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[/] [amber/] [trunk/] [hw/] [vlog/] [system/] [main_mem.v] - Blame information for rev 79

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1 2 csantifort
//////////////////////////////////////////////////////////////////
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//                                                              //
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//  Main memory for simulations.                                //
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//                                                              //
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//  This file is part of the Amber project                      //
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//  http://www.opencores.org/project,amber                      //
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//                                                              //
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//  Description                                                 //
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//  Non-synthesizable main memory. Holds 128MBytes              //
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//  The memory path in this module is purely combinational.     //
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//  Addresses and write_cmd_req data are registered as          //
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//  the leave the execute module and read data is registered    //
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//  as it enters the instruction_decode module.                 //
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//                                                              //
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//  Author(s):                                                  //
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//      - Conor Santifort, csantifort.amber@gmail.com           //
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//                                                              //
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//////////////////////////////////////////////////////////////////
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//                                                              //
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// Copyright (C) 2010 Authors and OPENCORES.ORG                 //
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//                                                              //
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// This source file may be used and distributed without         //
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// restriction provided that this copyright statement is not    //
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// removed from the file and that any derivative work contains  //
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// the original copyright notice and the associated disclaimer. //
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//                                                              //
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// This source file is free software; you can redistribute it   //
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// and/or modify it under the terms of the GNU Lesser General   //
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// Public License as published by the Free Software Foundation; //
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// either version 2.1 of the License, or (at your option) any   //
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// later version.                                               //
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//                                                              //
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// This source is distributed in the hope that it will be       //
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// useful, but WITHOUT ANY WARRANTY; without even the implied   //
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// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      //
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// PURPOSE.  See the GNU Lesser General Public License for more //
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// details.                                                     //
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//                                                              //
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// You should have received a copy of the GNU Lesser General    //
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// Public License along with this source; if not, download it   //
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// from http://www.opencores.org/lgpl.shtml                     //
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//                                                              //
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//////////////////////////////////////////////////////////////////
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46 35 csantifort
module main_mem#(
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parameter WB_DWIDTH  = 32,
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parameter WB_SWIDTH  = 4
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)(
50 2 csantifort
input                          i_clk,
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input                          i_mem_ctrl,  // 0=128MB, 1=32MB
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// Wishbone Bus
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input       [31:0]             i_wb_adr,
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input       [WB_SWIDTH-1:0]    i_wb_sel,
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input                          i_wb_we,
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output      [WB_DWIDTH-1:0]    o_wb_dat,
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input       [WB_DWIDTH-1:0]    i_wb_dat,
58 2 csantifort
input                          i_wb_cyc,
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input                          i_wb_stb,
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output                         o_wb_ack,
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output                         o_wb_err
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);
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`include "memory_configuration.v"
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reg     [127:0]     ram   [2**(MAIN_MSB-2)-1:0];
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wire                start_write;
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wire                start_read;
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reg                 start_read_d1;
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reg                 start_read_d2;
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wire    [127:0]     rd_data;
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wire    [127:0]     masked_wdata;
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reg                 wr_en           = 'd0;
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reg     [15:0]      wr_mask         = 'd0;
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reg     [127:0]     wr_data         = 'd0;
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reg     [27:0]      addr_d1         = 'd0;
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wire                busy;
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genvar              i;
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assign start_write = i_wb_stb &&  i_wb_we && !busy;
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assign start_read  = i_wb_stb && !i_wb_we && !busy;
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assign busy        = start_read_d1 || start_read_d2;
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assign o_wb_err    = 'd0;
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generate
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if (WB_DWIDTH == 128)
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    begin : wb128
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    reg     [127:0]      wb_rdata128 = 'd0;
94 11 csantifort
 
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    // ------------------------------------------------------
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    // Write for 32-bit wishbone
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    // ------------------------------------------------------
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    always @( posedge i_clk )
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        begin
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        wr_en          <= start_write;
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        wr_mask        <= ~ i_wb_sel;
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        wr_data        <= i_wb_dat;
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104 35 csantifort
                          // Wrap the address at 32 MB, or full width
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        addr_d1        <= i_mem_ctrl ? {5'd0, i_wb_adr[24:2]} : i_wb_adr[29:2];
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        if ( wr_en )
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            ram [addr_d1[27:2]]  <= masked_wdata;
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        end
110 2 csantifort
 
