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cvw/wally-pipelined/src/fpu/fpu.sv

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Update header for FPadd
2021-05-24 13:28:16 +00:00
///////////////////////////////////////////
//
fpu clean-up
2021-06-23 20:42:40 +00:00
// Written: Katherine Parry, Bret Mathis
// Modified: 6/23/2021
Update header for FPadd
2021-05-24 13:28:16 +00:00
//
// Purpose: FPU
//
// A component of the Wally configurable RISC-V project.
//
// Copyright (C) 2021 Harvey Mudd College & Oklahoma State University
//
// 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.
///////////////////////////////////////////
fixed FPU lint warnings
2021-04-08 18:03:21 +00:00
`include "wally-config.vh"
Added missing files in FPU
2021-04-04 18:09:13 +00:00
module fpu (
rv64f FLW passes imperas tests
2021-06-22 20:36:16 +00:00
input logic clk,
fpu clean-up
2021-06-23 20:42:40 +00:00
input logic reset,
input logic [2:0] FRM_REGW, // Rounding mode from CSR
rv64f FLW passes imperas tests
2021-06-22 20:36:16 +00:00
input logic [31:0] InstrD,
fpu clean-up
2021-06-23 20:42:40 +00:00
input logic [`XLEN-1:0] ReadDataW, // Read data from memory
rv64f FLW passes imperas tests
2021-06-22 20:36:16 +00:00
input logic [`XLEN-1:0] SrcAE, // Integer input being processed
input logic [`XLEN-1:0] SrcAM, // Integer input being written into fpreg
input logic StallE, StallM, StallW,
input logic FlushE, FlushM, FlushW,
FPU update
2021-07-02 16:40:58 +00:00
output logic FStallD, // Stall the decode stage
rv64f FLW passes imperas tests
2021-06-22 20:36:16 +00:00
output logic FWriteIntE, FWriteIntM, FWriteIntW, // Write integer register enable
FPU forwarding reworked pt.1
2021-06-24 22:39:18 +00:00
output logic [`XLEN-1:0] FWriteDataE, // Data to be written to memory
output logic [`XLEN-1:0] FIntResM,
rv64f FLW passes imperas tests
2021-06-22 20:36:16 +00:00
output logic FDivBusyE, // Is the divison/sqrt unit busy
output logic IllegalFPUInstrD, // Is the instruction an illegal fpu instruction
fpu clean-up
2021-06-23 20:42:40 +00:00
output logic [4:0] SetFflagsM, // FPU flags
rv64f FLW passes imperas tests
2021-06-22 20:36:16 +00:00
output logic [`XLEN-1:0] FPUResultW); // FPU result
FPU update
2021-07-02 16:40:58 +00:00
// *** change FMA to do 16 - 32 - 64 - 128 FEXPBITS
FPU forwarding reworked pt.1
2021-06-24 22:39:18 +00:00
Added F_SUPPORTED flag to disable floating point unit when not in MISA
2021-07-05 14:30:46 +00:00
generate
if (`F_SUPPORTED) begin
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
// control logic signal instantiation
logic FWriteEnD, FWriteEnE, FWriteEnM, FWriteEnW; // FP register write enable
logic [2:0] FrmD, FrmE, FrmM; // FP rounding mode
logic FmtD, FmtE, FmtM, FmtW; // FP precision 0-single 1-double
logic FDivStartD, FDivStartE; // Start division
