cvw/src/ieu/ieu.sv

///////////////////////////////////////////
// ieu.sv
//
// Written: David_Harris@hmc.edu 9 January 2021
// Modified: 
//
// Purpose: Integer Execution Unit: datapath and controller
// 
// Documentation: RISC-V System on Chip Design Chapter 4 (Figure 4.12)
//
// 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 ieu (
  input  logic 		          clk, reset,
  // Decode stage signals
  input  logic [31:0] 	    InstrD,                          // Instruction
  input  logic 		          IllegalIEUFPUInstrD,             // Illegal instruction
  output logic 		          IllegalBaseInstrD,               // Illegal I-type instruction, or illegal RV32 access to upper 16 registers
  // Execute stage signals
  input  logic [`XLEN-1:0]  PCE,                             // PC
  input  logic [`XLEN-1:0]  PCLinkE,                         // PC + 4
  output logic 		          PCSrcE,                          // Select next PC (between PC+4 and IEUAdrE)
  input  logic 		          FWriteIntE, FCvtIntE,            // FPU writes to integer register file, FPU converts float to int
  output logic [`XLEN-1:0]  IEUAdrE,                         // Memory address
  output logic 		          IntDivE, W64E,                   // Integer divide, RV64 W-type instruction 
  output logic [2:0] 	      Funct3E,                         // Funct3 instruction field
  output logic [`XLEN-1:0]  ForwardedSrcAE, ForwardedSrcBE,  // ALU src inputs before the mux choosing between them and PCE to put in srcA/B
  output logic [4:0]        RdE,                             // Destination register
  // Memory stage signals
  input  logic 		          SquashSCW,                       // Squash store conditional, from LSU
  output logic [1:0] 	      MemRWM,                          // Read/write control goes to LSU
  output logic [1:0] 	      AtomicM,                         // Atomic control goes to LSU
  output logic [`XLEN-1:0]  WriteDataM,                      // Write data to LSU
  output logic [2:0] 	      Funct3M,                         // Funct3 (size and signedness) to LSU
  output logic [`XLEN-1:0]  SrcAM,                           // ALU SrcA to Privileged unit and FPU
  output logic [4:0]        RdM,                             // Destination register
  input  logic [`XLEN-1:0]  FIntResM,                        // Integer result from FPU (fmv, fclass, fcmp)
  output logic              InvalidateICacheM, FlushDCacheM, // Invalidate I$, flush D$
  output logic              InstrValidD, InstrValidE, InstrValidM,// Instruction is valid
  output logic              BranchD, BranchE,
  output logic              JumpD, JumpE,
  // Writeback stage signals
  input  logic [`XLEN-1:0]  FIntDivResultW,                  // Integer divide result from FPU fdivsqrt)
  input  logic [`XLEN-1:0]  CSRReadValW,                     // CSR read value, 
  input  logic [`XLEN-1:0]  MDUResultW,                      // multiply/divide unit result
  input  logic [`XLEN-1:0]  FCvtIntResW,                     // FPU's float to int conversion result
  input  logic              FCvtIntW,                        // FPU converts float to int
  output logic [4:0]        RdW,                             // Destination register
  input  logic [`XLEN-1:0]  ReadDataW,                       // LSU's read data
  // Hazard unit signals
  input  logic 		          StallD, StallE, StallM, StallW,  // Stall signals from hazard unit
