litex/verilog/lm32/lm32_multiplier.v

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// ==================================================================
// >>>>>>>>>>>>>>>>>>>>>>> COPYRIGHT NOTICE <<<<<<<<<<<<<<<<<<<<<<<<<
// ------------------------------------------------------------------
// Copyright (c) 2006-2011 by Lattice Semiconductor Corporation
// ALL RIGHTS RESERVED
// ------------------------------------------------------------------
//
// IMPORTANT: THIS FILE IS AUTO-GENERATED BY THE LATTICEMICO SYSTEM.
//
// Permission:
//
// Lattice Semiconductor grants permission to use this code
// pursuant to the terms of the Lattice Semiconductor Corporation
// Open Source License Agreement.
//
// Disclaimer:
//
// Lattice Semiconductor provides no warranty regarding the use or
// functionality of this code. It is the user's responsibility to
// verify the user's design for consistency and functionality through
// the use of formal verification methods.
//
// --------------------------------------------------------------------
//
// Lattice Semiconductor Corporation
// 5555 NE Moore Court
// Hillsboro, OR 97214
// U.S.A
//
// TEL: 1-800-Lattice (USA and Canada)
// 503-286-8001 (other locations)
//
// web: http://www.latticesemi.com/
// email: techsupport@latticesemi.com
//
// --------------------------------------------------------------------
// FILE DETAILS
// Project : LatticeMico32
// File : lm32_multiplier.v
// Title : Pipelined multiplier.
// Dependencies : lm32_include.v
// Version : 6.1.17
// : Initial Release
// Version : 7.0SP2, 3.0
// : No Change
// Version : 3.1
// : No Change
// =============================================================================
`include "lm32_include.v"
/////////////////////////////////////////////////////
// Module interface
/////////////////////////////////////////////////////
module lm32_multiplier (
// ----- Inputs -----
clk_i,
rst_i,
stall_x,
stall_m,
operand_0,
operand_1,
// ----- Ouputs -----
result
);
/////////////////////////////////////////////////////
// Inputs
/////////////////////////////////////////////////////
input clk_i; // Clock
input rst_i; // Reset
input stall_x; // Stall instruction in X stage
input stall_m; // Stall instruction in M stage
input [`LM32_WORD_RNG] operand_0; // Muliplicand
input [`LM32_WORD_RNG] operand_1; // Multiplier
/////////////////////////////////////////////////////
// Outputs
/////////////////////////////////////////////////////
output [`LM32_WORD_RNG] result; // Product of multiplication
reg [`LM32_WORD_RNG] result;
/////////////////////////////////////////////////////
// Internal nets and registers
/////////////////////////////////////////////////////
reg [`LM32_WORD_RNG] muliplicand;
reg [`LM32_WORD_RNG] multiplier;
reg [`LM32_WORD_RNG] product;
/////////////////////////////////////////////////////
// Sequential logic
/////////////////////////////////////////////////////
always @(posedge clk_i `CFG_RESET_SENSITIVITY)
begin
if (rst_i == `TRUE)
begin
muliplicand <= {`LM32_WORD_WIDTH{1'b0}};
multiplier <= {`LM32_WORD_WIDTH{1'b0}};
product <= {`LM32_WORD_WIDTH{1'b0}};
result <= {`LM32_WORD_WIDTH{1'b0}};
end
else
begin
if (stall_x == `FALSE)
begin
muliplicand <= operand_0;
multiplier <= operand_1;
end
if (stall_m == `FALSE)
product <= muliplicand * multiplier;
result <= product;
end
end
endmodule