144327 0.000000 (60) C = 0.000000 0.000000 7.329894 (54) Your input file was normally read. The system includes 2 species and 3 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species H were normally found. PAOs of species O were normally found. VPSs of species H were normally found. H_CA13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species O were normally found. O_CA13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 3 estimated weight= 3.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 6 Average FNAN= 2.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 2 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 2 0 CpyCell= 1 ct_AN= 3 FNAN SNAN 2 0 TFNAN= 6 Average FNAN= 2.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 2 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 2 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 2 0 TFNAN= 6 Average FNAN= 2.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 2 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 2 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 2 0 The system is molecule. lattice vectors (bohr) A = 16.416583104219, 0.000000000000, 0.000000000000 B = 0.000000000000, 15.390546660206, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.851491994185 reciprocal lattice vectors (bohr^-1) RA = 0.382734048084, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.408249651289, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.453610723655 Grid_Origin -8.080036996608 -6.828765821730 -6.797491441591 Cell_Volume = 3499.720575024560 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Grid_Origin -8.080036996608 -6.828765821730 -6.797491441591 Cell_Volume = 3499.720575024560 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 16.416583104219, 0.000000000000, 0.000000000000 B = 0.000000000000, 15.390546660206, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.851491994185 reciprocal lattice vectors (bohr^-1) RA = 0.382734048084, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.408249651289, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.453610723655 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 150.0010, 150.0010, 150.0010 Num. of grids of a-, b-, and c-axes = 64, 60, 54 Grid_Origin -8.080036996608 -6.828765821730 -6.797491441591 Cell_Volume = 3499.720575024560 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.256509111003, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.256509111003, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.256509111003 |gtv_a| = 0.256509111003 |gtv_b| = 0.256509111003 |gtv_c| = 0.256509111003 Num. of grids overlapping with atom 1 = 53496 Num. of grids overlapping with atom 2 = 53612 Num. of grids overlapping with atom 3 = 53612 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... 1 O MulP 3.5838 3.5838 sum 7.1677 2 H MulP 0.2081 0.2081 sum 0.4162 3 H MulP 0.2081 0.2081 sum 0.4162 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.100000000000 Uele = -5.178671411001 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000000100 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3635 3.3635 sum 6.7271 2 H MulP 0.3182 0.3182 sum 0.6365 3 H MulP 0.3182 0.3182 sum 0.6365 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.313207069647 Uele = -4.478565347767 dUele = 0.700106063235 NormRD = 0.825059031093 Criterion = 0.000000000100 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.1710 3.1710 sum 6.3420 2 H MulP 0.4145 0.4145 sum 0.8290 3 H MulP 0.4145 0.4145 sum 0.8290 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.002202802493 dUele = 0.476362545274 NormRD = 0.457154952149 Criterion = 0.000000000100 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.0580 3.0580 sum 6.1160 2 H MulP 0.4710 0.4710 sum 0.9420 3 H MulP 0.4710 0.4710 sum 0.9420 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -3.781376356590 dUele = 0.220826445903 NormRD = 0.379246615570 Criterion = 0.000000000100 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3416 3.3416 sum 6.6832 2 H MulP 0.3292 0.3292 sum 0.6584 3 H MulP 0.3292 0.3292 sum 0.6584 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.417478625260 dUele = 0.636102268670 NormRD = 0.058753056119 Criterion = 0.000000000100 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2953 3.2953 sum 6.5905 2 H MulP 0.3524 0.3524 sum 0.7047 3 H MulP 0.3524 0.3524 sum 0.7047 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.292761983598 dUele = 0.124716641662 NormRD = 0.022753249050 Criterion = 0.000000000100 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2949 3.2949 sum 6.5897 2 H MulP 0.3526 0.3526 sum 0.7051 3 H MulP 0.3526 0.3526 sum 0.7051 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.283417267909 dUele = 0.009344715690 NormRD = 0.010544734322 Criterion = 0.000000000100 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3002 3.3002 sum 6.6004 2 H MulP 0.3499 0.3499 sum 0.6998 3 H MulP 0.3499 0.3499 sum 0.6998 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.294930357104 dUele = 0.011513089195 NormRD = 0.000298704076 Criterion = 0.000000000100 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3002 3.3002 sum 6.6004 2 H MulP 0.3499 0.3499 sum 0.6998 3 H MulP 0.3499 0.3499 sum 0.6998 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.294873051397 dUele = 0.000057305706 NormRD = 0.000032264623 Criterion = 0.000000000100 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3002 3.3002 sum 6.6005 2 H MulP 0.3499 0.3499 sum 0.6998 3 H MulP 0.3499 0.3499 sum 0.6998 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.294943122351 dUele = 0.000070070953 NormRD = 0.000001908479 Criterion = 0.000000000100 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3002 3.3002 sum 6.6005 2 H MulP 0.3499 0.3499 sum 0.6998 3 H MulP 0.3499 0.3499 sum 0.6998 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.294945591883 dUele = 0.000002469532 NormRD = 0.000000238258 Criterion = 0.000000000100 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3002 3.3002 sum 6.6005 2 H MulP 0.3499 0.3499 sum 0.6998 3 H MulP 0.3499 0.3499 sum 0.6998 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.294945333199 dUele = 0.000000258683 NormRD = 0.000000012263 Criterion = 0.000000000100 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3002 3.3002 sum 6.6005 2 H MulP 0.3499 0.3499 sum 0.6998 3 H MulP 0.3499 0.3499 sum 0.6998 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.294945308717 dUele = 0.000000024482 NormRD = 0.000000000085 Criterion = 0.000000000100 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3002 3.3002 sum 6.6005 2 H MulP 0.3499 0.3499 sum 0.6998 3 H MulP 0.3499 0.3499 sum 0.6998 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.294945308584 dUele = 0.000000000133 NormRD = 0.000000000001 Criterion = 0.000000000100 ******************* MD= 1 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.3002 3.3002 sum 6.6005 2 H MulP 0.3499 0.3499 sum 0.6998 3 H MulP 0.3499 0.3499 sum 0.6998 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.294945308585 dUele = 0.000000000001 NormRD = 0.000000000000 Criterion = 0.000000000100 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 1.94275568 Dx Dy Dz Total -0.00000000 1.94275568 -0.00000000 Core 0.00000000 5.62935837 0.00000000 Electron -0.00000000 -3.68660269 -0.00000000 Back ground -0.00000000 -0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -4.294945308585 Ukin = 12.539346497161 UH0 = -20.135991826795 UH1 = 0.048769426940 Una = -15.707493896776 Unl = 3.365929069121 Uxc0 = -2.214126112615 Uxc1 = -2.214126112615 Ucore = 6.982816022051 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -17.334876933527 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 2.03700 Set_OLP_Kin = 0.04013 Set_Nonlocal = 0.03872 Set_ProExpn_VNA = 0.18556 Set_Hamiltonian = 0.35150 Poisson = 0.22787 diagonalization = 0.00785 Mixing_DM = 0.00066 Force = 0.61171 Total_Energy = 0.30350 Set_Aden_Grid = 0.02760 Set_Orbitals_Grid = 0.05956 Set_Density_Grid = 0.17622 RestartFileDFT = 0.00084 Mulliken_Charge = 0.00074 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* SD_scaling= 1.259817324332 |Maximum force| (Hartree/Bohr) = 0.090802720388 Criterion (Hartree/Bohr) = 0.000000000000 atom= 1, XYZ(ang) Fxyz(a.u.)= 0.0000 -0.0585 -0.0000 -0.0000 0.0877 0.0000 atom= 2, XYZ(ang) Fxyz(a.u.)= 0.8102 0.6149 -0.0000 -0.0798 -0.0433 0.0000 atom= 3, XYZ(ang) Fxyz(a.u.)= -0.8102 0.6149 0.0000 0.0798 -0.0433 -0.0000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* ******************************************************* Allocation of atoms to proccesors at MD_iter= 2 ******************************************************* proc = 0 # of atoms= 3 estimated weight= 3.00000 TFNAN= 6 Average FNAN= 2.