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112 35 csantifort
    for (i=0;i<16;i=i+1) begin : masked
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        assign masked_wdata[8*i+7:8*i] = wr_mask[i] ? rd_data[8*i+7:8*i] : wr_data[8*i+7:8*i];
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        end
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    // ------------------------------------------------------
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    // Read for 32-bit wishbone
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    // ------------------------------------------------------
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    assign rd_data = ram [addr_d1[27:2]];
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122 35 csantifort
    always @( posedge i_clk )
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        begin
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        start_read_d1   <= start_read;
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        start_read_d2   <= start_read_d1;
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        if ( start_read_d1 )
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            begin
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            wb_rdata128 <= rd_data;
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            end
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        end
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    assign o_wb_dat = wb_rdata128 ;
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    assign o_wb_ack = i_wb_stb && ( start_write || start_read_d2 );
133 2 csantifort
 
134 35 csantifort
    end
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else
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    begin : wb32
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    reg     [31:0]      wb_rdata32 = 'd0;
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    // ------------------------------------------------------
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    // Write for 32-bit wishbone
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    // ------------------------------------------------------
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    always @( posedge i_clk )
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        begin
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        wr_en          <= start_write;
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        wr_mask        <= i_wb_adr[3:2] == 2'd0 ? { 12'hfff, ~i_wb_sel          } :
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                          i_wb_adr[3:2] == 2'd1 ? { 8'hff,   ~i_wb_sel, 4'hf    } :
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                          i_wb_adr[3:2] == 2'd2 ? { 4'hf,    ~i_wb_sel, 8'hff   } :
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                                                  {          ~i_wb_sel, 12'hfff } ;
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        wr_data        <= {4{i_wb_dat}};
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                          // Wrap the address at 32 MB, or full width
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        addr_d1        <= i_mem_ctrl ? {5'd0, i_wb_adr[24:2]} : i_wb_adr[29:2];
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        if ( wr_en )
155 57 csantifort
            begin
156 35 csantifort
            ram [addr_d1[27:2]]  <= masked_wdata;
157 57 csantifort
            `ifdef AMBER_MEMIF_DEBUG
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            $write("%09d  ", `U_TB.clk_count);
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            $display("Main memory write: address %h, data %h, be %d%d%d%d",
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                        {2'd0, addr_d1, 2'd0}, wr_data[31:0],
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                        ~wr_mask[addr_d1[1:0]*4+3],
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                        ~wr_mask[addr_d1[1:0]*4+2],
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                        ~wr_mask[addr_d1[1:0]*4+1],
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                        ~wr_mask[addr_d1[1:0]*4+0]                        );
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            `endif
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            end
167 2 csantifort
        end
168 35 csantifort
 
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    for (i=0;i<16;i=i+1) begin : masked
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        assign masked_wdata[8*i+7:8*i] = wr_mask[i] ? rd_data[8*i+7:8*i] : wr_data[8*i+7:8*i];
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        end
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    // ------------------------------------------------------
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    // Read for 32-bit wishbone
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    // ------------------------------------------------------
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    assign rd_data = ram [addr_d1[27:2]];
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    always @( posedge i_clk )
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        begin
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        start_read_d1   <= start_read;
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        start_read_d2   <= start_read_d1;
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        if ( start_read_d1 )
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            begin
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            wb_rdata32 <= addr_d1[1:0] == 2'd0 ? rd_data[ 31: 0] :
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                          addr_d1[1:0] == 2'd1 ? rd_data[ 63:32] :
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                          addr_d1[1:0] == 2'd2 ? rd_data[ 95:64] :
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                                                 rd_data[127:96] ;
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            end
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        end
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    assign o_wb_dat = wb_rdata32 ;
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    assign o_wb_ack = i_wb_stb && ( start_write || start_read_d2 );
193 2 csantifort
    end
194 35 csantifort
endgenerate
195 2 csantifort
 
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endmodule
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