411 lines
10 KiB
Coq
411 lines
10 KiB
Coq
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//////////////////////////////////////////////////////////////////////
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//// ////
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//// Generic Single-Port Synchronous RAM ////
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//// ////
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//// This file is part of memory library available from ////
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//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
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//// ////
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//// Description ////
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//// This block is a wrapper with common single-port ////
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//// synchronous memory interface for different ////
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//// types of ASIC and FPGA RAMs. Beside universal memory ////
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//// interface it also provides a behavioral model of generic ////
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//// single-port synchronous RAM. ////
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//// It also contains a synthesizeable model for FPGAs. ////
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//// It should be used in all OPENCORES designs that want to be ////
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//// portable accross different target technologies and ////
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//// independent of target memory. ////
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//// ////
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//// Supported ASIC RAMs are: ////
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//// - Artisan Single-Port Sync RAM ////
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//// - Avant! Two-Port Sync RAM (*) ////
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//// - Virage Single-Port Sync RAM ////
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//// - Virtual Silicon Single-Port Sync RAM ////
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//// ////
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//// Supported FPGA RAMs are: ////
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//// - Generic FPGA (VENDOR_FPGA) ////
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//// Tested RAMs: Altera, Xilinx ////
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//// Synthesis tools: LeonardoSpectrum, Synplicity ////
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//// - Xilinx (VENDOR_XILINX) ////
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//// - Altera (VENDOR_ALTERA) ////
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//// ////
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//// To Do: ////
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//// - fix avant! two-port ram ////
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//// - add additional RAMs ////
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//// ////
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//// Author(s): ////
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//// - Richard Herveille, richard@asics.ws ////
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//// - Damjan Lampret, lampret@opencores.org ////
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//// ////
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//////////////////////////////////////////////////////////////////////
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//// ////
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//// Copyright (C) 2000 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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//
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// CVS Revision History
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//
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// $Log: generic_spram.v,v $
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// Revision 1.3 2003/03/18 21:45:48 rherveille
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// Added WISHBONE revB.3 Registered Feedback Cycles support
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//
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//
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//
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`include "timescale.v"
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//`define VENDOR_XILINX
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//`define VENDOR_ALTERA
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`define VENDOR_FPGA
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module generic_spram(
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// Generic synchronous single-port RAM interface
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clk, rst, ce, we, oe, addr, di, do
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);
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//
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// Default address and data buses width
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//
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parameter aw = 6; //number of address-bits
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parameter dw = 8; //number of data-bits
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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; // Write enable input, active high
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input oe; // Output enable input, active high
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input [aw-1:0] addr; // address bus inputs
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input [dw-1:0] di; // input data bus
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output [dw-1:0] do; // output data bus
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//
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// Module body
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//
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`ifdef VENDOR_FPGA
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//
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// Instantiation synthesizeable FPGA memory
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//
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// This code has been tested using LeonardoSpectrum and Synplicity.
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// The code correctly instantiates Altera EABs and Xilinx BlockRAMs.
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//
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// NOTE:
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// 'synthesis syn_ramstyle="block_ram"' is a Synplify attribute.
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// It instructs Synplify to map to BlockRAMs instead of the default SelectRAMs
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reg [dw-1:0] mem [(1<<aw) -1:0] /* synthesis syn_ramstyle="block_ram" */;
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reg [aw-1:0] ra;
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// read operation
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always @(posedge clk)
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if (ce)
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ra <= #1 addr; // read address needs to be registered to read clock
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assign #1 do = mem[ra];
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// write operation
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always @(posedge clk)
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if (we && ce)
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mem[addr] <= #1 di;
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`else
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`ifdef VENDOR_XILINX
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wire [dw-1:0] q; // output from xilinx ram
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//
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// Instantiation of FPGA memory:
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//
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// Virtex/Spartan2 BlockRAMs
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//
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xilinx_ram_sp xilinx_ram(
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.clk(clk),
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.rst(rst),
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.addr(addr),
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.di(di),
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.en(ce),
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.we(we),
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.do(do)
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);
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defparam
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xilinx_ram.dwidth = dw,
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xilinx_ram.awidth = aw;
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`else
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`ifdef VENDOR_ALTERA
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//
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// Instantiation of FPGA memory:
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//
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// Altera FLEX EABs
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//
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altera_ram_sp altera_ram(
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.inclock(clk),
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.address(addr),
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.data(di),
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.we(we && ce),
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.q(do)
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);
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defparam
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altera_ram.dwidth = dw,
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altera_ram.awidth = aw;
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`else
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`ifdef VENDOR_ARTISAN
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//
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// Instantiation of ASIC memory:
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//
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// Artisan Synchronous Single-Port RAM (ra1sh)
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//
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artisan_ssp #(dw, 1<<aw, aw) artisan_ssp(
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.CLK(clk),
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.CEN(~ce),
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.WEN(~we),
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.A(addr),
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.D(di),
