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[/] [openrisc/] [trunk/] [orpsocv2/] [rtl/] [verilog/] [ethmac/] [eth_spram_256x32.v] - Blame information for rev 761

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//////////////////////////////////////////////////////////////////////
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////                                                              ////
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////  eth_spram_256x32.v                                          ////
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////                                                              ////
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////  This file is part of the Ethernet IP core project           ////
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////  http://www.opencores.org/project,ethmac                     ////
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////                                                              ////
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////  Author(s):                                                  ////
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////      - Igor Mohor (igorM@opencores.org)                      ////
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////                                                              ////
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////  All additional information is available in the Readme.txt   ////
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////  file.                                                       ////
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////                                                              ////
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//////////////////////////////////////////////////////////////////////
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////                                                              ////
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//// Copyright (C) 2001, 2002 Authors                             ////
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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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//
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// CVS Revision History
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//
43 403 julius
// $Log: not supported by cvs2svn $
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// Revision 1.9  2003/12/05 12:43:06  tadejm
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// Corrected address mismatch for xilinx RAMB4_S8 model which has wider address than RAMB4_S16.
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//
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// Revision 1.8  2003/12/04 14:59:13  simons
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// Lapsus fixed (!we -> ~we).
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//
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// Revision 1.7  2003/11/12 18:24:59  tadejm
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// WISHBONE slave changed and tested from only 32-bit accesss to byte access.
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//
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// Revision 1.6  2003/10/17 07:46:15  markom
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// mbist signals updated according to newest convention
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//
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// Revision 1.5  2003/08/14 16:42:58  simons
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// Artisan ram instance added.
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//
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// Revision 1.4  2002/10/18 17:04:20  tadejm
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// Changed BIST scan signals.
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//
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// Revision 1.3  2002/10/10 16:29:30  mohor
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// BIST added.
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//
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// Revision 1.2  2002/09/23 18:24:31  mohor
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// ETH_VIRTUAL_SILICON_RAM supported (for ASIC implementation).
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//
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// Revision 1.1  2002/07/23 16:36:09  mohor
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// ethernet spram added. So far a generic ram and xilinx RAMB4 are used.
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//
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//
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//
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74 409 julius
`include "ethmac_defines.v"
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`include "timescale.v"
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module eth_spram_256x32(
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                        // Generic synchronous single-port RAM interface
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                        clk, rst, ce, we, oe, addr, di, dato
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`ifdef ETH_BIST
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                        ,
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                        // debug chain signals
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                        mbist_si_i,       // bist scan serial in
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                        mbist_so_o,       // bist scan serial out
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                        mbist_ctrl_i        // bist chain shift control
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`endif
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                        );
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   parameter we_width = 4;
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   //
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   // Generic synchronous single-port RAM interface
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   //
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   input           clk;  // Clock, rising edge
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   input           rst;  // Reset, active high
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   input           ce;   // Chip enable input, active high
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   input [we_width-1:0] we;   // Write enable input, active high
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   input                oe;   // Output enable input, active high
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   input [7:0]           addr; // address bus inputs
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   input [31:0]  di;   // input data bus
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   output [31:0]         dato;   // output data bus
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`ifdef ETH_BIST
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   input           mbist_si_i;       // bist scan serial in
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   output          mbist_so_o;       // bist scan serial out
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   input [`ETH_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;       // bist chain shift control
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`endif
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`ifdef ETH_XILINX_RAMB4
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   /*RAMB4_S16 ram0
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    (
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    .DO      (do[15:0]),
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    .ADDR    (addr),
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    .DI      (di[15:0]),
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    .EN      (ce),
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    .CLK     (clk),
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    .WE      (we),
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    .RST     (rst)
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    );
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126
    RAMB4_S16 ram1
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    (
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    .DO      (do[31:16]),
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    .ADDR    (addr),
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    .DI      (di[31:16]),
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    .EN      (ce),
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    .CLK     (clk),
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    .WE      (we),
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    .RST     (rst)
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    );*/
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   RAMB4_S8 ram0
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     (
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      .DO      (dato[7:0]),
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      .ADDR    ({1'b0, addr}),
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      .DI      (di[7:0]),
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      .EN      (ce),
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      .CLK     (clk),
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      .WE      (we[0]),
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      .RST     (rst)
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      );
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   RAMB4_S8 ram1
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     (
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      .DO      (dato[15:8]),
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      .ADDR    ({1'b0, addr}),
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      .DI      (di[15:8]),
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      .EN      (ce),
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      .CLK     (clk),
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      .WE      (we[1]),
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      .RST     (rst)
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      );
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   RAMB4_S8 ram2
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     (
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      .DO      (dato[23:16]),
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      .ADDR    ({1'b0, addr}),
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      .DI      (di[23:16]),
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      .EN      (ce),
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      .CLK     (clk),
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      .WE      (we[2]),
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      .RST     (rst)