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 2 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 2 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 2 0 Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 16.416583104219, 0.000000000000, 0.000000000000 B = 0.000000000000, 15.390546660206, 0.000000000000 C = 0.000000000000, 0.000000000000, 13.851491994185 reciprocal lattice vectors (bohr^-1) RA = 0.382734048084, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.408249651289, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.453610723655 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 150.0010, 150.0010, 150.0010 Num. of grids of a-, b-, and c-axes = 64, 60, 54 Cell_Volume = 3499.720575024560 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.256509111003, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.256509111003, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.256509111003 |gtv_a| = 0.256509111003 |gtv_b| = 0.256509111003 |gtv_c| = 0.256509111003 Num. of grids overlapping with atom 1 = 53616 Num. of grids overlapping with atom 2 = 53606 Num. of grids overlapping with atom 3 = 53606 ******************************************************* SCF calculation at MD = 2 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 2 SCF= 1 ******************* Found restart files Poisson's equation using FFT... Solving the eigenvalue problem... 1 O MulP 3.1993 3.1993 sum 6.3986 2 H MulP 0.4003 0.4003 sum 0.8007 3 H MulP 0.4003 0.4003 sum 0.8007 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -3.957206161686 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000000100 ******************* MD= 2 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.4029 3.4029 sum 6.8059 2 H MulP 0.2985 0.2985 sum 0.5971 3 H MulP 0.2985 0.2985 sum 0.5971 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.433873440822 dUele = 0.476667279136 NormRD = 0.203676157684 Criterion = 0.000000000100 ******************* MD= 2 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2422 3.2422 sum 6.4844 2 H MulP 0.3789 0.3789 sum 0.7578 3 H MulP 0.3789 0.3789 sum 0.7578 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.059343689054 dUele = 0.374529751768 NormRD = 0.044943400423 Criterion = 0.000000000100 ******************* MD= 2 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2755 3.2755 sum 6.5509 2 H MulP 0.3623 0.3623 sum 0.7245 3 H MulP 0.3623 0.3623 sum 0.7245 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.128771379687 dUele = 0.069427690633 NormRD = 0.008896903716 Criterion = 0.000000000100 ******************* MD= 2 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2676 3.2676 sum 6.5352 2 H MulP 0.3662 0.3662 sum 0.7324 3 H MulP 0.3662 0.3662 sum 0.7324 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.110212700800 dUele = 0.018558678887 NormRD = 0.004278494523 Criterion = 0.000000000100 ******************* MD= 2 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2680 3.2680 sum 6.5360 2 H MulP 0.3660 0.3660 sum 0.7320 3 H MulP 0.3660 0.3660 sum 0.7320 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.109226148178 dUele = 0.000986552622 NormRD = 0.001503526955 Criterion = 0.000000000100 ******************* MD= 2 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2690 3.2690 sum 6.5379 2 H MulP 0.3655 0.3655 sum 0.7310 3 H MulP 0.3655 0.3655 sum 0.7310 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.111556447413 dUele = 0.002330299235 NormRD = 0.000140650748 Criterion = 0.000000000100 ******************* MD= 2 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2691 3.2691 sum 6.5381 2 H MulP 0.3655 0.3655 sum 0.7309 3 H MulP 0.3655 0.3655 sum 0.7309 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.111747755382 dUele = 0.000191307969 NormRD = 0.000002202727 Criterion = 0.000000000100 ******************* MD= 2 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2690 3.2690 sum 6.5381 2 H MulP 0.3655 0.3655 sum 0.7310 3 H MulP 0.3655 0.3655 sum 0.7310 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.111745698950 dUele = 0.000002056432 NormRD = 0.000000082959 Criterion = 0.000000000100 ******************* MD= 2 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2690 3.2690 sum 6.5381 2 H MulP 0.3655 0.3655 sum 0.7310 3 H MulP 0.3655 0.3655 sum 0.7310 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.111745581555 dUele = 0.000000117396 NormRD = 0.000000006815 Criterion = 0.000000000100 ******************* MD= 2 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2690 3.2690 sum 6.5381 2 H MulP 0.3655 0.3655 sum 0.7310 3 H MulP 0.3655 0.3655 sum 0.7310 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.111745590846 dUele = 0.000000009291 NormRD = 0.000000000380 Criterion = 0.000000000100 ******************* MD= 2 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2690 3.2690 sum 6.5381 2 H MulP 0.3655 0.3655 sum 0.7310 3 H MulP 0.3655 0.3655 sum 0.7310 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.111745591436 dUele = 0.000000000590 NormRD = 0.000000000004 Criterion = 0.000000000100 ******************* MD= 2 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 O MulP 3.2690 3.2690 sum 6.5381 2 H MulP 0.3655 0.3655 sum 0.7310 3 H MulP 0.3655 0.3655 sum 0.7310 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.111745591430 dUele = 0.000000000006 NormRD = 0.000000000000 Criterion = 0.000000000100 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 1.97377856 Dx Dy Dz Total -0.00000000 1.97377856 -0.00000000 Core 0.00000000 4.22092276 -0.00000000 Electron -0.00000000 -2.24714420 0.00000000 Back ground -0.00000000 -0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 2 ******************************************************* Uele = -4.111745591430 Ukin = 12.244505522644 UH0 = -19.813198680550 UH1 = 0.046092839486 Una = -15.159152078736 Unl = 3.336295797663 Uxc0 = -2.178548677656 Uxc1 = -2.178548677656 Ucore = 6.354236414148 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -17.348317540656 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 2 ******************************************************* DFT in total = 1.92564 Set_OLP_Kin = 0.03487 Set_Nonlocal = 0.03891 Set_ProExpn_VNA = 0.18468 Set_Hamiltonian = 0.30660 Poisson = 0.21453 diagonalization = 0.00639 Mixing_DM = 0.00061 Force = 0.61260 Total_Energy = 0.27775 Set_Aden_Grid = 0.02738 Set_Orbitals_Grid = 0.05994 Set_Density_Grid = 0.15472 RestartFileDFT = 0.00253 Mulliken_Charge = 0.00056 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 2 ******************************************************* SD_scaling= 1.259817324332 |Maximum force| (Hartree/Bohr) = 0.015503107047 Criterion (Hartree/Bohr) = 0.000000000000 atom= 1, XYZ(ang) Fxyz(a.u.)= 0.0000 -0.0585 -0.0000 0.0000 -0.0155 -0.0000 atom= 2, XYZ(ang) Fxyz(a.u.)= 0.8102 0.6149 -0.0000 -0.0082 0.0074 -0.0000 atom= 3, XYZ(ang) Fxyz(a.u.)= -0.8102 0.6149 0.0000 0.0082 0.0074 -0.0000 outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 11.411 0 11.411 readfile = 0 6.743 0 6.743 truncation = 0 0.000 0 0.000 MD_pac = 0 0.001 0 0.001 OutData = 0 0.393 0 0.393 DFT = 0 3.963 0 3.963 *** In DFT *** Set_OLP_Kin = 0 0.075 0 0.075 Set_Nonlocal = 0 0.078 0 0.078 Set_ProExpn_VNA = 0 0.370 0 0.370 Set_Hamiltonian = 0 0.658 0 0.658 Poisson = 0 0.442 0 0.442 Diagonalization = 0 0.014 0 0.014 Mixing_DM = 0 0.001 0 0.001 Force = 0 1.224 0 1.224 Total_Energy = 0 0.581 0 0.581 Set_Aden_Grid = 0 0.055 0 0.055 Set_Orbitals_Grid = 0 0.119 0 0.119 Set_Density_Grid = 0 0.331 0 0.331 RestartFileDFT = 0 0.003 0 0.003 Mulliken_Charge = 0 0.001 0 0.001 FFT(2D)_Density = 0 0.000 0 0.000 Others = 0 0.008 0 0.008 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* automatically determied UnitCell(Ang.) from atomic positions and Rc of PAOs (margin= 10.00%) 9.313520 0.000000 0.000000 0.000000 9.313520 0.000000 0.000000 0.000000 9.313520 widened unit cell to fit energy cutoff (Ang.) A = 9.865718 0.000000 0.000000 (90) B = 0.000000 9.865718 0.000000 (90) C = 0.000000 0.000000 9.865718 (90) Automatic determination of Kerker_factor: 1.483602839920 Your input file was normally read. The system includes 2 species and 2 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species Mn were normally found. PAOs of species H were normally found. VPSs of species Mn were normally found. Mn_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species H were normally found. H_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 The system is molecule. lattice vectors (bohr) A = 18.643503130956, 0.000000000000, 0.000000000000 B = 0.000000000000, 18.643503130956, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.643503130956 reciprocal lattice vectors (bohr^-1) RA = 0.337017419046, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.337017419046, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.337017419046 Grid_Origin -7.800882056650 -9.123690248655 -9.407149146942 Cell_Volume = 6480.112714637663 (Bohr^3) GridVol = 0.008889043504 (Bohr^3) Grid_Origin -7.800882056650 -9.123690248655 -9.407149146942 Cell_Volume = 6480.112714637663 (Bohr^3) GridVol = 0.008889043504 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 18.643503130956, 0.000000000000, 0.000000000000 B = 0.000000000000, 18.643503130956, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.643503130956 reciprocal lattice vectors (bohr^-1) RA = 0.337017419046, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.337017419046, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.337017419046 Required cutoff energy (Ryd) for 3D-grids = 230.0000 Used cutoff energy (Ryd) for 3D-grids = 230.0010, 230.0010, 230.0010 Num. of grids of a-, b-, and c-axes = 90, 90, 90 Grid_Origin -7.800882056650 -9.123690248655 -9.407149146942 Cell_Volume = 6480.112714637663 (Bohr^3) GridVol = 0.008889043504 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.207150034788, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.207150034788, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.207150034788 |gtv_a| = 0.207150034788 |gtv_b| = 0.207150034788 |gtv_c| = 0.207150034788 Num. of grids overlapping with atom 1 = 241229 Num. of grids overlapping with atom 2 = 58928 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... 