  input  logic 		          FlushD, FlushE, FlushM, FlushW,  // Flush signals
  output logic 		          FCvtIntStallD, LoadStallD,       // Stall causes from IEU to hazard unit
  output logic              MDUStallD, CSRRdStallD, StoreStallD,
  output logic 		          CSRReadM, CSRWriteM, PrivilegedM,// CSR read, CSR write, is privileged instruction
  output logic 		          CSRWriteFenceM                   // CSR write or fence instruction needs to flush subsequent instructions
);

  logic [2:0] ImmSrcD;                                       // Select type of immediate extension 
  logic [1:0] FlagsE;                                        // Comparison flags ({eq, lt})
  logic       ALUSrcAE, ALUSrcBE;                            // ALU source operands
  logic [2:0] ResultSrcW;                                    // Selects result in Writeback stage
  logic       ALUResultSrcE;                                 // Selects ALU result to pass on to Memory stage
  logic [2:0] ALUSelectE;                                    // ALU select mux signal
  logic       SCE;                                           // Store Conditional instruction
  logic       FWriteIntM;                                    // FPU writing to integer register file
  logic       IntDivW;                                       // Integer divide instruction
  logic [1:0] BSelectE;                                      // Indicates if ZBA_ZBB_ZBC_ZBS instruction in one-hot encoding
  logic [2:0] ZBBSelectE;                                    // ZBB Result Select Signal in Execute Stage
  logic [2:0] BALUControlE;                                  // ALU Control signals for B instructions in Execute Stage
  logic       SubArithE;                                     // Subtraction or arithmetic shift

  // Forwarding signals
  logic [4:0] Rs1D, Rs2D, Rs1E, Rs2E;                        // Source and destination registers
  logic [1:0] ForwardAE, ForwardBE;                          // Select signals for forwarding multiplexers
  logic       RegWriteM, RegWriteW;                          // Register will be written in Memory, Writeback stages
  logic       MemReadE, CSRReadE;                            // Load, CSRRead instruction
  logic       BranchSignedE;                                 // Branch does signed comparison on operands
  logic       MDUE;                                          // Multiply/divide instruction
           
controller c(
    .clk, .reset, .StallD, .FlushD, .InstrD, .ImmSrcD,
    .IllegalIEUFPUInstrD, .IllegalBaseInstrD, .StallE, .FlushE, .FlagsE, .FWriteIntE,
    .PCSrcE, .ALUSrcAE, .ALUSrcBE, .ALUResultSrcE, .ALUSelectE, .MemReadE, .CSRReadE, 
    .Funct3E, .IntDivE, .MDUE, .W64E, .SubArithE, .BranchD, .BranchE, .JumpD, .JumpE, .SCE, .BranchSignedE, .BSelectE, .ZBBSelectE, .BALUControlE, .StallM, .FlushM, .MemRWM,
    .CSRReadM, .CSRWriteM, .PrivilegedM, .AtomicM, .Funct3M,
    .RegWriteM, .FlushDCacheM, .InstrValidM, .InstrValidE, .InstrValidD, .FWriteIntM,
    .StallW, .FlushW, .RegWriteW, .IntDivW, .ResultSrcW, .CSRWriteFenceM, .InvalidateICacheM, .StoreStallD);

  datapath   dp(
    .clk, .reset, .ImmSrcD, .InstrD, .StallE, .FlushE, .ForwardAE, .ForwardBE, .W64E, .SubArithE,
    .Funct3E, .ALUSrcAE, .ALUSrcBE, .ALUResultSrcE, .ALUSelectE, .JumpE, .BranchSignedE, 
