/////////////////////////////////////////// // alu.sv // // Written: David_Harris@hmc.edu, Sarah.Harris@unlv.edu // Created: 9 January 2021 // Modified: // // Purpose: RISC-V Arithmetic/Logic Unit // // Documentation: RISC-V System on Chip Design Chapter 4 (Figure 4.4) // // A component of the CORE-V-WALLY configurable RISC-V project. // // Copyright (C) 2021-23 Harvey Mudd College & Oklahoma State University // // SPDX-License-Identifier: Apache-2.0 WITH SHL-2.1 // // Licensed under the Solderpad Hardware License v 2.1 (the “License”); you may not use this file // except in compliance with the License, or, at your option, the Apache License version 2.0. You // may obtain a copy of the License at // // https://solderpad.org/licenses/SHL-2.1/ // // Unless required by applicable law or agreed to in writing, any work distributed under the // License is distributed on an “AS IS” BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, // either express or implied. See the License for the specific language governing permissions // and limitations under the License. //////////////////////////////////////////////////////////////////////////////////////////////// `include "wally-config.vh" module alu #(parameter WIDTH=32) ( input logic [WIDTH-1:0] A, B, // Operands input logic [2:0] ALUControl, // With Funct3, indicates operation to perform input logic [6:0] Funct7, // Funct7 from execute stage input logic [2:0] Funct3, // With ALUControl, indicates operation to perform output logic [WIDTH-1:0] Result, // ALU result output logic [WIDTH-1:0] Sum); // Sum of operands // CondInvB = ~B when subtracting, B otherwise. Shift = shift result. SLT/U = result of a slt/u instruction. // FullResult = ALU result before adjusting for a RV64 w-suffix instruction. logic [WIDTH-1:0] CondInvB, Shift, SLT, SLTU, FullResult; // Intermediate results logic Carry, Neg; // Flags: carry out, negative logic LT, LTU; // Less than, Less than unsigned logic W64; // RV64 W-type instruction logic SubArith; // Performing subtraction or arithmetic right shift logic ALUOp; // 0 for address generation addition or 1 for regular ALU ops logic Asign, Bsign; // Sign bits of A, B logic rotate; // Extract control signals from ALUControl. assign {W64, SubArith, ALUOp} = ALUControl; // Addition assign CondInvB = SubArith ? ~B : B; assign {Carry, Sum} = A + CondInvB + {{(WIDTH-1){1'b0}}, SubArith}; // Shifts shifter sh(.A, .Amt(B[`LOG_XLEN-1:0]), .Right(Funct3[2]), .Arith(SubArith), .W64, .Y(Shift), .Rotate(rotate)); // Condition code flags are based on subtraction output Sum = A-B. // Overflow occurs when the numbers being subtracted have the opposite sign // and the result has the opposite sign of A. // LT is simplified from Overflow = Asign & Bsign & Asign & Neg; LT = Neg ^ Overflow assign Neg = Sum[WIDTH-1]; assign Asign = A[WIDTH-1]; assign Bsign = B[WIDTH-1]; assign LT = Asign & ~Bsign | Asign & Neg | ~Bsign & Neg; assign LTU = ~Carry; // SLT assign SLT = {{(WIDTH-1){1'b0}}, LT}; assign SLTU = {{(WIDTH-1){1'b0}}, LTU}; // Select appropriate ALU Result always_comb if (~ALUOp) FullResult = Sum; // Always add for ALUOp = 0 (address generation) else casez (Funct3) // Otherwise check Funct3 3'b000: FullResult = Sum; // add or sub 3'b?01: FullResult = Shift; // sll, sra, or srl 3'b010: FullResult = SLT; // slt 3'b011: FullResult = SLTU; // sltu 3'b100: FullResult = A ^ B; // xor 3'b110: FullResult = A | B; // or 3'b111: FullResult = A & B; // and endcase // Support RV64I W-type addw/subw/addiw/shifts that discard upper 32 bits and sign-extend 32-bit result to 64 bits if (WIDTH == 64) assign Result = W64 ? {{32{FullResult[31]}}, FullResult[31:0]} : FullResult; else assign Result = FullResult; endmodule