1 Mn MulP 8.9258 5.7646 sum 14.6903 diff 3.1612 2 H MulP 0.6580 0.6517 sum 1.3097 diff 0.0063 Sum of MulP: up = 9.58374 down = 6.41626 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 3.167486307032 Mixing_weight= 0.030000000000 Uele = -20.569563373567 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000000100 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.1778 5.4687 sum 14.6464 diff 3.7091 2 H MulP 0.6859 0.6677 sum 1.3536 diff 0.0182 Sum of MulP: up = 9.86366 down = 6.13634 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 3.727316202455 Mixing_weight= 0.030000000000 Uele = -20.322132688163 dUele = 0.247430685404 NormRD = 5.996124409979 Criterion = 0.000000000100 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.2738 5.3574 sum 14.6312 diff 3.9164 2 H MulP 0.6901 0.6787 sum 1.3688 diff 0.0114 Sum of MulP: up = 9.96389 down = 6.03611 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 3.927788771751 Mixing_weight= 0.030000000000 Uele = -20.137247887765 dUele = 0.184884800399 NormRD = 6.080677713902 Criterion = 0.000000000100 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.3041 5.3212 sum 14.6253 diff 3.9829 2 H MulP 0.6873 0.6874 sum 1.3747 diff -0.0000 Sum of MulP: up = 9.99143 down = 6.00857 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 3.982866370753 Mixing_weight= 0.600000000000 Uele = -19.969818754166 dUele = 0.167429133599 NormRD = 5.973779742553 Criterion = 0.000000000100 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.2899 5.1810 sum 14.4709 diff 4.1089 2 H MulP 0.7101 0.8190 sum 1.5291 diff -0.1089 Sum of MulP: up = 9.99998 down = 6.00002 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 3.999962590220 Mixing_weight= 0.600000000000 Uele = -16.982007024823 dUele = 2.987811729342 NormRD = 4.549231037580 Criterion = 0.000000000100 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.5760 5.5047 sum 15.0807 diff 4.0713 2 H MulP 0.4240 0.4953 sum 0.9193 diff -0.0713 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 3.999998962803 Mixing_weight= 0.600000000000 Uele = -20.091650289752 dUele = 3.109643264928 NormRD = 2.886710223226 Criterion = 0.000000000100 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.3315 5.2013 sum 14.5327 diff 4.1302 2 H MulP 0.6685 0.7987 sum 1.4673 diff -0.1302 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000013929 Mixing_weight= 0.600000000000 Uele = -17.710689234063 dUele = 2.380961055689 NormRD = 1.956507193515 Criterion = 0.000000000100 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.5436 5.4302 sum 14.9737 diff 4.1134 2 H MulP 0.4564 0.5698 sum 1.0263 diff -0.1134 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 3.999999999499 Mixing_weight= 0.060000000000 Uele = -19.631034219121 dUele = 1.920344985058 NormRD = 1.153312756532 Criterion = 0.000000000100 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4711 5.3235 sum 14.7946 diff 4.1476 2 H MulP 0.5289 0.6765 sum 1.2054 diff -0.1476 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000000377 Mixing_weight= 0.060000000000 Uele = -18.837101839450 dUele = 0.793932379671 NormRD = 0.387505553247 Criterion = 0.000000000100 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4821 5.3015 sum 14.7836 diff 4.1806 2 H MulP 0.5179 0.6985 sum 1.2164 diff -0.1806 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000007656 Mixing_weight= 0.060000000000 Uele = -18.795005023820 dUele = 0.042096815630 NormRD = 0.115534489515 Criterion = 0.000000000100 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4869 5.3061 sum 14.7930 diff 4.1808 2 H MulP 0.5131 0.6939 sum 1.2070 diff -0.1808 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000005432 Mixing_weight= 0.060000000000 Uele = -18.859609829168 dUele = 0.064604805348 NormRD = 0.032683295992 Criterion = 0.000000000100 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4904 5.3040 sum 14.7944 diff 4.1864 2 H MulP 0.5096 0.6960 sum 1.2056 diff -0.1864 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006334 Mixing_weight= 0.060000000000 Uele = -18.865807794185 dUele = 0.006197965017 NormRD = 0.008765502290 Criterion = 0.000000000100 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4906 5.3027 sum 14.7933 diff 4.1879 2 H MulP 0.5094 0.6973 sum 1.2067 diff -0.1879 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006584 Mixing_weight= 0.060000000000 Uele = -18.862952492908 dUele = 0.002855301277 NormRD = 0.002154831276 Criterion = 0.000000000100 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4909 5.3026 sum 14.7935 diff 4.1884 2 H MulP 0.5091 0.6974 sum 1.2065 diff -0.1884 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006439 Mixing_weight= 0.060000000000 Uele = -18.863237780082 dUele = 0.000285287175 NormRD = 0.000730394074 Criterion = 0.000000000100 ******************* MD= 1 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4910 5.3025 sum 14.7935 diff 4.1885 2 H MulP 0.5090 0.6975 sum 1.2065 diff -0.1885 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006423 Mixing_weight= 0.060000000000 Uele = -18.863273605474 dUele = 0.000035825391 NormRD = 0.000300290780 Criterion = 0.000000000100 ******************* MD= 1 SCF=16 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4910 5.3025 sum 14.7935 diff 4.1885 2 H MulP 0.5090 0.6975 sum 1.2065 diff -0.1885 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006419 Mixing_weight= 0.060000000000 Uele = -18.863316632368 dUele = 0.000043026895 NormRD = 0.000146128615 Criterion = 0.000000000100 ******************* MD= 1 SCF=17 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4910 5.3025 sum 14.7935 diff 4.1885 2 H MulP 0.5090 0.6975 sum 1.2065 diff -0.1885 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006421 Mixing_weight= 0.060000000000 Uele = -18.863285401023 dUele = 0.000031231345 NormRD = 0.000052578150 Criterion = 0.000000000100 ******************* MD= 1 SCF=18 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4910 5.3025 sum 14.7935 diff 4.1885 2 H MulP 0.5090 0.6975 sum 1.2065 diff -0.1885 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006422 Mixing_weight= 0.060000000000 Uele = -18.863274716784 dUele = 0.000010684239 NormRD = 0.000006063147 Criterion = 0.000000000100 ******************* MD= 1 SCF=19 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4910 5.3025 sum 14.7935 diff 4.1885 2 H MulP 0.5090 0.6975 sum 1.2065 diff -0.1885 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006422 Mixing_weight= 0.060000000000 Uele = -18.863272833551 dUele = 0.000001883233 NormRD = 0.000001481589 Criterion = 0.000000000100 ******************* MD= 1 SCF=20 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4910 5.3025 sum 14.7935 diff 4.1885 2 H MulP 0.5090 0.6975 sum 1.2065 diff -0.1885 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006422 Mixing_weight= 0.060000000000 Uele = -18.863273000778 dUele = 0.000000167227 NormRD = 0.000000502782 Criterion = 0.000000000100 ******************* MD= 1 SCF=21 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4910 5.3025 sum 14.7935 diff 4.1885 2 H MulP 0.5090 0.6975 sum 1.2065 diff -0.1885 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006422 Mixing_weight= 0.060000000000 Uele = -18.863273087877 dUele = 0.000000087099 NormRD = 0.000000127030 Criterion = 0.000000000100 ******************* MD= 1 SCF=22 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4910 5.3025 sum 14.7935 diff 4.1885 2 H MulP 0.5090 0.6975 sum 1.2065 diff -0.1885 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006422 Mixing_weight= 0.060000000000 Uele = -18.863273117573 dUele = 0.000000029696 NormRD = 0.000000025232 Criterion = 0.000000000100 ******************* MD= 1 SCF=23 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4910 5.3025 sum 14.7935 diff 4.1885 2 H MulP 0.5090 0.6975 sum 1.2065 diff -0.1885 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006422 Mixing_weight= 0.060000000000 Uele = -18.863273124395 dUele = 0.000000006822 NormRD = 0.000000003840 Criterion = 0.000000000100 ******************* MD= 1 SCF=24 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4910 5.3025 sum 14.7935 diff 4.1885 2 H MulP 0.5090 0.6975 sum 1.2065 diff -0.1885 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006422 Mixing_weight= 0.060000000000 Uele = -18.863273125359 dUele = 0.000000000964 NormRD = 0.000000000020 Criterion = 