logic FWriteIntD; // Write to integer register
logic [1:0] ForwardXE, ForwardYE, ForwardZE; // Input3 forwarding mux control signal
logic [2:0] FResultSelD, FResultSelE, FResultSelM, FResultSelW; // Select FP result
logic [3:0] FOpCtrlD, FOpCtrlE, FOpCtrlM; // Select which opperation to do in each component
logic [1:0] FResSelD, FResSelE, FResSelM;
logic [1:0] FIntResSelD, FIntResSelE, FIntResSelM;
logic [4:0] Adr1E, Adr2E, Adr3E;
// regfile signals
logic [4:0] RdE, RdM, RdW; // what adress to write to // ***Can take from ieu insted of pipelining
logic [63:0] FRD1D, FRD2D, FRD3D; // Read Data from FP register - decode stage
logic [63:0] FRD1E, FRD2E, FRD3E; // Read Data from FP register - execute stage
logic [`XLEN-1:0] SrcXMAligned;
logic [63:0] SrcXE, SrcXM; // Input 1 to the various units (after forwarding)
logic [63:0] SrcYE, SrcYM; // Input 2 to the various units (after forwarding)
logic [63:0] SrcZE, SrcZM; // Input 3 to the various units (after forwarding)
// div/sqrt signals
logic [63:0] FDivResultM, FDivResultW;
logic [4:0] FDivSqrtFlgM, FDivSqrtFlgW;
logic FDivSqrtDoneE;
logic [63:0] DivInput1E, DivInput2E;
logic HoldInputs; // keep forwarded inputs arround durring division
// FMA signals
logic [105:0] ProdManE, ProdManM; ///*** put pipline stages in units
logic [161:0] AlignedAddendE, AlignedAddendM;
logic [12:0] ProdExpE, ProdExpM;
logic AddendStickyE, AddendStickyM;
logic KillProdE, KillProdM;
logic XZeroE, YZeroE, ZZeroE, XZeroM, YZeroM, ZZeroM;
logic XInfE, YInfE, ZInfE, XInfM, YInfM, ZInfM;
logic XNaNE, YNaNE, ZNaNE, XNaNM, YNaNM, ZNaNM;
logic [63:0] FMAResM, FMAResW;
logic [4:0] FMAFlgM, FMAFlgW;
// add/cvt signals
logic [63:0] AddSumE, AddSumM;
logic [63:0] AddSumTcE, AddSumTcM;
logic [3:0] AddSelInvE, AddSelInvM;
logic [10:0] AddExpPostSumE,AddExpPostSumM;
logic AddCorrSignE, AddCorrSignM;
logic AddOp1NormE, AddOp1NormM;
logic AddOp2NormE, AddOp2NormM;
logic AddOpANormE, AddOpANormM;
logic AddOpBNormE, AddOpBNormM;
logic AddInvalidE, AddInvalidM;
logic AddDenormInE, AddDenormInM;
logic AddSwapE, AddSwapM;
logic AddNormOvflowE, AddNormOvflowM; //***this isn't used in addcvt2
logic AddSignAE, AddSignAM;
logic AddConvertE, AddConvertM;
logic [63:0] AddFloat1E, AddFloat2E, AddFloat1M, AddFloat2M;
logic [11:0] AddExp1DenormE, AddExp2DenormE, AddExp1DenormM, AddExp2DenormM;
logic [10:0] AddExponentE, AddExponentM;
logic [63:0] FAddResM, FAddResW;
logic [4:0] FAddFlgM, FAddFlgW;
// cmp signals
logic CmpNVE, CmpNVM, CmpNVW;
logic [63:0] CmpResE, CmpResM, CmpResW;
// fsgn signals
logic [63:0] SgnResE, SgnResM;
logic SgnNVE, SgnNVM, SgnNVW;
logic [63:0] FResM, FResW;
logic FFlgM, FFlgW;
// instantiation of W stage regfile signals
logic [63:0] AlignedSrcAM;
// classify signals
logic [63:0] ClassResE, ClassResM;
// 64-bit FPU result
logic [63:0] FPUResult64W;
