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1 14 wsong0210
/*
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 Asynchronous SDM NoC
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 (C)2011 Wei Song
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 Advanced Processor Technologies Group
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 Computer Science, the Univ. of Manchester, UK
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 Authors:
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 Wei Song     wsong83@gmail.com
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 License: LGPL 3.0 or later
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 Output buffer for Wormhole/SDM routers.
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 *** SystemVerilog is used ***
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15 16 wsong0210
 References
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 * Lookahead pipelines
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     Montek Singh and Steven M. Nowick}, The design of high-performance dynamic asynchronous pipelines: lookahead style, IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 2007(15), 1256-1269. doi:10.1109/TVLSI.2007.902205
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19 14 wsong0210
 History:
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 26/05/2009  Initial version. <wsong83@gmail.com>
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 20/09/2010  Supporting channel slicing and SDM using macro difinitions. <wsong83@gmail.com>
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 22/10/2010  Parameterize the number of pipelines in output buffers. <wsong83@gmail.com>
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 23/05/2011  Clean up for opensource. <wsong83@gmail.com>
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*/
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// the router structure definitions
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`include "define.v"
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// the out buffer
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module outp_buf (/*AUTOARG*/
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   // Outputs
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   o0, o1, o2, o3, o4, ia,
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   // Inputs
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   rst_n, i0, i1, i2, i3, i4, oa
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   );
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   parameter DW = 16;           // the datawidth of a single virtual circuit
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   parameter PD = 2;            // buffer depth
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   parameter SCN = DW/2;        // the number of 1-of-4 sub-channel in each virtual circuit
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   input                  rst_n;          // global reset, active low
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   input [SCN-1:0]         i0, i1, i2, i3; // data input
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   output [SCN-1:0]        o0, o1, o2, o3; // data output
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   wire [PD:0][SCN-1:0]   pd0, pd1, pd2, pd3;  // data wires for the internal pipeline satges
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`ifdef ENABLE_CHANNEL_SLICING
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   input [SCN-1:0]         i4, oa; // eof and ack
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   output [SCN-1:0]        o4, ia;
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   wire [SCN-1:0]          ian_dly;
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   wire [PD:0][SCN-1:0]   pd4, pda, pdan; // internal eof and ack
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`else
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   input                  i4, oa; // eof and ack
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   output                 o4, ia;
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   wire                   ian_dly;
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   wire [PD:0]             pd4, pda, pdan; // internal eof and ack
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`endif
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//-------------------------- pipeline ---------------------------------------//
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    genvar       i,j;
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   generate for(i=0; i<PD; i++) begin: DP
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`ifdef ENABLE_CHANNEL_SLICING
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      for(j=0; j<SCN; j++) begin: SC
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         pipe4 #(.DW(2))
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         P (
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            .o0  ( pd0[i][j]   ),
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            .o1  ( pd1[i][j]   ),
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            .o2  ( pd2[i][j]   ),
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            .o3  ( pd3[i][j]   ),
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            .o4  ( pd4[i][j]   ),
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            .ia  ( pda[i+1][j] ),
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            .i0  ( pd0[i+1][j] ),
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            .i1  ( pd1[i+1][j] ),
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            .i2  ( pd2[i+1][j] ),
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            .i3  ( pd3[i+1][j] ),
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            .i4  ( pd4[i+1][j] ),
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            .oa  ( pdan[i][j]  )
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            );
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      end // block: SC
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`else // !`ifdef ENABLE_CHANNEL_SLICING
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      pipe4 #(.DW(DW))
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      P (
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         .o0  ( pd0[i]   ),
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         .o1  ( pd1[i]   ),
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         .o2  ( pd2[i]   ),
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         .o3  ( pd3[i]   ),
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         .o4  ( pd4[i]   ),
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         .ia  ( pda[i+1] ),
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         .i0  ( pd0[i+1] ),
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         .i1  ( pd1[i+1] ),
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         .i2  ( pd2[i+1] ),
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         .i3  ( pd3[i+1] ),
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         .i4  ( pd4[i+1] ),
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         .oa  ( pdan[i]  )
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         );
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`endif // !`ifdef ENABLE_CHANNEL_SLICING
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   end // block: DP
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   endgenerate
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   // generate the ack lines for data pipelines
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   generate for(i=1; i<PD; i++) begin: DPA
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      assign pdan[i] = rst_n ? ~(pda[i]|pd4[i-1]) : 0;
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   end
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   endgenerate
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   // generate the input ack, add the AND gate if lookahead pipelines are used
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   generate
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`ifdef ENABLE_CHANNEL_SLICING
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      for(j=0; j<SCN; j++) begin: SCA
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 `ifdef ENABLE_LOOKAHEAD
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         and ACKG (ia[j], pda[PD][j]|pd4[PD-1][j], ian_dly[j]);
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         delay DLY ( .q(ian_dly[j]), .a(pdan[PD-1][j]));
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 `else
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         assign ia[j] = pda[PD][j]|pd4[PD-1][j];
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 `endif
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         assign pdan[0][j] = (~oa[j])&rst_n;
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      end
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`else
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 `ifdef ENABLE_LOOKAHEAD
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      and ACKG (ia, pda[PD]|pd4[PD-1], ian_dly);
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      delay DLY ( .q(ian_dly), .a(pdan[PD-1]));
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 `else
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      assign ia = pda[PD]|pd4[PD-1];
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 `endif
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      assign pdan[0] = (~oa)&rst_n;
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`endif // !`ifdef ENABLE_LOOKAHEAD
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   endgenerate
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   // name change
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   assign pd0[PD] = i0;
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   assign pd1[PD] = i1;
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   assign pd2[PD] = i2;
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   assign pd3[PD] = i3;
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   assign pd4[PD] = i4;
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   assign o0 = pd0[0];
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   assign o1 = pd1[0];
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   assign o2 = pd2[0];
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   assign o3 = pd3[0];
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   assign o4 = pd4[0];
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endmodule // outp_buf
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