0.000000000100 ******************* MD= 1 SCF=25 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4910 5.3025 sum 14.7935 diff 4.1885 2 H MulP 0.5090 0.6975 sum 1.2065 diff -0.1885 Sum of MulP: up = 10.00000 down = 6.00000 total= 16.00000 ideal(neutral)= 16.00000 Total Spin Moment (muB) = 4.000000006422 Mixing_weight= 0.060000000000 Uele = -18.863273125315 dUele = 0.000000000044 NormRD = 0.000000000185 Criterion = 0.000000000100 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 2.30243206 Dx Dy Dz Total -2.27693208 -0.15251331 0.30579959 Core 7.20481020 0.48032068 -0.96064136 Electron -9.48174228 -0.63283399 1.26644095 Back ground -0.00000000 -0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -18.863273125315 Ukin = 56.962796847851 UH0 = -92.616830894566 UH1 = 0.035947335156 Una = -55.934932230323 Unl = -5.920011155045 Uxc0 = -8.191279150747 Uxc1 = -4.952484374236 Ucore = 5.233937174339 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -105.382856447571 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 48.37353 Set_OLP_Kin = 0.06782 Set_Nonlocal = 0.05471 Set_ProExpn_VNA = 0.61702 Set_Hamiltonian = 26.20953 Poisson = 0.91746 diagonalization = 0.02812 Mixing_DM = 8.33934 Force = 1.46346 Total_Energy = 0.73127 Set_Aden_Grid = 0.06064 Set_Orbitals_Grid = 0.12572 Set_Density_Grid = 2.26766 RestartFileDFT = 0.00451 Mulliken_Charge = 0.00122 FFT(2D)_Density = 1.40207 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 59.285 0 59.285 readfile = 0 7.653 0 7.653 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 2.817 0 2.817 DFT = 0 48.374 0 48.374 *** In DFT *** Set_OLP_Kin = 0 0.068 0 0.068 Set_Nonlocal = 0 0.055 0 0.055 Set_ProExpn_VNA = 0 0.617 0 0.617 Set_Hamiltonian = 0 26.210 0 26.210 Poisson = 0 0.917 0 0.917 Diagonalization = 0 0.028 0 0.028 Mixing_DM = 0 8.339 0 8.339 Force = 0 1.463 0 1.463 Total_Energy = 0 0.731 0 0.731 Set_Aden_Grid = 0 0.061 0 0.061 Set_Orbitals_Grid = 0 0.126 0 0.126 Set_Density_Grid = 0 2.268 0 2.268 RestartFileDFT = 0 0.005 0 0.005 Mulliken_Charge = 0 0.001 0 0.001 FFT(2D)_Density = 0 1.402 0 1.402 Others = 0 6.083 0 6.083 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* Your input file was normally read. The system includes 2 species and 5 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species H were normally found. PAOs of species C were normally found. VPSs of species H were normally found. H_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species C were normally found. C_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 5 estimated weight= 5.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 20 Average FNAN= 4.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 4 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 4 0 CpyCell= 1 ct_AN= 3 FNAN SNAN 4 0 CpyCell= 1 ct_AN= 4 FNAN SNAN 4 0 CpyCell= 1 ct_AN= 5 FNAN SNAN 4 0 TFNAN= 20 Average FNAN= 4.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 4 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 4 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 4 0 CpyCell= 2 ct_AN= 4 FNAN SNAN 4 0 CpyCell= 2 ct_AN= 5 FNAN SNAN 4 0 TFNAN= 20 Average FNAN= 4.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 4 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 4 0 CpyCell= 2 ct_AN= 3 FNAN SNAN 4 0 CpyCell= 2 ct_AN= 4 FNAN SNAN 4 0 CpyCell= 2 ct_AN= 5 FNAN SNAN 4 0 The system is molecule. lattice vectors (bohr) A = 18.897259885789, 0.000000000000, 0.000000000000 B = 0.000000000000, 18.897259885789, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.897259885789 reciprocal lattice vectors (bohr^-1) RA = 0.332491871581, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.332491871581, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.332491871581 Grid_Origin -9.300995100037 -9.300995100037 -9.300995100037 Cell_Volume = 6748.333037104149 (Bohr^3) GridVol = 0.025742847584 (Bohr^3) Grid_Origin -9.300995100037 -9.300995100037 -9.300995100037 Cell_Volume = 6748.333037104149 (Bohr^3) GridVol = 0.025742847584 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 18.897259885789, 0.000000000000, 0.000000000000 B = 0.000000000000, 18.897259885789, 0.000000000000 C = 0.000000000000, 0.000000000000, 18.897259885789 reciprocal lattice vectors (bohr^-1) RA = 0.332491871581, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.332491871581, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.332491871581 Required cutoff energy (Ryd) for 3D-grids = 120.0000 Used cutoff energy (Ryd) for 3D-grids = 113.2041, 113.2041, 113.2041 Num. of grids of a-, b-, and c-axes = 64, 64, 64 Grid_Origin -9.300995100037 -9.300995100037 -9.300995100037 Cell_Volume = 6748.333037104149 (Bohr^3) GridVol = 0.025742847584 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.295269685715, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.295269685715, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.295269685715 |gtv_a| = 0.295269685715 |gtv_b| = 0.295269685715 |gtv_c| = 0.295269685715 Num. of grids overlapping with atom 1 = 20336 Num. of grids overlapping with atom 2 = 20346 Num. of grids overlapping with atom 3 = 20346 Num. of grids overlapping with atom 4 = 20346 Num. of grids overlapping with atom 5 = 20346 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... 1 C MulP 2.1581 2.1581 sum 4.3161 2 H MulP 0.4605 0.4605 sum 0.9210 3 H MulP 0.4605 0.4605 sum 0.9210 4 H MulP 0.4605 0.4605 sum 0.9210 5 H MulP 0.4605 0.4605 sum 0.9210 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -3.523169099737 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000000100 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.4152 2.4152 sum 4.8304 2 H MulP 0.3962 0.3962 sum 0.7924 3 H MulP 0.3962 0.3962 sum 0.7924 4 H MulP 0.3962 0.3962 sum 0.7924 5 H MulP 0.3962 0.3962 sum 0.7924 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.359170821342 Uele = -3.821653634211 dUele = 0.298484534474 NormRD = 0.405885255370 Criterion = 0.000000000100 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.6088 2.6088 sum 5.2177 2 H MulP 0.3478 0.3478 sum 0.6956 3 H MulP 0.3478 0.3478 sum 0.6956 4 H MulP 0.3478 0.3478 sum 0.6956 5 H MulP 0.3478 0.3478 sum 0.6956 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.025870411638 dUele = 0.204216777427 NormRD = 0.353978312886 Criterion = 0.000000000100 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.6864 2.6864 sum 5.3728 2 H MulP 0.3284 0.3284 sum 0.6568 3 H MulP 0.3284 0.3284 sum 0.6568 4 H MulP 0.3284 0.3284 sum 0.6568 5 H MulP 0.3284 0.3284 sum 0.6568 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -4.136402321036 dUele = 0.110531909398 NormRD = 0.274975654611 Criterion = 0.000000000100 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.5415 2.5415 sum 5.0830 2 H MulP 0.3646 0.3646 sum 0.7293 3 H MulP 0.3646 0.3646 sum 0.7293 4 H MulP 0.3646 0.3646 sum 0.7293 5 H MulP 0.3646 0.3646 sum 0.7293 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -3.933807675400 dUele = 0.202594645636 NormRD = 0.049594489014 Criterion = 0.000000000100 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.5154 2.5154 sum 5.0308 2 H MulP 0.3711 0.3711 sum 0.7423 3 H MulP 0.3711 0.3711 sum 0.7423 4 H MulP 0.3711 0.3711 sum 0.7423 5 H MulP 0.3711 0.3711 sum 0.7423 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -3.897749974768 dUele = 0.036057700632 NormRD = 0.011397089683 Criterion = 0.000000000100 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.5098 2.5098 sum 5.0196 2 H MulP 0.3726 0.3726 sum 0.7451 3 H MulP 0.3726 0.3726 sum 0.7451 4 H MulP 0.3726 0.3726 sum 0.7451 5 H MulP 0.3726 0.3726 sum 0.7451 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -3.889481762569 dUele = 0.008268212199 NormRD = 0.001393372045 Criterion = 0.000000000100 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.5097 2.5097 sum 5.0195 2 H MulP 0.3726 0.3726 sum 0.7451 3 H MulP 0.3726 0.3726 sum 0.7451 4 H MulP 0.3726 0.3726 sum 0.7451 5 H MulP 0.3726 0.3726 sum 0.7451 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -3.889316103737 dUele = 0.000165658832 NormRD = 0.000009816453 Criterion = 0.000000000100 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.5097 2.5097 sum 5.0195 2 H MulP 0.3726 0.3726 sum 0.7451 3 H MulP 0.3726 0.3726 sum 0.7451 4 H MulP 0.3726 0.3726 sum 0.7451 5 H MulP 0.3726 0.3726 sum 0.7451 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -3.889316051627 dUele = 0.000000052110 NormRD = 0.000000420019 Criterion = 0.000000000100 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.5097 2.5097 sum 5.0195 2 H MulP 0.3726 0.3726 sum 0.7451 3 H MulP 0.3726 0.3726 sum 0.7451 4 H MulP 0.3726 0.3726 sum 0.7451 5 H MulP 0.3726 0.3726 sum 0.7451 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -3.889316014196 dUele = 0.000000037431 NormRD = 0.000000000625 Criterion = 0.000000000100 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 C MulP 2.5097 2.5097 sum 5.0195 2 H MulP 0.3726 0.3726 sum 0.7451 3 H MulP 0.3726 0.3726 sum 0.7451 4 H MulP 0.3726 0.3726 sum 0.7451 5 H MulP 0.3726 0.3726 sum 0.7451 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.400000000000 Uele = -3.889316014153 dUele = 0.000000000043 NormRD = 0.000000000010 Criterion = 0.000000000100 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.00000000 Dx Dy Dz Total 0.00000000 0.00000000 0.00000000 Core 0.00000000 0.00000000 0.00000000 Electron 0.00000000 0.00000000 0.00000000 Back ground -0.00000000 -0.00000000 -0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -3.889316014153 Ukin = 5.533759381327 UH0 = -14.855519969177 UH1 = 0.041396138421 Una = -5.040606545169 Unl = -0.134650846424 Uxc0 = -1.564720263879 Uxc1 = -1.564720263879 Ucore = 9.551521413583 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -8.033540955196 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 2.91420 Set_OLP_Kin = 0.05466 Set_Nonlocal = 0.07930 Set_ProExpn_VNA = 0.20596 Set_Hamiltonian = 1.04811 Poisson = 0.27614 diagonalization = 0.00486 Mixing_DM = 0.00035 Force = 0.38398 Total_Energy = 0.70820 Set_Aden_Grid = 0.01949 Set_Orbitals_Grid = 0.03701 Set_Density_Grid = 0.09059 RestartFileDFT = 0.00109 Mulliken_Charge = 0.00067 FFT(2D)_Density = 0.00000 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 10.022 0 10.022 readfile = 0 6.470 0 6.470 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 0.477 0 0.477 DFT = 0 2.914 0 2.914 *** In DFT *** Set_OLP_Kin = 0 0.055 0 0.055 Set_Nonlocal = 0 0.079 0 0.079 Set_ProExpn_VNA = 0 0.206 0 0.206 Set_Hamiltonian = 0 1.048 0 1.048 Poisson = 0 0.276 0 0.276 Diagonalization = 0 0.005 0 0.005 Mixing_DM = 0 0.000 0 0.000 Force = 0 0.384 0 0.384 Total_Energy = 0 0.708 0 0.708 Set_Aden_Grid = 0 0.019 0 0.019 Set_Orbitals_Grid = 0 0.037 0 0.037 Set_Density_Grid = 0 0.091 0 0.091 RestartFileDFT = 0 0.001 0 0.001 Mulliken_Charge = 0 0.001 0 0.001 FFT(2D)_Density = 0 0.000 0 0.000 Others = 0 0.004 0 0.004 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* automatically determied UnitCell(Ang.) from atomic positions and Rc of PAOs (margin= 10.00%) 9.437235 0.000000 0.000000 0.000000 9.313520 0.000000 0.000000 0.000000 9.313520 widened unit cell to fit energy cutoff (Ang.) A = 9.501715 0.000000 0.000000 (70) B = 0.000000 9.501715 0.000000 (70) C = 0.000000 0.000000 9.501715 (70) Automatic determination of Kerker_factor: 1.428864253751 Your input file was normally read. The system includes 2 species and 2 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species Mn were normally found. PAOs of species O were normally found. VPSs of species Mn were normally found. Mn_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. VPSs of species O were normally found. O_PBE13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 TFNAN= 2 Average FNAN= 1.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 1 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 1 0 The system is molecule. lattice vectors (bohr) A = 17.955637770240, 0.000000000000, 0.000000000000 B = 0.000000000000, 17.955637770240, 0.000000000000 C = 0.000000000000, 0.000000000000, 17.955637770240 reciprocal lattice vectors (bohr^-1) RA = 0.349928272534, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.349928272534, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.349928272534 Grid_Origin -7.243297239326 -8.849564329618 -8.849564329618 Cell_Volume = 5788.986097769214 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Grid_Origin -7.243297239326 -8.849564329618 -8.849564329618 Cell_Volume = 5788.986097769214 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 17.955637770240, 0.000000000000, 0.000000000000 B = 0.000000000000, 17.955637770240, 0.000000000000 C = 0.000000000000, 0.000000000000, 17.955637770240 reciprocal lattice vectors (bohr^-1) RA = 0.349928272534, 0.000000000000, 0.000000000000 RB = 0.000000000000, 0.349928272534, 0.000000000000 RC = 0.000000000000, 0.000000000000, 0.349928272534 Required cutoff energy (Ryd) for 3D-grids = 150.0000 Used cutoff energy (Ryd) for 3D-grids = 150.0010, 150.0010, 150.0010 Num. of grids of a-, b-, and c-axes = 70, 70, 70 Grid_Origin -7.243297239326 -8.849564329618 -8.849564329618 Cell_Volume = 5788.986097769214 (Bohr^3) GridVol = 0.016877510489 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.256509111003, 0.000000000000, 0.000000000000 gtv_b = 0.000000000000, 0.256509111003, 0.000000000000 gtv_c = 0.000000000000, 0.000000000000, 0.256509111003 |gtv_a| = 0.256509111003 |gtv_b| = 0.256509111003 |gtv_c| = 0.256509111003 Num. of grids overlapping with atom 1 = 127120 Num. of grids overlapping with atom 2 = 30988 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... 1 Mn MulP 9.2099 4.4184 sum 13.6282 diff 4.7915 2 O MulP 3.7901 3.5816 sum 7.3718 diff 0.2085 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000024 Mixing_weight= 0.001000000000 Uele = -23.978392233594 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000000100 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.2106 4.4201 sum 13.6307 diff 4.7905 2 O MulP 3.7894 3.5799 sum 7.3693 diff 0.2095 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000024 Mixing_weight= 0.001000000000 Uele = -23.973208902972 dUele = 0.005183330623 NormRD = 3.626058932217 Criterion = 0.000000000100 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.2113 4.4216 sum 13.6329 diff 4.7897 2 O MulP 3.7887 3.5784 sum 7.3671 diff 0.2103 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000024 Mixing_weight= 0.240951300488 Uele = -23.968752911713 dUele = 0.004455991258 NormRD = 3.618526644604 Criterion = 0.000000000100 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4811 5.0763 sum 14.5573 diff 4.4048 2 O MulP 3.5189 2.9238 sum 6.4427 diff 0.5951 Sum of MulP: up = 12.99993 down = 8.00007 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 4.999867012034 Mixing_weight= 0.356343665800 Uele = -22.957439609985 dUele = 1.011313301728 NormRD = 2.059139601043 Criterion = 0.000000000100 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4725 4.7431 sum 14.2156 diff 4.7295 2 O MulP 3.5275 3.2569 sum 6.7844 diff 0.2705 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 4.999999466067 Mixing_weight= 0.600000000000 Uele = -21.703664515821 dUele = 1.253775094164 NormRD = 1.393161677097 Criterion = 0.000000000100 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.5157 7.9833 sum 17.4990 diff 1.5324 2 O MulP 1.4843 2.0167 sum 3.5010 diff -0.5324 Sum of MulP: up = 11.00000 down = 10.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 1.000000000072 Mixing_weight= 0.017093950769 Uele = -22.516319353150 dUele = 0.812654837329 NormRD = 8.135412458079 Criterion = 0.000000000100 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.4794 6.9439 sum 16.4233 diff 2.5355 2 O MulP 2.1618 2.4150 sum 4.5767 diff -0.2532 Sum of MulP: up = 11.64114 down = 9.35886 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 2.282275974946 Mixing_weight= 0.027347697174 Uele = -22.207819865966 dUele = 0.308499487184 NormRD = 4.981503974942 Criterion = 0.000000000100 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6744 5.2302 sum 14.9046 diff 4.4442 2 O MulP 3.3255 2.7699 sum 6.0954 diff 0.5556 Sum of MulP: up = 12.99989 down = 8.00011 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 4.999773126366 Mixing_weight= 0.029236756678 Uele = -21.998972179986 dUele = 0.208847685980 NormRD = 1.266247799209 Criterion = 0.000000000100 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6489 5.1561 sum 14.8050 diff 4.4929 2 O MulP 3.3510 2.8439 sum 6.1950 diff 0.5071 Sum of MulP: up = 12.99999 down = 8.00001 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 4.999971362101 Mixing_weight= 0.088831030964 Uele = -21.951367552545 dUele = 0.047604627440 NormRD = 1.037142951107 Criterion = 0.000000000100 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.5955 5.0067 sum 14.6021 diff 4.5888 2 O MulP 3.4045 2.9933 sum 6.3979 diff 0.4112 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 4.999999608036 Mixing_weight= 0.060000000000 Uele = -21.846757894792 dUele = 0.104609657753 NormRD = 0.462698716106 Criterion = 0.000000000100 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6304 5.0511 sum 14.6816 diff 4.5793 2 O MulP 3.3696 2.9489 sum 6.3184 diff 0.4207 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 4.999999941175 Mixing_weight= 0.060000000000 Uele = -21.820315916671 dUele = 0.026441978122 NormRD = 0.332743326315 Criterion = 0.000000000100 ******************* MD= 1 SCF=12 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.5851 4.9376 sum 14.5228 diff 4.6475 2 O MulP 3.4149 3.0624 sum 6.4772 diff 0.3525 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000011 Mixing_weight= 0.060000000000 Uele = -21.827672879012 dUele = 0.007356962341 NormRD = 0.064730112745 Criterion = 0.000000000100 ******************* MD= 1 SCF=13 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6008 4.9502 sum 14.5510 diff 4.6506 2 O MulP 3.3992 3.0498 sum 6.4490 diff 0.3494 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000008 Mixing_weight= 0.060000000000 Uele = -21.755909772805 dUele = 0.071763106207 NormRD = 0.031353504710 Criterion = 0.000000000100 ******************* MD= 1 SCF=14 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6039 