    .PCE, .PCLinkE, .FlagsE, .IEUAdrE, .ForwardedSrcAE, .ForwardedSrcBE, .BSelectE, .ZBBSelectE, .BALUControlE,
    .StallM, .FlushM, .FWriteIntM, .FIntResM, .SrcAM, .WriteDataM, .FCvtIntW,
    .StallW, .FlushW, .RegWriteW, .IntDivW, .SquashSCW, .ResultSrcW, .ReadDataW, .FCvtIntResW,
    .CSRReadValW, .MDUResultW, .FIntDivResultW, .Rs1D, .Rs2D, .Rs1E, .Rs2E, .RdE, .RdM, .RdW);             
  
  forward    fw(
    .Rs1D, .Rs2D, .Rs1E, .Rs2E, .RdE, .RdM, .RdW,
    .MemReadE, .MDUE, .CSRReadE, .RegWriteM, .RegWriteW,
    .FCvtIntE, .SCE, .ForwardAE, .ForwardBE,
    .FCvtIntStallD, .LoadStallD, .MDUStallD, .CSRRdStallD);
endmodule
Repartitioned datapath and controller into ieu 2021-01-27 11:40:26 +00:00			`///////////////////////////////////////////`
			`// ieu.sv`
			`//`
			`// Written: David_Harris@hmc.edu 9 January 2021`
			`// Modified:`
			`//`
			`// Purpose: Integer Execution Unit: datapath and controller`
			`//`
Header comments 2023-01-12 12:35:44 +00:00			`// Documentation: RISC-V System on Chip Design Chapter 4 (Figure 4.12)`
			`//`
changed name to CORE-V-WALLY 2023-01-11 23:15:08 +00:00			`// A component of the CORE-V-WALLY configurable RISC-V project.`
Repartitioned datapath and controller into ieu 2021-01-27 11:40:26 +00:00			`//`
Changed MIT license to Solderpad License 2023-01-10 19:35:20 +00:00			`// Copyright (C) 2021-23 Harvey Mudd College & Oklahoma State University`
Repartitioned datapath and controller into ieu 2021-01-27 11:40:26 +00:00			`//`
Changed MIT license to Solderpad License 2023-01-10 19:35:20 +00:00			`// SPDX-License-Identifier: Apache-2.0 WITH SHL-2.1`
Repartitioned datapath and controller into ieu 2021-01-27 11:40:26 +00:00			`//`
Changed MIT license to Solderpad License 2023-01-10 19:35:20 +00:00			`// 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`
Repartitioned datapath and controller into ieu 2021-01-27 11:40:26 +00:00			`//`
Changed MIT license to Solderpad License 2023-01-10 19:35:20 +00:00			`// 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.`
Reformatted MIT license to 95 characters 2022-01-07 12:58:40 +00:00			`////////////////////////////////////////////////////////////////////////////////////////////////`
Repartitioned datapath and controller into ieu 2021-01-27 11:40:26 +00:00
			`include "wally-config.vh"

			`module ieu (`
IEU cleanup IEU cleanup 2023-01-17 14:02:26 +00:00			`input logic clk, reset,`
			`// Decode stage signals`
			`input logic [31:0] InstrD, // Instruction`
Fixed Issue #106: fld rasies load access fault instead of illegal instruction. The IEU controller had considered all fp loads and stores to be legal regardless of whether the FPU is enabled or the type is supported. Merged illegal instruction detection from both units into the Decode stage, saving two bits of pipeline register as well. 2023-02-21 17:32:17 +00:00			`input logic IllegalIEUFPUInstrD, // Illegal instruction`
			`output logic IllegalBaseInstrD, // Illegal I-type instruction, or illegal RV32 access to upper 16 registers`
IEU cleanup IEU cleanup 2023-01-17 14:02:26 +00:00			`// Execute stage signals`
			input logic [`XLEN-1:0] PCE, // PC
			input logic [`XLEN-1:0] PCLinkE, // PC + 4
Minor fixes in datapath.sv and ieu.sv (comments, putting signals in correct grouping) 2023-01-18 15:26:08 +00:00			`output logic PCSrcE, // Select next PC (between PC+4 and IEUAdrE)`
IEU cleanup IEU cleanup 2023-01-17 14:02:26 +00:00			`input logic FWriteIntE, FCvtIntE, // FPU writes to integer register file, FPU converts float to int`
