1.1 diff -r 252df75c8f67 -r c336e674a37e lm32_multiplier.v 1.2 --- a/lm32_multiplier.v Sun Mar 06 21:17:31 2011 +0000 1.3 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 1.4 @@ -1,99 +0,0 @@ 1.5 -// ============================================================================= 1.6 -// COPYRIGHT NOTICE 1.7 -// Copyright 2006 (c) Lattice Semiconductor Corporation 1.8 -// ALL RIGHTS RESERVED 1.9 -// This confidential and proprietary software may be used only as authorised by 1.10 -// a licensing agreement from Lattice Semiconductor Corporation. 1.11 -// The entire notice above must be reproduced on all authorized copies and 1.12 -// copies may only be made to the extent permitted by a licensing agreement from 1.13 -// Lattice Semiconductor Corporation. 1.14 -// 1.15 -// Lattice Semiconductor Corporation TEL : 1-800-Lattice (USA and Canada) 1.16 -// 5555 NE Moore Court 408-826-6000 (other locations) 1.17 -// Hillsboro, OR 97124 web : http://www.latticesemi.com/ 1.18 -// U.S.A email: techsupport@latticesemi.com 1.19 -// =============================================================================/ 1.20 -// FILE DETAILS 1.21 -// Project : LatticeMico32 1.22 -// File : lm32_multiplier.v 1.23 -// Title : Pipelined multiplier. 1.24 -// Dependencies : lm32_include.v 1.25 -// Version : 6.1.17 1.26 -// : Initial Release 1.27 -// Version : 7.0SP2, 3.0 1.28 -// : No Change 1.29 -// Version : 3.1 1.30 -// : No Change 1.31 -// ============================================================================= 1.32 - 1.33 -`include "lm32_include.v" 1.34 - 1.35 -///////////////////////////////////////////////////// 1.36 -// Module interface 1.37 -///////////////////////////////////////////////////// 1.38 - 1.39 -module lm32_multiplier ( 1.40 - // ----- Inputs ----- 1.41 - clk_i, 1.42 - rst_i, 1.43 - stall_x, 1.44 - stall_m, 1.45 - operand_0, 1.46 - operand_1, 1.47 - // ----- Ouputs ----- 1.48 - result 1.49 - ); 1.50 - 1.51 -///////////////////////////////////////////////////// 1.52 -// Inputs 1.53 -///////////////////////////////////////////////////// 1.54 - 1.55 -input clk_i; // Clock 1.56 -input rst_i; // Reset 1.57 -input stall_x; // Stall instruction in X stage 1.58 -input stall_m; // Stall instruction in M stage 1.59 -input [`LM32_WORD_RNG] operand_0; // Muliplicand 1.60 -input [`LM32_WORD_RNG] operand_1; // Multiplier 1.61 - 1.62 -///////////////////////////////////////////////////// 1.63 -// Outputs 1.64 -///////////////////////////////////////////////////// 1.65 - 1.66 -output [`LM32_WORD_RNG] result; // Product of multiplication 1.67 -reg [`LM32_WORD_RNG] result; 1.68 - 1.69 -///////////////////////////////////////////////////// 1.70 -// Internal nets and registers 1.71 -///////////////////////////////////////////////////// 1.72 - 1.73 -reg [`LM32_WORD_RNG] muliplicand; 1.74 -reg [`LM32_WORD_RNG] multiplier; 1.75 -reg [`LM32_WORD_RNG] product; 1.76 - 1.77 -///////////////////////////////////////////////////// 1.78 -// Sequential logic 1.79 -///////////////////////////////////////////////////// 1.80 - 1.81 -always @(posedge clk_i `CFG_RESET_SENSITIVITY) 1.82 -begin 1.83 - if (rst_i == `TRUE) 1.84 - begin 1.85 - muliplicand <= {`LM32_WORD_WIDTH{1'b0}}; 1.86 - multiplier <= {`LM32_WORD_WIDTH{1'b0}}; 1.87 - product <= {`LM32_WORD_WIDTH{1'b0}}; 1.88 - result <= {`LM32_WORD_WIDTH{1'b0}}; 1.89 - end 1.90 - else 1.91 - begin 1.92 - if (stall_x == `FALSE) 1.93 - begin 1.94 - muliplicand <= operand_0; 1.95 - multiplier <= operand_1; 1.96 - end 1.97 - if (stall_m == `FALSE) 1.98 - product <= muliplicand * multiplier; 1.99 - result <= product; 1.100 - end 1.101 -end 1.102 - 1.103 -endmodule