4.9568 sum 14.5607 diff 4.6471 2 O MulP 3.3961 3.0432 sum 6.4393 diff 0.3529 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000023 Mixing_weight= 0.060000000000 Uele = -21.786650215846 dUele = 0.030740443041 NormRD = 0.016670903473 Criterion = 0.000000000100 ******************* MD= 1 SCF=15 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6023 4.9522 sum 14.5545 diff 4.6501 2 O MulP 3.3977 3.0478 sum 6.4455 diff 0.3499 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000024 Mixing_weight= 0.060000000000 Uele = -21.789376623855 dUele = 0.002726408008 NormRD = 0.005550432422 Criterion = 0.000000000100 ******************* MD= 1 SCF=16 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6017 4.9492 sum 14.5509 diff 4.6525 2 O MulP 3.3983 3.0508 sum 6.4491 diff 0.3475 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000024 Mixing_weight= 0.060000000000 Uele = -21.792312547815 dUele = 0.002935923960 NormRD = 0.003679184287 Criterion = 0.000000000100 ******************* MD= 1 SCF=17 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6021 4.9498 sum 14.5519 diff 4.6523 2 O MulP 3.3979 3.0502 sum 6.4481 diff 0.3477 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000023 Mixing_weight= 0.060000000000 Uele = -21.792909593497 dUele = 0.000597045682 NormRD = 0.001433221215 Criterion = 0.000000000100 ******************* MD= 1 SCF=18 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6024 4.9502 sum 14.5526 diff 4.6522 2 O MulP 3.3976 3.0498 sum 6.4474 diff 0.3478 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000023 Mixing_weight= 0.060000000000 Uele = -21.793012987788 dUele = 0.000103394291 NormRD = 0.000099482678 Criterion = 0.000000000100 ******************* MD= 1 SCF=19 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6024 4.9502 sum 14.5526 diff 4.6522 2 O MulP 3.3976 3.0498 sum 6.4474 diff 0.3478 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000023 Mixing_weight= 0.060000000000 Uele = -21.793039204006 dUele = 0.000026216218 NormRD = 0.000064061879 Criterion = 0.000000000100 ******************* MD= 1 SCF=20 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6024 4.9502 sum 14.5525 diff 4.6522 2 O MulP 3.3976 3.0498 sum 6.4475 diff 0.3478 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000023 Mixing_weight= 0.060000000000 Uele = -21.793006372326 dUele = 0.000032831679 NormRD = 0.000001189421 Criterion = 0.000000000100 ******************* MD= 1 SCF=21 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6024 4.9502 sum 14.5525 diff 4.6522 2 O MulP 3.3976 3.0498 sum 6.4475 diff 0.3478 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000023 Mixing_weight= 0.060000000000 Uele = -21.793005480382 dUele = 0.000000891944 NormRD = 0.000000167620 Criterion = 0.000000000100 ******************* MD= 1 SCF=22 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6024 4.9502 sum 14.5525 diff 4.6522 2 O MulP 3.3976 3.0498 sum 6.4475 diff 0.3478 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000023 Mixing_weight= 0.060000000000 Uele = -21.793005637138 dUele = 0.000000156756 NormRD = 0.000000096258 Criterion = 0.000000000100 ******************* MD= 1 SCF=23 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6024 4.9502 sum 14.5525 diff 4.6522 2 O MulP 3.3976 3.0498 sum 6.4475 diff 0.3478 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000023 Mixing_weight= 0.060000000000 Uele = -21.793005646344 dUele = 0.000000009206 NormRD = 0.000000032443 Criterion = 0.000000000100 ******************* MD= 1 SCF=24 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6024 4.9502 sum 14.5525 diff 4.6522 2 O MulP 3.3976 3.0498 sum 6.4475 diff 0.3478 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000023 Mixing_weight= 0.060000000000 Uele = -21.793005641326 dUele = 0.000000005018 NormRD = 0.000000009590 Criterion = 0.000000000100 ******************* MD= 1 SCF=25 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6024 4.9502 sum 14.5525 diff 4.6522 2 O MulP 3.3976 3.0498 sum 6.4475 diff 0.3478 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000023 Mixing_weight= 0.060000000000 Uele = -21.793005639984 dUele = 0.000000001343 NormRD = 0.000000000955 Criterion = 0.000000000100 ******************* MD= 1 SCF=26 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... 1 Mn MulP 9.6024 4.9502 sum 14.5525 diff 4.6522 2 O MulP 3.3976 3.0498 sum 6.4475 diff 0.3478 Sum of MulP: up = 13.00000 down = 8.00000 total= 21.00000 ideal(neutral)= 21.00000 Total Spin Moment (muB) = 5.000000000023 Mixing_weight= 0.060000000000 Uele = -21.793005639932 dUele = 0.000000000051 NormRD = 0.000000000190 Criterion = 0.000000000100 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 5.10031102 Dx Dy Dz Total -5.10031102 0.00000000 0.00000000 Core 48.99270934 0.00000000 0.00000000 Electron -54.09302036 0.00000000 0.00000000 Back ground -0.00000000 -0.00000000 0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -21.793005639932 Ukin = 67.314444541057 UH0 = -128.484096555298 UH1 = 0.054688233010 Una = -68.840970465843 Unl = -2.553260757694 Uxc0 = -10.034377737977 Uxc1 = -6.573058047965 Ucore = 28.015266123529 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -121.101364667181 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 23.52829 Set_OLP_Kin = 0.07529 Set_Nonlocal = 0.08825 Set_ProExpn_VNA = 0.26681 Set_Hamiltonian = 15.13858 Poisson = 0.45189 diagonalization = 0.06419 Mixing_DM = 3.47415 Force = 0.84660 Total_Energy = 0.44711 Set_Aden_Grid = 0.03112 Set_Orbitals_Grid = 0.06660 Set_Density_Grid = 1.75029 RestartFileDFT = 0.00203 Mulliken_Charge = 0.00132 FFT(2D)_Density = 0.72264 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 32.979 0 32.979 readfile = 0 7.874 0 7.874 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 1.359 0 1.359 DFT = 0 23.528 0 23.528 *** In DFT *** Set_OLP_Kin = 0 0.075 0 0.075 Set_Nonlocal = 0 0.088 0 0.088 Set_ProExpn_VNA = 0 0.267 0 0.267 Set_Hamiltonian = 0 15.139 0 15.139 Poisson = 0 0.452 0 0.452 Diagonalization = 0 0.064 0 0.064 Mixing_DM = 0 3.474 0 3.474 Force = 0 0.847 0 0.847 Total_Energy = 0 0.447 0 0.447 Set_Aden_Grid = 0 0.031 0 0.031 Set_Orbitals_Grid = 0 0.067 0 0.067 Set_Density_Grid = 0 1.750 0 1.750 RestartFileDFT = 0 0.002 0 0.002 Mulliken_Charge = 0 0.001 0 0.001 FFT(2D)_Density = 0 0.723 0 0.723 Others = 0 0.101 0 0.101 The calculation was normally finished. ******************************************************* ******************************************************* Welcome to OpenMX Ver. 3.8.5 Copyright (C), 2002-2009, T.Ozaki OpenMX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under the constitution of the GNU-GPL. ******************************************************* ******************************************************* ******************************************************* read the input file and initializing ******************************************************* Automatic determination of Kerker_factor: 0.309085294107 Your input file was normally read. The system includes 1 species and 2 atoms. ******************************************************* PAO and VPS ******************************************************* PAOs of species C were normally found. VPSs of species C were normally found. C_CA13.vps is j-dependent. In case of scf.SpinOrbit.Coupling=off, j-dependent pseudo potentials are averaged by j-degeneracy, which corresponds to a scalar relativistic treatment. ******************************************************* Fourier transform of PAO and projectors of VNL ******************************************************* Fourier transform of pseudo atomic orbitals Fourier transform of non-local projectors Fourier transform of VNA separable projectors Fourier transform of VNA potentials Fourier transform of product of PAOs ******************************************************* Allocation of atoms to proccesors at MD_iter= 1 ******************************************************* proc = 0 # of atoms= 2 estimated weight= 2.00000 ******************************************************* Analysis of neighbors and setting of grids ******************************************************* TFNAN= 94 Average FNAN= 47.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 1 ct_AN= 1 FNAN SNAN 47 0 CpyCell= 1 ct_AN= 2 FNAN SNAN 47 0 TFNAN= 226 Average FNAN= 113.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 2 ct_AN= 1 FNAN SNAN 113 0 CpyCell= 2 ct_AN= 2 FNAN SNAN 113 0 TFNAN= 226 Average FNAN= 113.