// ================================================================== // >>>>>>>>>>>>>>>>>>>>>>> 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_adder.v // Title : Integer adder / subtractor with comparison flag generation // 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_adder ( // ----- Inputs ------- adder_op_x, adder_op_x_n, operand_0_x, operand_1_x, // ----- Outputs ------- adder_result_x, adder_carry_n_x, adder_overflow_x ); ///////////////////////////////////////////////////// // Inputs ///////////////////////////////////////////////////// input adder_op_x; // Operating to perform, 0 for addition, 1 for subtraction input adder_op_x_n; // Inverted version of adder_op_x input [`LM32_WORD_RNG] operand_0_x; // Operand to add, or subtract from input [`LM32_WORD_RNG] operand_1_x; // Opearnd to add, or subtract by ///////////////////////////////////////////////////// // Outputs ///////////////////////////////////////////////////// output [`LM32_WORD_RNG] adder_result_x; // Result of addition or subtraction wire [`LM32_WORD_RNG] adder_result_x; output adder_carry_n_x; // Inverted carry wire adder_carry_n_x; output adder_overflow_x; // Indicates if overflow occured, only valid for subtractions reg adder_overflow_x; ///////////////////////////////////////////////////// // Internal nets and registers ///////////////////////////////////////////////////// wire a_sign; // Sign (i.e. positive or negative) of operand 0 wire b_sign; // Sign of operand 1 wire result_sign; // Sign of result ///////////////////////////////////////////////////// // Instantiations ///////////////////////////////////////////////////// lm32_addsub addsub ( // ----- Inputs ----- .DataA (operand_0_x), .DataB (operand_1_x), .Cin (adder_op_x), .Add_Sub (adder_op_x_n), // ----- Ouputs ----- .Result (adder_result_x), .Cout (adder_carry_n_x) ); ///////////////////////////////////////////////////// // Combinational Logic ///////////////////////////////////////////////////// // Extract signs of operands and result assign a_sign = operand_0_x[`LM32_WORD_WIDTH-1]; assign b_sign = operand_1_x[`LM32_WORD_WIDTH-1]; assign result_sign = adder_result_x[`LM32_WORD_WIDTH-1]; // Determine whether an overflow occured when performing a subtraction always @(*) begin // +ve - -ve = -ve -> overflow // -ve - +ve = +ve -> overflow if ( (!a_sign & b_sign & result_sign) || (a_sign & !b_sign & !result_sign) ) adder_overflow_x = `TRUE; else adder_overflow_x = `FALSE; end endmodule