/////////////////////////////////////////// // globalHistoryPredictor.sv // // Written: Shreya Sanghai // Email: ssanghai@hmc.edu // Created: March 16, 2021 // Modified: // // Purpose: Gshare predictor with parameterized global history register // // A component of the Wally configurable RISC-V project. // // Copyright (C) 2021 Harvey Mudd College & Oklahoma State University // // MIT LICENSE // Permission is hereby granted, free of charge, to any person obtaining a copy of this // software and associated documentation files (the "Software"), to deal in the Software // without restriction, including without limitation the rights to use, copy, modify, merge, // publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons // to whom the Software is furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in all copies or // substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, // INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR // PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS // BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, // TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE // OR OTHER DEALINGS IN THE SOFTWARE. //////////////////////////////////////////////////////////////////////////////////////////////// `include "wally-config.vh" module oldgsharepredictor (input logic clk, input logic reset, input logic StallF, StallD, StallE, StallM, StallW, input logic FlushD, FlushE, FlushM, FlushW, input logic [`XLEN-1:0] PCNextF, PCF, PCD, PCE, PCM, output logic [1:0] DirPredictionF, // update input logic [4:0] InstrClassE, input logic [4:0] BPInstrClassE, input logic [4:0] BPInstrClassD, input logic [4:0] BPInstrClassF, output logic DirPredictionWrongE, input logic PCSrcE ); logic [`BPRED_SIZE+1:0] GHR, GHRNext; logic [`BPRED_SIZE-1:0] PHTUpdateAdr, PHTUpdateAdr0, PHTUpdateAdr1; logic PHTUpdateEN; logic BPClassWrongNonCFI; logic BPClassWrongCFI; logic BPClassRightNonCFI; logic BPClassRightBPWrong; logic BPClassRightBPRight; logic [1:0] DirPredictionD, DirPredictionE; logic [1:0] NewDirPredictionE; logic [6:0] GHRMuxSel; logic GHRUpdateEN; logic [`BPRED_SIZE-1:0] GHRLookup; assign BPClassRightNonCFI = ~BPInstrClassE[0] & ~InstrClassE[0]; assign BPClassWrongCFI = ~BPInstrClassE[0] & InstrClassE[0]; assign BPClassWrongNonCFI = BPInstrClassE[0] & ~InstrClassE[0]; assign BPClassRightBPWrong = BPInstrClassE[0] & InstrClassE[0] & DirPredictionWrongE; assign BPClassRightBPRight = BPInstrClassE[0] & InstrClassE[0] & ~DirPredictionWrongE; // GHR update selection, 1 hot encoded. assign GHRMuxSel[0] = ~BPInstrClassF[0] & (BPClassRightNonCFI | BPClassRightBPRight); assign GHRMuxSel[1] = BPClassWrongCFI & ~BPInstrClassD[0]; assign GHRMuxSel[2] = BPClassWrongNonCFI & ~BPInstrClassD[0]; assign GHRMuxSel[3] = (BPClassRightBPWrong & ~BPInstrClassD[0]) | (BPClassWrongCFI & BPInstrClassD[0]); assign GHRMuxSel[4] = BPClassWrongNonCFI & BPInstrClassD[0]; assign GHRMuxSel[5] = InstrClassE[0] & BPClassRightBPWrong & BPInstrClassD[0]; assign GHRMuxSel[6] = BPInstrClassF[0] & (BPClassRightNonCFI | (InstrClassE[0] & BPClassRightBPRight)); assign GHRUpdateEN = (| GHRMuxSel[5:1] & ~StallE) | GHRMuxSel[6] & ~StallF; // hoping this created a AND-OR mux. always_comb begin case (GHRMuxSel) 7'b000_0001: GHRNext = GHR[`BPRED_SIZE-1+2:0]; // no change 7'b000_0010: GHRNext = {GHR[`BPRED_SIZE-2+2:0], PCSrcE}; // branch update 7'b000_0100: GHRNext = {1'b0, GHR[`BPRED_SIZE+1:1]}; // repair 1 7'b000_1000: GHRNext = {GHR[`BPRED_SIZE-1+2:1], PCSrcE}; // branch update with mis prediction correction 7'b001_0000: GHRNext = {2'b00, GHR[`BPRED_SIZE+1:2]}; // repair 2 7'b010_0000: GHRNext = {1'b0, GHR[`BPRED_SIZE+1:2], PCSrcE}; // branch update + repair 1 7'b100_0000: GHRNext = {GHR[`BPRED_SIZE-2+2:0], DirPredictionF[1]}; // speculative update default: GHRNext = GHR[`BPRED_SIZE-1+2:0]; endcase end flopenr #(`BPRED_SIZE+2) GlobalHistoryRegister(.clk(clk), .reset(reset), .en((GHRUpdateEN)), .d(GHRNext), .q(GHR)); // if actively updating the GHR at the time of prediction we want to us // GHRNext as the lookup rather than GHR. assign PHTUpdateAdr0 = InstrClassE[0] ? GHR[`BPRED_SIZE:1] : GHR[`BPRED_SIZE-1:0]; assign PHTUpdateAdr1 = InstrClassE[0] ? GHR[`BPRED_SIZE+1:2] : GHR[`BPRED_SIZE:1]; assign PHTUpdateAdr = BPInstrClassD[0] ? PHTUpdateAdr1 : PHTUpdateAdr0; assign PHTUpdateEN = InstrClassE[0] & ~StallE; assign GHRLookup = |GHRMuxSel[6:1] ? GHRNext[`BPRED_SIZE-1:0] : GHR[`BPRED_SIZE-1:0]; // Make Prediction by reading the correct address in the PHT and also update the new address in the PHT ram2p1r1wb #(`BPRED_SIZE, 2) PHT(.clk(clk), .reset(reset), //.RA1(GHR[`BPRED_SIZE-1:0]), .ra1(GHRLookup ^ PCNextF[`BPRED_SIZE:1]), .rd1(DirPredictionF), .ren1(~StallF), .wa2(PHTUpdateAdr ^ PCE[`BPRED_SIZE:1]), .wd2(NewDirPredictionE), .wen2(PHTUpdateEN), .bwe2(2'b11)); // DirPrediction pipeline flopenr #(2) PredictionRegD(clk, reset, ~StallD, DirPredictionF, DirPredictionD); flopenr #(2) PredictionRegE(clk, reset, ~StallE, DirPredictionD, DirPredictionE); // New prediction pipeline satCounter2 BPDirUpdateE(.BrDir(PCSrcE), .OldState(DirPredictionE), .NewState(NewDirPredictionE)); assign DirPredictionWrongE = PCSrcE != DirPredictionE[1] & InstrClassE[0]; endmodule // gsharePredictor