logic [4:0] FPUFlagsW;
//DECODE STAGE
// top-level controller for FPU
fctrl fctrl (.Funct7D(InstrD[31:25]), .OpD(InstrD[6:0]), .Rs2D(InstrD[24:20]), .Funct3D(InstrD[14:12]),
.FRM_REGW, .IllegalFPUInstrD, .FWriteEnD, .FDivStartD, .FResultSelD, .FOpCtrlD, .FResSelD,
.FIntResSelD, .FmtD, .FrmD, .FWriteIntD);
// regfile instantiation
fregfile fregfile (clk, reset, FWriteEnW,
InstrD[19:15], InstrD[24:20], InstrD[31:27], RdW,
FPUResult64W,
FRD1D, FRD2D, FRD3D);
lint is clean
2021-06-07 18:22:54 +00:00
FPU control signals changed and FMA works
2021-06-28 22:53:58 +00:00
FPU update
2021-07-02 16:40:58 +00:00
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
//*****************
// D/E pipe registers
//*****************
flopenrc #(64) DEReg1(clk, reset, FlushE, ~StallE, FRD1D, FRD1E);
flopenrc #(64) DEReg2(clk, reset, FlushE, ~StallE, FRD2D, FRD2E);
flopenrc #(64) DEReg3(clk, reset, FlushE, ~StallE, FRD3D, FRD3E);
flopenrc #(1) DECtrlRegE1(clk, reset, FlushE, ~StallE, FDivStartD, FDivStartE);
flopenrc #(15) DECtrlRegE2(clk, reset, FlushE, ~StallE, {InstrD[19:15], InstrD[24:20], InstrD[31:27]},
{Adr1E, Adr2E, Adr3E});
flopenrc #(22) DECtrlReg3(clk, reset, FlushE, ~StallE,
{FWriteEnD, FResultSelD, FResSelD, FIntResSelD, FrmD, FmtD, InstrD[11:7], FOpCtrlD, FWriteIntD},
{FWriteEnE, FResultSelE, FResSelE, FIntResSelE, FrmE, FmtE, RdE, FOpCtrlE, FWriteIntE});
FPU update
2021-07-02 16:40:58 +00:00
fixed lint warnings for fpu and lzd
2021-06-05 16:06:33 +00:00
FPU update
2021-07-02 16:40:58 +00:00
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
//EXECUTION STAGE
// Hazard unit for FPU
fhazard fhazard(.Adr1E, .Adr2E, .Adr3E, .FWriteEnM, .FWriteEnW, .RdM, .RdW, .FResultSelM, .FStallD,
.ForwardXE, .ForwardYE, .ForwardZE);
FPU update
2021-07-02 16:40:58 +00:00
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
// forwarding muxs
mux3 #(64) fxemux(FRD1E, FPUResult64W, FResM, ForwardXE, SrcXE);
mux3 #(64) fyemux(FRD2E, FPUResult64W, FResM, ForwardYE, SrcYE);
mux3 #(64) fzemux(FRD3E, FPUResult64W, FResM, ForwardZE, SrcZE);
FPU update
2021-07-02 16:40:58 +00:00
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
// first of two-stage instance of floating-point fused multiply-add unit
fma1 fma1 (.X(SrcXE), .Y(SrcYE), .Z(SrcZE), .FOpCtrlE(FOpCtrlE[2:0]), .FmtE, .ProdManE, .AlignedAddendE,
.ProdExpE, .AddendStickyE, .KillProdE, .XZeroE, .YZeroE, .ZZeroE, .XInfE, .YInfE, .ZInfE,
.XNaNE, .YNaNE, .ZNaNE );
// first and only instance of floating-point divider
logic fpdivClk;
clockgater fpdivclkg(.E(FDivStartE),
.SE(1'b0),
.CLK(clk),
.ECLK(fpdivClk));
// capture the inputs for div/sqrt
flopenrc #(64) reg_input1 (.d(SrcXE), .q(DivInput1E),
.en(~HoldInputs), .clear(FDivSqrtDoneE),
.reset(reset), .clk(clk));
flopenrc #(64) reg_input2 (.d(SrcYE), .q(DivInput2E),