			output logic [`XLEN-1:0] IEUAdrE, // Memory address
			`output logic IntDivE, W64E, // Integer divide, RV64 W-type instruction`
			`output logic [2:0] Funct3E, // Funct3 instruction field`
			output logic [`XLEN-1:0] ForwardedSrcAE, ForwardedSrcBE, // ALU src inputs before the mux choosing between them and PCE to put in srcA/B
			`output logic [4:0] RdE, // Destination register`
			`// Memory stage signals`
IEU comment cleanup 2023-01-17 18:51:44 +00:00			`input logic SquashSCW, // Squash store conditional, from LSU`
IEU cleanup IEU cleanup 2023-01-17 14:02:26 +00:00			`output logic [1:0] MemRWM, // Read/write control goes to LSU`
			`output logic [1:0] AtomicM, // Atomic control goes to LSU`
			output logic [`XLEN-1:0] WriteDataM, // Write data to LSU
			`output logic [2:0] Funct3M, // Funct3 (size and signedness) to LSU`
			output logic [`XLEN-1:0] SrcAM, // ALU SrcA to Privileged unit and FPU
			`output logic [4:0] RdM, // Destination register`
IEU comment cleanup 2023-01-17 18:51:44 +00:00			input logic [`XLEN-1:0] FIntResM, // Integer result from FPU (fmv, fclass, fcmp)
IEU cleanup IEU cleanup 2023-01-17 14:02:26 +00:00			`output logic InvalidateICacheM, FlushDCacheM, // Invalidate I$, flush D$`
Modified branch predictor to use InstrValidE and InstrValidD rather than the more complex InstrClassE \| WrongClassE logic. 2023-02-10 16:33:10 +00:00			`output logic InstrValidD, InstrValidE, InstrValidM,// Instruction is valid`
Manual attempt to merge with upstream changes 2023-02-23 03:42:30 +00:00			`output logic BranchD, BranchE,`
			`output logic JumpD, JumpE,`
IEU cleanup IEU cleanup 2023-01-17 14:02:26 +00:00			`// Writeback stage signals`
Started adding bit manipulation unit 2023-01-20 22:19:07 +00:00			input logic [`XLEN-1:0] FIntDivResultW, // Integer divide result from FPU fdivsqrt)
			input logic [`XLEN-1:0] CSRReadValW, // CSR read value,
			input logic [`XLEN-1:0] MDUResultW, // multiply/divide unit result
IEU comment cleanup 2023-01-17 18:51:44 +00:00			input logic [`XLEN-1:0] FCvtIntResW, // FPU's float to int conversion result
IEU cleanup IEU cleanup 2023-01-17 14:02:26 +00:00			`input logic FCvtIntW, // FPU converts float to int`
			`output logic [4:0] RdW, // Destination register`
			input logic [`XLEN-1:0] ReadDataW, // LSU's read data
			`// Hazard unit signals`
IEU comment cleanup 2023-01-17 18:51:44 +00:00			`input logic StallD, StallE, StallM, StallW, // Stall signals from hazard unit`
IEU cleanup IEU cleanup 2023-01-17 14:02:26 +00:00			`input logic FlushD, FlushE, FlushM, FlushW, // Flush signals`
IEU comment cleanup 2023-01-17 18:51:44 +00:00			`output logic FCvtIntStallD, LoadStallD, // Stall causes from IEU to hazard unit`
pipelined/src/ieu/ieu.sv 2023-01-17 14:08:26 +00:00			`output logic MDUStallD, CSRRdStallD, StoreStallD,`
IEU comment cleanup 2023-01-17 18:51:44 +00:00			`output logic CSRReadM, CSRWriteM, PrivilegedM,// CSR read, CSR write, is privileged instruction`
Replaced FenceM with InvalidateICacheM for event counting of fence.i 2023-03-18 16:24:31 +00:00			`output logic CSRWriteFenceM // CSR write or fence instruction needs to flush subsequent instructions`
Repartitioned datapath and controller into ieu 2021-01-27 11:40:26 +00:00			`);`

Minor fixes in datapath.sv and ieu.sv (comments, putting signals in correct grouping) 2023-01-18 15:26:08 +00:00			`logic [2:0] ImmSrcD; // Select type of immediate extension`