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 3 ct_AN= 1 FNAN SNAN 113 0 CpyCell= 3 ct_AN= 2 FNAN SNAN 113 0 TFNAN= 226 Average FNAN= 113.00000 TSNAN= 0 Average SNAN= 0.00000 CpyCell= 3 ct_AN= 1 FNAN SNAN 113 0 CpyCell= 3 ct_AN= 2 FNAN SNAN 113 0 The system is bulk. lattice vectors (bohr) A = 3.363712259670, 3.363712259670, 0.000000000000 B = 3.363712259670, 0.000000000000, 3.363712259670 C = 0.000000000000, 3.363712259670, 3.363712259670 reciprocal lattice vectors (bohr^-1) RA = 0.933965931407, 0.933965931407, -0.933965931407 RB = 0.933965931407, -0.933965931407, 0.933965931407 RC = -0.933965931407, 0.933965931407, 0.933965931407 Grid_Origin -2.147988540351 -2.261372099666 -2.233026209837 Cell_Volume = 76.117849485348 (Bohr^3) GridVol = 0.044049681415 (Bohr^3) Grid_Origin -2.147988540351 -2.261372099666 -2.233026209837 Cell_Volume = 76.117849485348 (Bohr^3) GridVol = 0.044049681415 (Bohr^3) Info. of cutoff energy and num. of grids lattice vectors (bohr) A = 3.363712259670, 3.363712259670, 0.000000000000 B = 3.363712259670, 0.000000000000, 3.363712259670 C = 0.000000000000, 3.363712259670, 3.363712259670 reciprocal lattice vectors (bohr^-1) RA = 0.933965931407, 0.933965931407, -0.933965931407 RB = 0.933965931407, -0.933965931407, 0.933965931407 RC = -0.933965931407, 0.933965931407, 0.933965931407 Required cutoff energy (Ryd) for 3D-grids = 100.0000 Used cutoff energy (Ryd) for 3D-grids = 94.2076, 94.2076, 94.2076 Num. of grids of a-, b-, and c-axes = 12, 12, 12 Grid_Origin -2.147988540351 -2.261372099666 -2.233026209837 Cell_Volume = 76.117849485348 (Bohr^3) GridVol = 0.044049681415 (Bohr^3) Cell vectors (bohr) of the grid cell (gtv) gtv_a = 0.280309354973, 0.280309354973, 0.000000000000 gtv_b = 0.280309354973, 0.000000000000, 0.280309354973 gtv_c = 0.000000000000, 0.280309354973, 0.280309354973 |gtv_a| = 0.396417291462 |gtv_b| = 0.396417291462 |gtv_c| = 0.396417291462 Num. of grids overlapping with atom 1 = 11914 Num. of grids overlapping with atom 2 = 11914 ******************************************************* SCF calculation at MD = 1 ******************************************************* Calculation of the overlap matrix Calculation of the nonlocal matrix Calculation of the VNA projector matrix ******************* MD= 1 SCF= 1 ******************* Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=0.031596 DM, time=0.046788 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.300000000000 Uele = -2.927911640158 dUele = 1.000000000000 NormRD = 1.000000000000 Criterion = 0.000000000100 ******************* MD= 1 SCF= 2 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=0.031439 DM, time=0.046746 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.354412827684 Uele = -3.043566546201 dUele = 0.115654906043 NormRD = 0.391828418766 Criterion = 0.000000000100 ******************* MD= 1 SCF= 3 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=0.031430 DM, time=0.046767 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.617874603307 Uele = -3.132669394093 dUele = 0.089102847892 NormRD = 0.255861278984 Criterion = 0.000000000100 ******************* MD= 1 SCF= 4 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=0.031422 DM, time=0.046752 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.700000000000 Uele = -3.232312838821 dUele = 0.099643444729 NormRD = 0.101040787511 Criterion = 0.000000000100 ******************* MD= 1 SCF= 5 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=0.031436 DM, time=0.046716 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070000000000 Uele = -3.276602992258 dUele = 0.044290153437 NormRD = 0.031773981686 Criterion = 0.000000000100 ******************* MD= 1 SCF= 6 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=0.031435 DM, time=0.046734 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070000000000 Uele = -3.297164674912 dUele = 0.020561682654 NormRD = 0.000048918028 Criterion = 0.000000000100 ******************* MD= 1 SCF= 7 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=0.031406 DM, time=0.046728 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070000000000 Uele = -3.297183940509 dUele = 0.000019265596 NormRD = 0.000004964814 Criterion = 0.000000000100 ******************* MD= 1 SCF= 8 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=0.031425 DM, time=0.046727 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070000000000 Uele = -3.297188362088 dUele = 0.000004421579 NormRD = 0.000000190473 Criterion = 0.000000000100 ******************* MD= 1 SCF= 9 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=0.031418 DM, time=0.046739 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070000000000 Uele = -3.297188338968 dUele = 0.000000023120 NormRD = 0.000000008008 Criterion = 0.000000000100 ******************* MD= 1 SCF=10 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=0.031407 DM, time=0.046750 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070000000000 Uele = -3.297188339469 dUele = 0.000000000501 NormRD = 0.000000000315 Criterion = 0.000000000100 ******************* MD= 1 SCF=11 ******************* Poisson's equation using FFT... Hamiltonian matrix for VNA+dVH+Vxc... Solving the eigenvalue problem... KGrids1: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 KGrids2: -0.42857 -0.28572 -0.14286 -0.00000 0.14286 0.28571 0.42857 KGrids3: -0.42857 -0.28571 -0.14286 0.00000 0.14286 0.28572 0.42857 Eigen, time=0.031399 DM, time=0.046740 1 C MulP 2.0000 2.0000 sum 4.0000 2 C MulP 2.0000 2.0000 sum 4.0000 Sum of MulP: up = 4.00000 down = 4.00000 total= 8.00000 ideal(neutral)= 8.00000 Total Spin Moment (muB) = 0.000000000000 Mixing_weight= 0.070000000000 Uele = -3.297188339521 dUele = 0.000000000052 NormRD = 0.000000000005 Criterion = 0.000000000100 Force calculation Force calculation #1 Force calculation #2 Force calculation #3 Force calculation #4 Force calculation #5 Total Energy Force calculation #6 Force calculation #7 ******************************************************* Dipole moment (Debye) ******************************************************* Absolute D 0.00030219 Dx Dy Dz Total 0.00018746 0.00016473 0.00017041 Core 19.02069892 16.71515966 17.29154447 Electron -19.02051147 -16.71499493 -17.29137406 Back ground -0.00000000 -0.00000000 -0.00000000 ******************************************************* Total Energy (Hartree) at MD = 1 ******************************************************* Uele = -3.297188339521 Ukin = 7.708092539789 UH0 = -267.084357403855 UH1 = 0.071892262109 Una = -5.252376733805 Unl = -0.788716356599 Uxc0 = -1.905513137826 Uxc1 = -1.905513137826 Ucore = 257.584823537260 Uhub = 0.000000000000 Ucs = 0.000000000000 Uzs = 0.000000000000 Uzo = 0.000000000000 Uef = 0.000000000000 UvdW = 0.000000000000 Utot = -11.571668430754 Note: Utot = Ukin+UH0+UH1+Una+Unl+Uxc0+Uxc1+Ucore+Uhub+Ucs+Uzs+Uzo+Uef+UvdW Uele: band energy Ukin: kinetic energy UH0: electric part of screened Coulomb energy UH1: difference electron-electron Coulomb energy Una: neutral atom potential energy Unl: non-local potential energy Uxc0: exchange-correlation energy for alpha spin Uxc1: exchange-correlation energy for beta spin Ucore: core-core Coulomb energy Uhub: LDA+U energy Ucs: constraint energy for spin orientation Uzs: Zeeman term for spin magnetic moment Uzo: Zeeman term for orbital magnetic moment Uef: electric energy by electric field UvdW: semi-empirical vdW energy (see also PRB 72, 045121(2005) for the energy contributions) ******************************************************* Computational times (s) at MD = 1 ******************************************************* DFT in total = 11.14061 Set_OLP_Kin = 0.75028 Set_Nonlocal = 2.10079 Set_ProExpn_VNA = 1.93124 Set_Hamiltonian = 0.09590 Poisson = 0.00215 diagonalization = 0.88457 Mixing_DM = 0.00447 Force = 0.67201 Total_Energy = 4.60066 Set_Aden_Grid = 0.00383 Set_Orbitals_Grid = 0.00970 Set_Density_Grid = 0.07902 RestartFileDFT = 0.00035 Mulliken_Charge = 0.00052 FFT(2D)_Density = 0.00308 ******************************************************* MD or geometry opt. at MD = 1 ******************************************************* outputting data on grids to files... *********************************************************** *********************************************************** Computational Time (second) *********************************************************** *********************************************************** Min_ID Min_Time Max_ID Max_Time Total Computational Time = 0 14.993 0 14.993 readfile = 0 3.506 0 3.506 truncation = 0 0.000 0 0.000 MD_pac = 0 0.000 0 0.000 OutData = 0 0.025 0 0.025 DFT = 0 11.141 0 11.141 *** In DFT *** Set_OLP_Kin = 0 0.750 0 0.750 Set_Nonlocal = 0 2.101 0 2.101 Set_ProExpn_VNA = 0 1.931 0 1.931 Set_Hamiltonian = 0 0.096 0 0.096 Poisson = 0 0.002 0 0.002 Diagonalization = 0 0.885 0 0.885 Mixing_DM = 0 0.004 0 0.004 Force = 0 0.672 0 0.672 Total_Energy = 0 4.601 0 4.601 Set_Aden_Grid = 0 0.004 0 0.004 Set_Orbitals_Grid = 0 0.010 0 0.010 Set_Density_Grid = 0 0.079 0 0.079 RestartFileDFT = 0 0.000 0 0.000 Mulliken_Charge = 0 0.001 0 0.001 FFT(2D)_Density = 0 0.003 0 0.003 Others = 0 0.002 0 0.002 The calculation was normally finished. The comparison can be found in a file 'runtest.result'. 