.en(~HoldInputs), .clear(FDivSqrtDoneE),
.reset(reset), .clk(clk));
fdivsqrt fdivsqrt (.DivOpType(FOpCtrlE[0]), .clk(fpdivClk), .FmtE(~FmtE), .DivInput1E, .DivInput2E,
.FrmE, .DivOvEn(1'b1), .DivUnEn(1'b1), .FDivStartE, .FDivResultM, .FDivSqrtFlgM,
.FDivSqrtDoneE, .FDivBusyE, .HoldInputs, .reset);
FPU control signals changed and FMA works
2021-06-28 22:53:58 +00:00
FPU forwarding reworked pt.1
2021-06-24 22:39:18 +00:00
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
// first of two-stage instance of floating-point add/cvt unit
fpuaddcvt1 fpadd1 (.SrcXE, .SrcYE, .FOpCtrlE, .FmtE, .AddFloat1E, .AddFloat2E, .AddExponentE,
.AddExpPostSumE, .AddExp1DenormE, .AddExp2DenormE, .AddSumE, .AddSumTcE, .AddSelInvE,
.AddCorrSignE, .AddSignAE, .AddOp1NormE, .AddOp2NormE, .AddOpANormE, .AddOpBNormE, .AddInvalidE,
.AddDenormInE, .AddConvertE, .AddSwapE, .AddNormOvflowE);
// first and only instance of floating-point comparator
fcmp fcmp (SrcXE, SrcYE, FOpCtrlE[2:0], FmtE, CmpNVE, CmpResE);
// first and only instance of floating-point sign converter
fsgn fsgn (.SgnOpCodeE(FOpCtrlE[1:0]), .SrcXE, .SrcYE, .SgnResE, .SgnNVE);
all rv64f instructions except convert, divide, square root, and FLD pass
2021-06-21 00:24:09 +00:00
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
// first and only instance of floating-point classify unit
fclassify fclassify (.SrcXE, .FmtE, .ClassResE);
rv64f FLW passes imperas tests
2021-06-22 20:36:16 +00:00
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
// output for store instructions
assign FWriteDataE = FmtE ? SrcYE[63:64-`XLEN] : {{`XLEN-32{1'b0}}, SrcYE[63:32]};
//***swap to mux
rv64f FLW passes imperas tests
2021-06-22 20:36:16 +00:00
FPU update
2021-07-02 16:40:58 +00:00
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
//*****************
// E/M pipe registers
//*****************
flopenrc #(64) EMFpReg1(clk, reset, FlushM, ~StallM, SrcXE, SrcXM);
flopenrc #(64) EMFpReg2(clk, reset, FlushM, ~StallM, SrcYE, SrcYM);
flopenrc #(64) EMFpReg3(clk, reset, FlushM, ~StallM, SrcZE, SrcZM);
flopenrc #(106) EMRegFma1(clk, reset, FlushM, ~StallM, ProdManE, ProdManM);
flopenrc #(162) EMRegFma2(clk, reset, FlushM, ~StallM, AlignedAddendE, AlignedAddendM);
flopenrc #(13) EMRegFma3(clk, reset, FlushM, ~StallM, ProdExpE, ProdExpM);
flopenrc #(11) EMRegFma4(clk, reset, FlushM, ~StallM,
{AddendStickyE, KillProdE, XZeroE, YZeroE, ZZeroE, XInfE, YInfE, ZInfE, XNaNE, YNaNE, ZNaNE},
{AddendStickyM, KillProdM, XZeroM, YZeroM, ZZeroM, XInfM, YInfM, ZInfM, XNaNM, YNaNM, ZNaNM});
flopenrc #(64) EMRegAdd1(clk, reset, FlushM, ~StallM, AddSumE, AddSumM);
flopenrc #(64) EMRegAdd2(clk, reset, FlushM, ~StallM, AddSumTcE, AddSumTcM);
flopenrc #(11) EMRegAdd3(clk, reset, FlushM, ~StallM, AddExpPostSumE, AddExpPostSumM);
flopenrc #(64) EMRegAdd4(clk, reset, FlushM, ~StallM, AddFloat1E, AddFloat1M);