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      );
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   RAMB4_S8 ram3
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     (
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      .DO      (dato[31:24]),
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      .ADDR    ({1'b0, addr}),
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      .DI      (di[31:24]),
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      .EN      (ce),
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      .CLK     (clk),
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      .WE      (we[3]),
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      .RST     (rst)
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      );
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`else   // !ETH_XILINX_RAMB4
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 `ifdef  ETH_VIRTUAL_SILICON_RAM
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  `ifdef ETH_BIST
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   //vs_hdsp_256x32_bist ram0_bist
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   vs_hdsp_256x32_bw_bist ram0_bist
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  `else
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     //vs_hdsp_256x32 ram0
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     vs_hdsp_256x32_bw ram0
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  `endif
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       (
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        .CK         (clk),
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        .CEN        (!ce),
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        .WEN        (~we),
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        .OEN        (!oe),
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        .ADR        (addr),
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        .DI         (di),
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        .DOUT       (dato)
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  `ifdef ETH_BIST
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        ,
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        // debug chain signals
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        .mbist_si_i       (mbist_si_i),
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        .mbist_so_o       (mbist_so_o),
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        .mbist_ctrl_i       (mbist_ctrl_i)
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  `endif
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        );
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 `else   // !ETH_VIRTUAL_SILICON_RAM
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  `ifdef  ETH_ARTISAN_RAM
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   `ifdef ETH_BIST
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   //art_hssp_256x32_bist ram0_bist
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   art_hssp_256x32_bw_bist ram0_bist
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   `else
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     //art_hssp_256x32 ram0
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     art_hssp_256x32_bw ram0
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   `endif
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       (
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        .CLK        (clk),
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        .CEN        (!ce),
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        .WEN        (~we),
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        .OEN        (!oe),
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        .A          (addr),
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        .D          (di),
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        .Q          (dato)
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   `ifdef ETH_BIST
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        ,
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        // debug chain signals
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        .mbist_si_i       (mbist_si_i),
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        .mbist_so_o       (mbist_so_o),
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        .mbist_ctrl_i     (mbist_ctrl_i)
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   `endif
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        );
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  `else   // !ETH_ARTISAN_RAM
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   `ifdef ETH_ALTERA_ALTSYNCRAM
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   altera_spram_256x32  altera_spram_256x32_inst
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     (
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      .address        (addr),
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      .wren           (ce & we),
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      .clock          (clk),
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      .data           (di),
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      .q              (dato)
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      );  //exemplar attribute altera_spram_256x32_inst NOOPT TRUE
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   `else   // !ETH_ALTERA_ALTSYNCRAM
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   //
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   // Generic single-port synchronous RAM model
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   //
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   //
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   // Generic RAM's registers and wires
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   //
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   reg [ 7: 0]                          mem0 [255:0]; // RAM content
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   reg [15: 8]                         mem1 [255:0]; // RAM content
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   reg [23:16]                         mem2 [255:0]; // RAM content
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   reg [31:24]                         mem3 [255:0]; // RAM content
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   wire [31:0]                          q;            // RAM output
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   reg [7:0]                            raddr;        // RAM read address
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   reg [31:0]                           mem[255:0];
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   //
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   // Data output drivers
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   //
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   //assign do = (oe & ce) ? q : {32{1'bz}};
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   assign dato = (oe & ce) ? q : {32{1'bx}};
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273 403 julius
   //
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   // RAM read and write
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   //
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   // read operation
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   always@(posedge clk)
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     if (ce)
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       raddr <=  addr; // read address needs to be registered to read clock
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282 403 julius
   generate
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      if (we_width > 1)
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        begin
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286
           assign  q = rst ? {32{1'b0}} : {mem3[raddr], mem2[raddr], mem1[raddr],
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                                             mem0[raddr]};
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289
           // write operation
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           always@(posedge clk)
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             begin
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                if (ce && we[3])
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                  mem3[addr] <=  di[31:24];
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                if (ce && we[2])
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                  mem2[addr] <=  di[23:16];
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                if (ce && we[1])
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                  mem1[addr] <=  di[15: 8];
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                if (ce && we[0])
299 403 julius
                  mem0[addr] <=  di[ 7: 0];
300
             end
301 6 julius
 
302 403 julius
        end // if (we_width > 1)
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      else
304
        begin
305
           assign  q = rst ? {32{1'b0}} : {mem[raddr]};
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307 403 julius
           // write operation
308
           always@(posedge clk)
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             begin
310
                if (ce && we[0])
311
                  mem[addr] <=  di[ 31: 0];
312
             end
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314
        end // else: !if(we_width > 1)
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      endgenerate
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   // Task prints range of memory
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   // *** Remember that tasks are non reentrant, don't call this task in parallel for multiple instantiations. 
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   task print_ram;
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      input [7:0] start;
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      input [7:0] finish;
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      integer     rnum;
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      begin
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         for (rnum={24'd0,start};rnum<={24'd0,finish};rnum=rnum+1)
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           $display("Addr %h = %0h %0h %0h %0h",rnum,mem3[rnum],mem2[rnum],mem1[rnum],mem0[rnum]);
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      end
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   endtask
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   `endif  // !ETH_ALTERA_ALTSYNCRAM
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  `endif  // !ETH_ARTISAN_RAM
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 `endif  // !ETH_VIRTUAL_SILICON_RAM
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`endif  // !ETH_XILINX_RAMB4
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endmodule

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