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[/] [or1k/] [tags/] [rel_26/] [or1200/] [rtl/] [verilog/] [or1200_dpram_32x32.v] - Rev 573
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////////////////////////////////////////////////////////////////////// //// //// //// Generic Double-Port Synchronous RAM //// //// //// //// This file is part of memory library available from //// //// http://www.opencores.org/cvsweb.shtml/generic_memories/ //// //// //// //// Description //// //// This block is a wrapper with common double-port //// //// synchronous memory interface for different //// //// types of ASIC and FPGA RAMs. Beside universal memory //// //// interface it also provides behavioral model of generic //// //// double-port synchronous RAM. //// //// It should be used in all OPENCORES designs that want to be //// //// portable accross different target technologies and //// //// independent of target memory. //// //// //// //// Supported ASIC RAMs are: //// //// - Artisan Double-Port Sync RAM //// //// - Avant! Two-Port Sync RAM (*) //// //// - Virage 2-port Sync RAM //// //// //// //// Supported FPGA RAMs are: //// //// - Xilinx Virtex RAMB4_S16_S16 //// //// //// //// To Do: //// //// - fix Avant! //// //// - xilinx rams need external tri-state logic //// //// - add additional RAMs (Altera, VS etc) //// //// //// //// Author(s): //// //// - Damjan Lampret, lampret@opencores.org //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2000 Authors and OPENCORES.ORG //// //// //// //// This source file may be used and distributed without //// //// restriction provided that this copyright statement is not //// //// removed from the file and that any derivative work contains //// //// the original copyright notice and the associated disclaimer. //// //// //// //// This source file is free software; you can redistribute it //// //// and/or modify it under the terms of the GNU Lesser General //// //// Public License as published by the Free Software Foundation; //// //// either version 2.1 of the License, or (at your option) any //// //// later version. //// //// //// //// This source is distributed in the hope that it will be //// //// useful, but WITHOUT ANY WARRANTY; without even the implied //// //// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR //// //// PURPOSE. See the GNU Lesser General Public License for more //// //// details. //// //// //// //// You should have received a copy of the GNU Lesser General //// //// Public License along with this source; if not, download it //// //// from http://www.opencores.org/lgpl.shtml //// //// //// ////////////////////////////////////////////////////////////////////// // // CVS Revision History // // $Log: not supported by cvs2svn $ // Revision 1.1 2002/01/03 08:16:15 lampret // New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs. // // Revision 1.10 2001/11/05 14:48:00 lampret // Added missing endif // // Revision 1.9 2001/11/02 18:57:14 lampret // Modified virtual silicon instantiations. // // Revision 1.8 2001/10/22 19:39:56 lampret // Fixed parameters in generic sprams. // // Revision 1.7 2001/10/21 17:57:16 lampret // Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF. // // Revision 1.6 2001/10/14 13:12:09 lampret // MP3 version. // // Revision 1.1.1.1 2001/10/06 10:18:36 igorm // no message // // Revision 1.1 2001/08/09 13:39:33 lampret // Major clean-up. // // Revision 1.2 2001/07/30 05:38:02 lampret // Adding empty directories required by HDL coding guidelines // // // synopsys translate_off `include "timescale.v" // synopsys translate_on `include "or1200_defines.v" module or1200_dpram_32x32( // Generic synchronous double-port RAM interface clk_a, rst_a, ce_a, oe_a, addr_a, do_a, clk_b, rst_b, ce_b, we_b, addr_b, di_b ); // // Default address and data buses