flopenrc #(64) EMRegAdd5(clk, reset, FlushM, ~StallM, AddFloat2E, AddFloat2M);
flopenrc #(12) EMRegAdd6(clk, reset, FlushM, ~StallM, AddExp1DenormE, AddExp1DenormM);
flopenrc #(12) EMRegAdd7(clk, reset, FlushM, ~StallM, AddExp2DenormE, AddExp2DenormM);
flopenrc #(11) EMRegAdd8(clk, reset, FlushM, ~StallM, AddExponentE, AddExponentM);
flopenrc #(15) EMRegAdd9(clk, reset, FlushM, ~StallM,
{AddSelInvE, AddCorrSignE, AddOp1NormE, AddOp2NormE, AddOpANormE, AddOpBNormE, AddInvalidE, AddDenormInE, AddConvertE, AddSwapE, AddNormOvflowE, AddSignAE},
{AddSelInvM, AddCorrSignM, AddOp1NormM, AddOp2NormM, AddOpANormM, AddOpBNormM, AddInvalidM, AddDenormInM, AddConvertM, AddSwapM, AddNormOvflowM, AddSignAM});
flopenrc #(1) EMRegCmp1(clk, reset, FlushM, ~StallM, CmpNVE, CmpNVM);
flopenrc #(64) EMRegCmp2(clk, reset, FlushM, ~StallM, CmpResE, CmpResM);
flopenrc #(64) EMRegSgn1(clk, reset, FlushM, ~StallM, SgnResE, SgnResM);
flopenrc #(1) EMRegSgn2(clk, reset, FlushM, ~StallM, SgnNVE, SgnNVM);
flopenrc #(22) EMCtrlReg(clk, reset, FlushM, ~StallM,
{FWriteEnE, FResultSelE, FResSelE, FIntResSelE, FrmE, FmtE, RdE, FOpCtrlE, FWriteIntE},
{FWriteEnM, FResultSelM, FResSelM, FIntResSelM, FrmM, FmtM, RdM, FOpCtrlM, FWriteIntM});
flopenrc #(64) EMRegClass(clk, reset, FlushM, ~StallM, ClassResE, ClassResM);
//BEGIN MEMORY STAGE
mux3 #(64) FResMux(AlignedSrcAM, SgnResM, CmpResM, FResSelM, FResM);
mux3 #(1) FFlgMux(1'b0, SgnNVM, CmpNVM, FResSelM, FFlgM);
//***change to mux
assign SrcXMAligned = FmtM ? SrcXM[63:64-`XLEN] : {{`XLEN-32{1'b0}}, SrcXM[63:32]};
mux3 #(`XLEN) IntResMux(CmpResM[`XLEN-1:0], SrcXMAligned, ClassResM[`XLEN-1:0], FIntResSelM, FIntResM);
// second instance of two-stage FMA unit
fma2 fma2(.X(SrcXM), .Y(SrcYM), .Z(SrcZM), .FOpCtrlM(FOpCtrlM[2:0]), .FrmM, .FmtM,
.ProdManM, .AlignedAddendM, .ProdExpM, .AddendStickyM, .KillProdM,
.XZeroM, .YZeroM, .ZZeroM, .XInfM, .YInfM, .ZInfM, .XNaNM, .YNaNM, .ZNaNM,
.FMAResM, .FMAFlgM);
// second instance of two-stage floating-point add/cvt unit
fpuaddcvt2 fpadd2 (.FrmM, .FOpCtrlM, .FmtM, .AddSumM, .AddSumTcM, .AddFloat1M, .AddFloat2M,
.AddExp1DenormM, .AddExp2DenormM, .AddExponentM, .AddExpPostSumM, .AddSelInvM,
.AddOp1NormM, .AddOp2NormM, .AddOpANormM, .AddOpBNormM, .AddInvalidM, .AddDenormInM,
.AddSignAM, .AddCorrSignM, .AddConvertM, .AddSwapM, .FAddResM, .FAddFlgM);
// Align SrcA to MSB when single precicion
mux2 #(64) SrcAMux({SrcAM[31:0], 32'b0}, {{64-`XLEN{1'b0}}, SrcAM}, FmtM, AlignedSrcAM);
FPU update
2021-07-02 16:40:58 +00:00
FPU control signals changed and FMA works
2021-06-28 22:53:58 +00:00
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
//*****************
// M/W pipe registers
//*****************
flopenrc #(64) MWRegFma1(clk, reset, FlushW, ~StallW, FMAResM, FMAResW);
