/********************************************** _ _ Cook Darwin __
_ descript: author : Cook.Darwin Version: VERA.0.0 creaded: 2020/11/30 madified: ***********************************************/ `timescale 1ns/1ps (* axi_stream = “true” *) module axi_stream_interconnect_S2M_with_info #(
parameter NUM = 8, parameter ISIZE = 32, parameter NSIZE = $clog2(NUM)
)(
input [NSIZE-1:0] addr, //sync s00 input [ISIZE-1:0] in_info, //sync s00 output[ISIZE-1:0] out_info [NUM-1:0], //sync m00 axi_stream_inf.slaver s00, axi_stream_inf.master m00 [NUM-1:0]
);
//localparam DSIZE = s00.DSIZE; // localparam KSIZE = (DSIZE/8 > 0)? DSIZE/8 : 1;
data_inf #(.DSIZE(s00.DSIZE+1+s00.USIZE+ISIZE+s00.KSIZE) ) s00_data_inf (); data_inf #(.DSIZE(s00.DSIZE+1+s00.USIZE+ISIZE+s00.KSIZE) ) m00_data_inf [NUM-1:0] ();
genvar KK; generate for(KK=0;KK<NUM;KK++)begin assign m00.axis_tvalid = m00_data_inf.valid ; assign m00.axis_tdata = m00_data_inf.data ; assign m00.axis_tlast = m00_data_inf.data ; assign m00.axis_tuser = m00_data_inf.data[s00.DSIZE+1 +: s00.USIZE] ; assign m00.axis_tkeep = m00_data_inf.data ; assign out_info = m00_data_inf.data; assign m00_data_inf.ready = m00.axis_tready ; end endgenerate
data_pipe_interconnect_S2M_verb #(
.NUM (NUM )
)data_pipe_interconnect_S2M_inst( /* input */ .clock (s00.aclk ), /* input */ .rst_n (s00.aresetn ), /* input */ .clk_en (s00.aclken ), /* input [NSIZE-1:0] */ .addr (addr ),
// output logic[2:0] curr_path,
/* data_inf.master */ .m00 (m00_data_inf ), //[NUM-1:0], /* data_inf.slaver */ .s00 (s00_data_inf ) );
assign s00_data_inf.data = {in_info,s00.axis_tkeep,s00.axis_tuser,s00.axis_tlast,s00.axis_tdata} ; assign s00_data_inf.valid = s00.axis_tvalid ; // assign s00_data_inf.data = s00.axis_tlast ; // assign s00_data_inf.data = s00.axis_tuser ; assign s00.axis_tready = s00_data_inf.ready ; // assign s00_data_inf.data = s00.axis_tkeep ;
endmodule