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[/] [async_sdm_noc/] [trunk/] [sdm/] [src/] [im_alloc.v] - Rev 31
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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 IM allocator (the IM dispatcher in the thesis) *** 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: 05/09/2009 Initial version. <wsong83@gmail.com> 10/10/2009 Add the reset port. <wsong83@gmail.com> 05/11/2009 Speed up the arbiter. <wsong83@gmail.com> 10/06/2010 [Major] change to use PIM structure. <wsong83@gmail.com> 23/08/2010 Fix the non-QDI request withdraw process. <wsong83@gmail.com> 27/05/2011 Clean up for opensource. <wsong83@gmail.com> */ // the router structure definitions `include "define.v" module im_alloc (/*AUTOARG*/ `ifndef ENABLE_CRRD CMs, `endif // Outputs IMa, cfg, // Inputs IMr, rst_n ) ; // parameters parameter VCN = 2; // the number of virtual circuits on one port parameter CMN = 2; // the number of central modules parameter SN = 2; // the possible output port choice of a port input [VCN-1:0][SN-1:0] IMr; // the requests from virtual circuits output [VCN-1:0] IMa; // switch ready, ack for the request `ifndef ENABLE_CRRD input [CMN-1:0][SN-1:0] CMs; // the states from CMs `endif input rst_n; // the negtive active reset output [CMN-1:0][VCN-1:0] cfg; // the matrix configuration signals // internal wires `ifdef ENABLE_CRRD `ifdef ENABLE_MRMA wire [VCN-1:0] IPr; // request to the MRMA wire [CMN-1:0] OPrdy, OPblk; // OP ready and blocked status wire [CMN:0] OPrst_n; // the buffered resets to avoid metastability `else wire [VCN-1:0][CMN-1:0] IPr; // request to the MNMA `endif `else // using the feedback from CMs wire [VCN-1:0][CMN-1:0][SN-1:0] IPrm; // to generate the practical IPr wire [VCN-1:0][CMN-1:0] IPr; `endif // generate variables genvar i, j, k; //---------------------------------------- // the PIM crossbar allocator `ifndef ENABLE_MRMA mnma #(.N(VCN), .M(CMN)) PIMA ( .cfg ( cfg ), .r ( IPr ), .ra ( IMa ) ); generate for(i=0; i<VCN; i++) begin: IPC for(j=0; j<CMN; j++) begin: OPC `ifdef ENABLE_CRRD assign IPr[i][j] = |IMr[i]; `else assign IPr[i][j] = |IPrm[i][j]; for(k=0; k<SN; k++) begin: DIRC c2p IPRen (.q(IPrm[i][j][k]), .a0(IMr[i][k]), .a1(~CMs[j][k])); end `endif end end // block: IPC endgenerate `else mrma #(.N(VCN), .M(CMN)) PIMA ( .ca ( IMa ), .ra ( OPblk ), .cfg ( cfg ), .c ( IPr ), .r ( OPrdy ), .rst_n ( rst_n ) ); generate for(i=0; i<CMN; i++) begin: OPC delay DLY ( .q(OPrst_n[i+1]), .a(OPrst_n[i])); // dont touch assign OPrdy[i] = (~OPblk[i])&OPrst_n[i+1]; end for(i=0; i<VCN; i++) begin: IPC assign IPr[i] = |IMr[i]; end endgenerate assign OPrst_n[0] = rst_n; `endif // !`ifndef ENABLE_MRMA endmodule // im_alloc
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