width // parameter aw = 5; parameter dw = 32; // // Generic synchronous double-port RAM interface // input clk_a; // Clock input rst_a; // Reset input ce_a; // Chip enable input input oe_a; // Output enable input input [aw-1:0] addr_a; // address bus inputs output [dw-1:0] do_a; // output data bus input clk_b; // Clock input rst_b; // Reset input ce_b; // Chip enable input input we_b; // Write enable input input [aw-1:0] addr_b; // address bus inputs input [dw-1:0] di_b; // input data bus // // Internal wires and registers // `ifdef OR1200_ARTISAN_SDP // // Instantiation of ASIC memory: // // Artisan Synchronous Double-Port RAM (ra2sh) // `ifdef UNUSED art_hsdp_32x32 #(dw, 1<<aw, aw) artisan_sdp( `else art_hsdp_32x32 artisan_sdp( `endif .qa(do_a), .clka(clk_a), .cena(~ce_a), .wena(1'b1), .aa(addr_a), .da(32'h00000000), .oena(~oe_a), .qb(), .clkb(clk_b), .cenb(~ce_b), .wenb(~we_b), .ab(addr_b), .db(di_b), .oenb(1'b1) ); `else `ifdef OR1200_AVANT_ATP // // Instantiation of ASIC memory: // // Avant! Asynchronous Two-Port RAM // avant_atp avant_atp( .web(~we), .reb(), .oeb(~oe), .rcsb(), .wcsb(), .ra(addr), .wa(addr), .di(di), .do(do) ); `else `ifdef OR1200_VIRAGE_STP // // Instantiation of ASIC memory: // // Virage Synchronous 2-port R/W RAM // virage_stp virage_stp( .QA(do_a), .QB(), .ADRA(addr_a), .DA(32'h00000000), .WEA(1'b0), .OEA(oe_a), .MEA(ce_a), .CLKA(clk_a), .ADRB(addr_b), .DB(di_b), .WEB(we_b), .OEB(1'b1), .MEB(ce_b), .CLKB(clk_b) ); `else `ifdef OR1200_VIRTUALSILICON_STP // // Instantiation of ASIC memory: // // Virtual Silicon Two-port R/W SRAM // `ifdef UNUSED vs_hdtp_32x32 #(1<<aw, aw-1, dw-1) vs_ssp( `else vs_hdtp_32x32 vs_ssp( `endif .RCK(clk_a), .REN(~ce_a), .OEN(~oe_a), .RADR(addr_a), .DI(di_b), .WCK(clk_b), .WEN(~ce_b), .WADR(addr_b), .DOUT(do_a) ); `else `ifdef OR1200_XILINX_RAM32X1D // // Instantiation of FPGA memory: // // Virtex/Spartan2 // // // Block 0 // or1200_xcv_ram32x8d xcv_ram32x8d_0 ( .DPO(do_a[7:0]), .SPO(), .A(addr_b), .D(di_b[7:0]), .DPRA(addr_a), .WCLK(clk_b), .WE(we_b) ); // // Block 1 // or1200_xcv_ram32x8d xcv_ram32x8d_1 ( .DPO(do_a[15:8]), .SPO(), .A(addr_b), .D(di_b[15:8]), .DPRA(addr_a), .WCLK(clk_b), .WE(we_b) ); // // Block 2 // or1200_xcv_ram32x8d xcv_ram32x8d_2 ( .DPO(do_a[23:16]), .SPO(), .A(addr_b), .D(di_b[23:16]), .DPRA(addr_a), .WCLK(clk_b), .WE(we_b) ); // // Block 3 // or1200_xcv_ram32x8d xcv_ram32x8d_3 ( .DPO(do_a[31:24]), .SPO(), .A(addr_b), .D(di_b[31:24]), .DPRA(addr_a), .WCLK(clk_b), .WE(we_b) ); `else `ifdef OR1200_XILINX_RAMB4 // // Instantiation of FPGA memory: // // Virtex/Spartan2 // // // Block 0 // RAMB4_S16_S16 ramb4_s16_0( .CLKA(clk_a), .RSTA(rst_a), .ADDRA({3'b000, addr_a}), .DIA(16'h0000), .ENA(ce_a), .WEA(1'b0), .DOA(do_a[15:0]), .CLKB(clk_b), .RSTB(rst_b), .ADDRB({3'b000, addr_b}), .DIB(di_b[15:0]), .ENB(ce_b), .WEB(we_b), .DOB() ); // // Block 1 // RAMB4_S16_S16 ramb4_s16_1( .CLKA(clk_a), .RSTA(rst_a), .ADDRA({3'b000, addr_a}), .DIA(16'h0000), .ENA(ce_a), .WEA(1'b0), .DOA(do_a[31:16]), .CLKB(clk_b), .RSTB(rst_b), .ADDRB({3'b000, addr_b}), .DIB(di_b[31:16]), .ENB(ce_b), .WEB(we_b), .DOB() ); `else // // Generic double-port synchronous RAM model // // // Generic RAM's registers and wires // reg [dw-1:0] mem [(1<<aw)-1:0]; // RAM content reg [dw-1:0] do_reg; // RAM data output register // // Data output drivers // assign do_a = (oe_a) ? do_reg : {dw{1'bz}}; // // RAM read // always @(posedge clk_a) if (ce_a) do_reg <= #1 mem[addr_a]; // // RAM write // always @(posedge clk_b) if (ce_b && we_b) mem[addr_b] <= #1 di_b; `endif // !OR1200_XILINX_RAMB4_S16_S16 `endif // !OR1200_XILINX_RAM32X1D `endif // !OR1200_VIRTUALSILICON_SSP `endif // !OR1200_VIRAGE_STP `endif // !OR1200_AVANT_ATP `endif // !OR1200_ARTISAN_SDP endmodule
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