flopenrc #(5) MWRegFma2(clk, reset, FlushW, ~StallW, FMAFlgM, FMAFlgW);
flopenrc #(64) MWRegDiv1(clk, reset, FlushW, ~StallW, FDivResultM, FDivResultW);
flopenrc #(5) MWRegDiv2(clk, reset, FlushW, ~StallW, FDivSqrtFlgM, FDivSqrtFlgW);
flopenrc #(64) MWRegAdd1(clk, reset, FlushW, ~StallW, FAddResM, FAddResW);
flopenrc #(5) MWRegAdd2(clk, reset, FlushW, ~StallW, FAddFlgM, FAddFlgW);
flopenrc #(1) MWRegCmp1(clk, reset, FlushW, ~StallW, CmpNVM, CmpNVW);
flopenrc #(64) MWRegCmp3(clk, reset, FlushW, ~StallW, CmpResM, CmpResW);
flopenrc #(64) MWRegClass2(clk, reset, FlushW, ~StallW, FResM, FResW);
flopenrc #(1) MWRegClass1(clk, reset, FlushW, ~StallW, FFlgM, FFlgW);
flopenrc #(11) MWCtrlReg(clk, reset, FlushW, ~StallW,
{FWriteEnM, FResultSelM, RdM, FmtM, FWriteIntM},
{FWriteEnW, FResultSelW, RdW, FmtW, FWriteIntW});
//#########################################
// BEGIN WRITEBACK STAGE
//#########################################
//***turn into muxs
always_comb begin
case (FResultSelW)
3'b000 : FPUFlagsW = 5'b0;
3'b001 : FPUFlagsW = FMAFlgW;
3'b010 : FPUFlagsW = FAddFlgW;
3'b011 : FPUFlagsW = FDivSqrtFlgW;
3'b100 : FPUFlagsW = {4'b0,FFlgW};
default : FPUFlagsW = 5'bxxxxx;
endcase
end
always_comb begin
case (FResultSelW)
3'b000 : FPUResult64W = FmtW ? {ReadDataW, {64-`XLEN{1'b0}}} : {ReadDataW[31:0], 32'b0};
3'b001 : FPUResult64W = FMAResW;
3'b010 : FPUResult64W = FAddResW;
3'b011 : FPUResult64W = FDivResultW;
3'b100 : FPUResult64W = FResW;
default : FPUResult64W = 64'bxxxxx;
endcase
end
// interface between XLEN size datapath and double-precision sized
// floating-point results
//
// define offsets for LSB zero extension or truncation
always_comb begin
// zero extension
//***turn into mux
FPUResultW = FmtW ? FPUResult64W[63:64-`XLEN] : {{`XLEN-32{1'b0}}, FPUResult64W[63:32]};
//*** put into mem stage
SetFflagsM = FPUFlagsW;
end
Added F_SUPPORTED flag to disable floating point unit when not in MISA
2021-07-05 14:30:46 +00:00
end else begin // no F_SUPPORTED; tie outputs low
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
assign FStallD = 0;
assign FWriteIntE = 0;
assign FWriteIntM = 0;
assign FWriteIntW = 0;
assign FWriteDataE = 0;
assign FIntResM = 0;
assign FDivBusyE = 0;
Added F_SUPPORTED flag to disable floating point unit when not in MISA
2021-07-05 14:30:46 +00:00
assign IllegalFPUInstrD = 1;
Fixed disabling MulDiv when not supported. Started adding generate for FPU unsupported
2021-07-04 23:33:46 +00:00
assign SetFflagsM = 0;
assign FPUResultW = 0;
Minor cosmetic update to fpu.sv
2021-06-01 19:45:32 +00:00
end
Added F_SUPPORTED flag to disable floating point unit when not in MISA
2021-07-05 14:30:46 +00:00
endgenerate
Minor cosmetic update to fpu.sv
2021-06-01 19:45:32 +00:00
endmodule // fpu
Added missing files in FPU
2021-04-04 18:09:13 +00:00
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