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.OEN(~oe),
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.Q(do)
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);
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`else
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`ifdef VENDOR_AVANT
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//
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// Instantiation of ASIC memory:
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//
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// Avant! Asynchronous Two-Port RAM
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//
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avant_atp avant_atp(
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.web(~we),
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.reb(),
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.oeb(~oe),
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.rcsb(),
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.wcsb(),
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.ra(addr),
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.wa(addr),
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.di(di),
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.do(do)
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);
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`else
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`ifdef VENDOR_VIRAGE
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//
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// Instantiation of ASIC memory:
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//
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// Virage Synchronous 1-port R/W RAM
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//
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virage_ssp virage_ssp(
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.clk(clk),
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.adr(addr),
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.d(di),
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.we(we),
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.oe(oe),
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.me(ce),
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.q(do)
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);
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`else
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`ifdef VENDOR_VIRTUALSILICON
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//
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// Instantiation of ASIC memory:
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//
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// Virtual Silicon Single-Port Synchronous SRAM
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//
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virtualsilicon_spram #(1<<aw, aw-1, dw-1) virtualsilicon_ssp(
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.CK(clk),
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.ADR(addr),
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.DI(di),
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.WEN(~we),
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.CEN(~ce),
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.OEN(~oe),
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.DOUT(do)
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);
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`else
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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 [dw-1:0] mem [(1<<aw)-1:0]; // RAM content
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wire [dw-1:0] q; // RAM output
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reg [aw-1:0] raddr; // RAM read address
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//
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// Data output drivers
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//
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assign do = (oe) ? q : {dw{1'bz}};
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//
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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) // && !we)
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raddr <= #1 addr; // read address needs to be registered to read clock
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assign #1 q = rst ? {dw{1'b0}} : mem[raddr];
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// write operation
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always@(posedge clk)
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if (ce && we)
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mem[addr] <= #1 di;
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`endif // !VIRTUALSILICON_SSP
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`endif // !VIRAGE_SSP
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`endif // !AVANT_ATP
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`endif // !ARTISAN_SSP
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`endif // !VENDOR_ALTERA
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`endif // !VENDOR_XILINX
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`endif // !VENDOR_FPGA
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endmodule
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//
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// Black-box modules
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//
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`ifdef VENDOR_ALTERA
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module altera_ram_sp (
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address,
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inclock,
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we,
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data,
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q) /* synthesis black_box */;
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parameter awidth = 7;
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parameter dwidth = 8;
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input [awidth -1:0] address;
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input inclock;
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input we;
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input [dwidth -1:0] data;
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output [dwidth -1:0] q;
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// synopsis translate_off
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// exemplar translate_off
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syn_ram_irou #(
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"UNUSED",
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dwidth,
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awidth,
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1 << awidth
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)
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altera_spram_model (
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.Inclock(inclock),
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.Address(address),
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.Data(data),
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.WE(we),
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.Q(q)
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);
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// exemplar translate_on
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// synopsis translate_on
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endmodule
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`endif // VENDOR_ALTERA
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`ifdef VENDOR_XILINX
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module xilinx_ram_sp (
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clk,
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rst,
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addr,
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di,
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en,
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we,
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do) /* synthesis black_box */ ;
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parameter awidth = 7;
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parameter dwidth = 8;
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input clk;
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input rst;
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input [awidth -1:0] addr;
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input [dwidth -1:0] di;
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input en;
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input we;
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output [dwidth -1:0] do;
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// insert simulation model
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// synopsys translate_off
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// exemplar translate_off
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C_MEM_SP_BLOCK_V1_0 #(
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awidth,
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1,
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"0",
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1 << awidth,
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1,
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1,
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1,
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1,
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1,
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1,
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1,
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"",
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16,
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0,
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0,
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1,
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1,
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dwidth
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)
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xilinx_spram_model (
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.CLK(clk),
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.RST(rst),
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.ADDR(addr),
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.DI(di),
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.EN(en),
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.WE(we),
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.DO(do)
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);
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// exemplar translate_on
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// synopsys translate_on
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endmodule
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`endif // VENDOR_XILINX
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