1 input_example/Benzene.dat Elapsed time(s)= 19.85 diff Utot= 0.000000000000 diff Force= 0.000000000000 2 input_example/C60.dat Elapsed time(s)= 180.30 diff Utot= 0.000000000003 diff Force= 0.000000000006 3 input_example/CO.dat Elapsed time(s)= 43.62 diff Utot= 0.000000000000 diff Force= 0.000000000008 4 input_example/Cr2.dat Elapsed time(s)= 32.47 diff Utot= 0.000000000001 diff Force= 0.000000000001 5 input_example/Crys-MnO.dat Elapsed time(s)= 128.47 diff Utot= 0.000000000003 diff Force= 0.000000000001 6 input_example/GaAs.dat Elapsed time(s)= 122.59 diff Utot= 0.000000000003 diff Force= 0.000000000001 7 input_example/Glycine.dat Elapsed time(s)= 33.01 diff Utot= 0.000000000000 diff Force= 0.000000000002 8 input_example/Graphite4.dat Elapsed time(s)= 17.04 diff Utot= 0.000000000000 diff Force= 0.000000000000 9 input_example/H2O-EF.dat Elapsed time(s)= 17.20 diff Utot= 0.000000000000 diff Force= 0.000000000002 10 input_example/H2O.dat Elapsed time(s)= 11.41 diff Utot= 0.000000000000 diff Force= 0.000000000000 11 input_example/HMn.dat Elapsed time(s)= 59.28 diff Utot= 0.000000000000 diff Force= 0.000000000000 12 input_example/Methane.dat Elapsed time(s)= 10.02 diff Utot= 0.000000000007 diff Force= 0.000000000002 13 input_example/Mol_MnO.dat Elapsed time(s)= 32.98 diff Utot= 0.000000000000 diff Force= 0.000000000001 14 input_example/Ndia2.dat Elapsed time(s)= 14.99 diff Utot= 0.000000000000 diff Force= 0.000000000000 Total elapsed time (s) 723.24 ~/build/BUILD/openmx3.8 real 12m4.190s user 11m53.918s sys 0m3.031s + '[' -r runtest.result ']' + cat runtest.result + popd + module unload mpi/openmpi-ppc64le ++ /usr/share/lmod/lmod/libexec/lmod bash unload mpi/openmpi-ppc64le + eval 'LMOD_DEFAULT_MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'LMOD_DEFAULT_MODULEPATH;' 'MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'MODULEPATH;' unset 'LD_LIBRARY_PATH;' 'LMOD_DEFAULT_MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'LMOD_DEFAULT_MODULEPATH;' unset 'LOADEDMODULES;' 'MANPATH="/usr/share/lmod/lmod/share/man::";' export 'MANPATH;' 'MODULEPATH="/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core";' export 'MODULEPATH;' unset 'MPI_BIN;' unset 'MPI_COMPILER;' unset 'MPI_FORTRAN_MOD_DIR;' unset 'MPI_HOME;' unset 'MPI_INCLUDE;' unset 'MPI_LIB;' unset 'MPI_MAN;' unset 'MPI_PYTHON2_SITEARCH;' unset 'MPI_PYTHON3_SITEARCH;' unset 'MPI_PYTHON_SITEARCH;' unset 'MPI_SUFFIX;' unset 'MPI_SYSCONFIG;' 'PATH="/usr/bin:/bin:/usr/sbin:/sbin:/usr/local/sbin:/builddir/.local/bin:/builddir/bin";' export 'PATH;' 'PKG_CONFIG_PATH=":/usr/lib64/pkgconfig:/usr/share/pkgconfig";' export 'PKG_CONFIG_PATH;' unset '_LMFILES_;' '_ModuleTable001_="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";' export '_ModuleTable001_;' '_ModuleTable002_="c2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLH0sWyJzeXN0ZW1CYXNlTVBBVEgiXT0iL2V0Yy9tb2R1bGVmaWxlczovdXNyL3NoYXJlL21vZHVsZWZpbGVzOi91c3Ivc2hhcmUvbW9kdWxlZmlsZXMvTGludXg6L3Vzci9zaGFyZS9tb2R1bGVmaWxlcy9Db3JlOi91c3Ivc2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLFsidmVyc2lvbiJdPTIsfQ==";' export '_ModuleTable002_;' '_ModuleTable_Sz_="2";' export '_ModuleTable_Sz_;' ++ LMOD_DEFAULT_MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export LMOD_DEFAULT_MODULEPATH ++ MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export MODULEPATH ++ unset LD_LIBRARY_PATH ++ LMOD_DEFAULT_MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export LMOD_DEFAULT_MODULEPATH ++ unset LOADEDMODULES ++ MANPATH=/usr/share/lmod/lmod/share/man:: ++ export MANPATH ++ MODULEPATH=/etc/modulefiles:/usr/share/modulefiles:/usr/share/modulefiles/Linux:/usr/share/modulefiles/Core:/usr/share/lmod/lmod/modulefiles/Core ++ export MODULEPATH ++ unset MPI_BIN ++ unset MPI_COMPILER ++ unset MPI_FORTRAN_MOD_DIR ++ unset MPI_HOME ++ unset MPI_INCLUDE ++ unset MPI_LIB ++ unset MPI_MAN ++ unset MPI_PYTHON2_SITEARCH ++ unset MPI_PYTHON3_SITEARCH ++ unset MPI_PYTHON_SITEARCH ++ unset MPI_SUFFIX ++ unset MPI_SYSCONFIG ++ PATH=/usr/bin:/bin:/usr/sbin:/sbin:/usr/local/sbin:/builddir/.local/bin:/builddir/bin ++ export PATH ++ PKG_CONFIG_PATH=:/usr/lib64/pkgconfig:/usr/share/pkgconfig ++ export PKG_CONFIG_PATH ++ unset _LMFILES_ ++ _ModuleTable001_=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 ++ export _ModuleTable001_ ++ _ModuleTable002_=c2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLH0sWyJzeXN0ZW1CYXNlTVBBVEgiXT0iL2V0Yy9tb2R1bGVmaWxlczovdXNyL3NoYXJlL21vZHVsZWZpbGVzOi91c3Ivc2hhcmUvbW9kdWxlZmlsZXMvTGludXg6L3Vzci9zaGFyZS9tb2R1bGVmaWxlcy9Db3JlOi91c3Ivc2hhcmUvbG1vZC9sbW9kL21vZHVsZWZpbGVzL0NvcmUiLFsidmVyc2lvbiJdPTIsfQ== ++ export _ModuleTable002_ ++ _ModuleTable_Sz_=2 ++ export _ModuleTable_Sz_ + '[' 0 = 0 ']' ++ : -s sh + eval + exit 0 Processing files: openmx-openmpi-3.8.5-3.el7.ppc64le /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript Provides: openmx-openmpi = 3.8.5-3.el7 openmx-openmpi(ppc-64) = 3.8.5-3.el7 Requires(rpmlib): rpmlib(CompressedFileNames) <= 3.0.4-1 rpmlib(FileDigests) <= 4.6.0-1 rpmlib(PayloadFilesHavePrefix) <= 4.0-1 Requires: libc.so.6()(64bit) libc.so.6(GLIBC_2.17)(64bit) libfftw3.so.3()(64bit) libgcc_s.so.1()(64bit) libgcc_s.so.1(GCC_3.3.1)(64bit) libgfortran.so.3()(64bit) libgfortran.so.3(GFORTRAN_1.0)(64bit) libgfortran.so.3(GFORTRAN_1.4)(64bit) libgomp.so.1()(64bit) libgomp.so.1(GOMP_1.0)(64bit) libgomp.so.1(OMP_1.0)(64bit) libgomp.so.1(OMP_2.0)(64bit) libm.so.6()(64bit) libm.so.6(GLIBC_2.17)(64bit) libmpi.so.40()(64bit) libmpi_mpifh.so.40()(64bit) libmpi_usempi.so.40()(64bit) libopenblas.so.0()(64bit) libpthread.so.0()(64bit) libpthread.so.0(GLIBC_2.17)(64bit) rtld(GNU_HASH) Processing files: openmx-mpich-3.8.5-3.el7.ppc64le /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.prov: line 53: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript /usr/lib/rpm/mpi.req: line 55: mpi_compiler_for_dir[${MPI_PYTHON2_SITEARCH}]: bad array subscript Provides: openmx-mpich = 3.8.5-3.el7 openmx-mpich(ppc-64) = 3.8.5-3.el7 Requires(rpmlib): rpmlib(CompressedFileNames) <= 3.0.4-1 rpmlib(FileDigests) <= 4.6.0-1 rpmlib(PayloadFilesHavePrefix) <= 4.0-1 Requires: libc.so.6()(64bit) libc.so.6(GLIBC_2.17)(64bit) libfftw3.so.3()(64bit) libgcc_s.so.1()(64bit) libgcc_s.so.1(GCC_3.3.1)(64bit) libgfortran.so.3()(64bit) libgfortran.so.3(GFORTRAN_1.0)(64bit) libgfortran.so.3(GFORTRAN_1.4)(64bit) libgomp.so.1()(64bit) libgomp.so.1(GOMP_1.0)(64bit) libgomp.so.1(OMP_1.0)(64bit) libgomp.so.1(OMP_2.0)(64bit) libm.so.6()(64bit) libm.so.6(GLIBC_2.17)(64bit) libmpich.so.10()(64bit) libmpl.so.1()(64bit) libopa.so.1()(64bit) libopenblas.so.0()(64bit) libpthread.so.0()(64bit) libpthread.so.0(GLIBC_2.17)(64bit) librt.so.1()(64bit) rtld(GNU_HASH) Processing files: openmx-data-3.8.5-3.el7.noarch Executing(%license): /bin/sh -e /var/tmp/rpm-tmp.mAzcHv + umask 022 + cd /builddir/build/BUILD + cd openmx3.8 + LICENSEDIR=/builddir/build/BUILDROOT/openmx-3.8.5-3.el7.ppc64le/usr/share/licenses/openmx-data-3.8.5 + export LICENSEDIR + /usr/bin/mkdir -p /builddir/build/BUILDROOT/openmx-3.8.5-3.el7.ppc64le/usr/share/licenses/openmx-data-3.8.5 + cp -pr COPYING /builddir/build/BUILDROOT/openmx-3.8.5-3.el7.ppc64le/usr/share/licenses/openmx-data-3.8.5 + cp -pr LICENSE /builddir/build/BUILDROOT/openmx-3.8.5-3.el7.ppc64le/usr/share/licenses/openmx-data-3.8.5 + exit 0 Provides: openmx-data = 3.8.5-3.el7 Requires(rpmlib): rpmlib(CompressedFileNames) <= 3.0.4-1 rpmlib(FileDigests) <= 4.6.0-1 rpmlib(PayloadFilesHavePrefix) <= 4.0-1 Processing files: openmx-common-3.8.5-3.el7.noarch Executing(%license): /bin/sh -e /var/tmp/rpm-tmp.MD01V8 + umask 022 + cd /builddir/build/BUILD + cd openmx3.8 + LICENSEDIR=/builddir/build/BUILDROOT/openmx-3.8.5-3.el7.ppc64le/usr/share/licenses/openmx-common-3.8.5 + export LICENSEDIR + /usr/bin/mkdir -p /builddir/build/BUILDROOT/openmx-3.8.5-3.el7.ppc64le/usr/share/licenses/openmx-common-3.8.5 + cp -pr COPYING /builddir/build/BUILDROOT/openmx-3.8.5-3.el7.ppc64le/usr/share/licenses/openmx-common-3.8.5 + cp -pr LICENSE /builddir/build/BUILDROOT/openmx-3.8.5-3.el7.ppc64le/usr/share/licenses/openmx-common-3.8.5 + exit 0 Provides: openmx-common = 3.8.5-3.el7 Requires(rpmlib): rpmlib(CompressedFileNames) <= 3.0.4-1 rpmlib(FileDigests) <= 4.6.0-1 rpmlib(PayloadFilesHavePrefix) <= 4.0-1 Processing files: openmx-debuginfo-3.8.5-3.el7.ppc64le Provides: openmx-debuginfo = 3.8.5-3.el7 openmx-debuginfo(ppc-64) = 3.8.5-3.el7 Requires(rpmlib): rpmlib(FileDigests) <= 4.6.0-1 rpmlib(PayloadFilesHavePrefix) <= 4.0-1 rpmlib(CompressedFileNames) <= 3.0.4-1 Checking for unpackaged file(s): /usr/lib/rpm/check-files /builddir/build/BUILDROOT/openmx-3.8.5-3.el7.ppc64le Wrote: /builddir/build/RPMS/openmx-openmpi-3.8.5-3.el7.ppc64le.rpm Wrote: /builddir/build/RPMS/openmx-mpich-3.8.5-3.el7.ppc64le.rpm Wrote: /builddir/build/RPMS/openmx-data-3.8.5-3.el7.noarch.rpm Wrote: /builddir/build/RPMS/openmx-common-3.8.5-3.el7.noarch.rpm Wrote: /builddir/build/RPMS/openmx-debuginfo-3.8.5-3.el7.ppc64le.rpm Executing(%clean): /bin/sh -e /var/tmp/rpm-tmp.mcQgBw + umask 022 + cd /builddir/build/BUILD + cd openmx3.8 + /usr/bin/rm -rf /builddir/build/BUILDROOT/openmx-3.8.5-3.el7.ppc64le + exit 0 Finish: rpmbuild openmx-3.8.5-3.el7.src.rpm Finish: build phase for openmx-3.8.5-3.el7.src.rpm INFO: Done(/var/lib/copr-rpmbuild/results/openmx-3.8.5-3.el7.src.rpm) Config(child) 21 minutes 33 seconds INFO: Results and/or logs in: /var/lib/copr-rpmbuild/results INFO: Cleaning up build root ('cleanup_on_success=True') Start: clean chroot INFO: unmounting tmpfs. Finish: clean chroot Finish: run