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/* Asynchronous SDM NoC (C)2011 Wei Song Advanced Processor Technologies Group Computer Science, the Univ. of Manchester, UK Authors: Wei Song wsong83@gmail.com License: LGPL 3.0 or later Clos scheduler *** SystemVerilog is used *** References For the detail structure, please refer to Section 6.3.1 of the thesis: Wei Song, Spatial parallelism in the routers of asynchronous on-chip networks, PhD thesis, the University of Manchester, 2011. History: 11/12/2009 Initial version. <wsong83@gmail.com> 10/06/2010 Change to use PIM structure <wsong83@gmail.com> 23/08/2010 Fix the non-QDI request withdraw process <wsong83@gmail.com> 23/09/2010 Modified for Clos SDM router <wsong83@gmail.com> 27/05/2011 Clean up for opensource. <wsong83@gmail.com> */ // the router structure definitions `include "define.v" module clos_sch (/*AUTOARG*/ // Outputs sack, wack, nack, eack, lack, imc, scfg, ncfg, wcfg, ecfg, lcfg, // Inputs sreq, nreq, lreq, wreq, ereq, rst_n ); parameter M = 2; // the number of CMs parameter N = 2; // the number of ports in IMs/OMs // reuests from all input buffers input [N-1:0][3:0] sreq, nreq, lreq; input [N-1:0][1:0] wreq, ereq; // ack to input buffers output [N-1:0] sack, wack, nack, eack, lack; // IM acks wire [4:0][N-1:0] imra; wire [4:0][N-1:0] cmra; // IM cfgs and CM cfgs output [4:0][M-1:0][N-1:0] imc; output [M-1:0][1:0] scfg, ncfg; output [M-1:0][3:0] wcfg, ecfg, lcfg; input rst_n; // reset, active low // the requests from IMs to CMs wire [M-1:0][1:0] wr, er; wire [M-1:0][3:0] sr, nr, lr; wire [M-1:0] sra, wra, nra, era, lra; `ifndef ENABLE_CRRD wire [M-1:0][4:0] cms; // the states from CMs wire [M-1:0][3:0] scms, ncms, lcms; wire [M-1:0][1:0] wcms, ecms; `endif genvar i; // IM schedulers im_alloc #(.VCN(N), .CMN(M), .SN(4)) SIM ( .IMr ( sreq ), .IMa ( imra[0] ), `ifndef ENABLE_CRRD .CMs ( scms ), `endif .cfg ( imc[0] ), .rst_n ( rst_n ) ); rcb #(.NN(N), .MN(M), .DW(4)) SRIM ( .ireq ( sreq ), .ira ( cmra[0] ), .oreq ( sr ), .ora ( sra ), .cfg ( imc[0] ) ); // the C-element to force the request withdrawal sequence generate for(i=0; i<N; i++) begin: SA c2 UA (.q(sack[i]), .a0(imra[0][i]), .a1(cmra[0][i])); end endgenerate im_alloc #(.VCN(N), .CMN(M), .SN(2)) WIM ( .IMr ( wreq ), .IMa ( imra[1] ), `ifndef ENABLE_CRRD .CMs ( wcms ), `endif .cfg ( imc[1] ), .rst_n ( rst_n ) ); rcb #(.NN(N), .MN(M), .DW(2)) WRIM ( .ireq ( wreq ), .ira ( cmra[1] ), .oreq ( wr ), .ora ( wra ), .cfg ( imc[1] ) ); generate for(i=0; i<N; i++) begin: WA c2 UA (.q(wack[i]), .a0(imra[1][i]), .a1(cmra[1][i])); end endgenerate im_alloc #(.VCN(N), .CMN(M), .SN(4)) NIM ( .IMr ( nreq ), .IMa ( imra[2] ), `ifndef ENABLE_CRRD .CMs ( ncms ), `endif .cfg ( imc[2] ), .rst_n ( rst_n ) ); rcb #(.NN(N), .MN(M), .DW(4)) NRIM ( .ireq ( nreq ), .ira ( cmra[2] ), .oreq ( nr ), .ora ( nra ), .cfg ( imc[2] ) ); generate for(i=0; i<N; i++) begin: NA c2 UA (.q(nack[i]), .a0(imra[2][i]), .a1(cmra[2][i])); end endgenerate im_alloc #(.VCN(N), .CMN(M), .SN(2)) EIM ( .IMr ( ereq ), .IMa ( imra[3] ), `ifndef ENABLE_CRRD .CMs ( ecms ), `endif .cfg ( imc[3] ), .rst_n ( rst_n ) ); rcb #(.NN(N), .MN(M), .DW(2)) ERIM ( .ireq ( ereq ), .ira ( cmra[3] ), .oreq ( er ), .ora ( era ), .cfg ( imc[3] ) ); generate for(i=0; i<N; i++) begin: EA c2 UA (.q(eack[i]), .a0(imra[3][i]), .a1(cmra[3][i])); end endgenerate im_alloc #(.VCN(N), .CMN(M), .SN(4)) LIM ( .IMr ( lreq ), .IMa ( imra[4] ), `ifndef ENABLE_CRRD .CMs ( lcms ), `endif .cfg ( imc[4] ), .rst_n ( rst_n ) ); rcb #(.NN(N), .MN(M), .DW(4)) LRIM ( .ireq ( lreq ), .ira ( cmra[4] ), .oreq ( lr ), .ora ( lra ), .cfg ( imc[4] ) ); generate for(i=0; i<N; i++) begin: LA c2 UA (.q(lack[i]), .a0(imra[4][i]), .a1(cmra[4][i])); end endgenerate // CM schedulers generate for(i=0; i<M; i=i+1) begin: CMSch cm_alloc S ( .sra ( sra[i] ), .wra ( wra[i] ), .nra ( nra[i] ), .era ( era[i] ), .lra ( lra[i] ), .scfg ( scfg[i] ), .ncfg ( ncfg[i] ), .wcfg ( wcfg[i] ), .ecfg ( ecfg[i] ), .lcfg ( lcfg[i] ), `ifndef ENABLE_CRRD .s ( cms[i] ), `endif .wr ( wr[i] ), .er ( er[i] ), .sr ( sr[i] ), .nr ( nr[i] ), .lr ( lr[i] ) ); `ifndef ENABLE_CRRD assign scms[i] = {cms[i][4], cms[i][3], cms[i][2], cms[i][1]}; assign wcms[i] = {cms[i][4], cms[i][3]}; assign ncms[i] = {cms[i][4], cms[i][3], cms[i][1], cms[i][0]}; assign ecms[i] = {cms[i][4], cms[i][1]}; assign lcms[i] = {cms[i][3], cms[i][2], cms[i][1], cms[i][0]}; `endif end endgenerate endmodule // clos_sch