			`logic [1:0] FlagsE; // Comparison flags ({eq, lt})`
			`logic ALUSrcAE, ALUSrcBE; // ALU source operands`
			`logic [2:0] ResultSrcW; // Selects result in Writeback stage`
			`logic ALUResultSrcE; // Selects ALU result to pass on to Memory stage`
Added ALUSelect signal into datapath, ieu, controller 2023-02-17 15:50:45 +00:00			`logic [2:0] ALUSelectE; // ALU select mux signal`
Minor fixes in datapath.sv and ieu.sv (comments, putting signals in correct grouping) 2023-01-18 15:26:08 +00:00			`logic SCE; // Store Conditional instruction`
			`logic FWriteIntM; // FPU writing to integer register file`
			`logic IntDivW; // Integer divide instruction`
BSelect from OH encoding to Binary 2023-03-05 07:19:31 +00:00			`logic [1:0] BSelectE; // Indicates if ZBA_ZBB_ZBC_ZBS instruction in one-hot encoding`
Rotate signal now gets generated in bmu ctrl 2023-03-04 06:57:49 +00:00			`logic [2:0] ZBBSelectE; // ZBB Result Select Signal in Execute Stage`
removed rotate signal in datapath and instead packed into the new BALUControl Signal - BALUControl contains Rotate, Mask, PreShift signals to select from the respective generation muxes in the ALU 2023-03-05 06:44:03 +00:00			`logic [2:0] BALUControlE; // ALU Control signals for B instructions in Execute Stage`
ALUControl Elimination 2023-03-24 15:10:48 +00:00			`logic SubArithE; // Subtraction or arithmetic shift`
Moved LoadStall generation to IEU 2021-02-02 18:42:23 +00:00
Minor fixes in datapath.sv and ieu.sv (comments, putting signals in correct grouping) 2023-01-18 15:26:08 +00:00			`// Forwarding signals`
			`logic [4:0] Rs1D, Rs2D, Rs1E, Rs2E; // Source and destination registers`
			`logic [1:0] ForwardAE, ForwardBE; // Select signals for forwarding multiplexers`
			`logic RegWriteM, RegWriteW; // Register will be written in Memory, Writeback stages`
			`logic MemReadE, CSRReadE; // Load, CSRRead instruction`
			`logic BranchSignedE; // Branch does signed comparison on operands`
			`logic MDUE; // Multiply/divide instruction`
Repartitioned datapath and controller into ieu 2021-01-27 11:40:26 +00:00
Manual attempt to merge with upstream changes 2023-02-23 03:42:30 +00:00			`controller c(`
Code cleanup 2022-01-07 04:07:04 +00:00			`.clk, .reset, .StallD, .FlushD, .InstrD, .ImmSrcD,`
Fixed Issue #106: fld rasies load access fault instead of illegal instruction. The IEU controller had considered all fp loads and stores to be legal regardless of whether the FPU is enabled or the type is supported. Merged illegal instruction detection from both units into the Decode stage, saving two bits of pipeline register as well. 2023-02-21 17:32:17 +00:00			`.IllegalIEUFPUInstrD, .IllegalBaseInstrD, .StallE, .FlushE, .FlagsE, .FWriteIntE,`
ALUControl Elimination 2023-03-24 15:10:48 +00:00			`.PCSrcE, .ALUSrcAE, .ALUSrcBE, .ALUResultSrcE, .ALUSelectE, .MemReadE, .CSRReadE,`
			`.Funct3E, .IntDivE, .MDUE, .W64E, .SubArithE, .BranchD, .BranchE, .JumpD, .JumpE, .SCE, .BranchSignedE, .BSelectE, .ZBBSelectE, .BALUControlE, .StallM, .FlushM, .MemRWM,`
switched comparator to dc flip version 2022-06-21 20:30:33 +00:00			`.CSRReadM, .CSRWriteM, .PrivilegedM, .AtomicM, .Funct3M,`
Replaced FenceM with InvalidateICacheM for event counting of fence.i 2023-03-18 16:24:31 +00:00			`.RegWriteM, .FlushDCacheM, .InstrValidM, .InstrValidE, .InstrValidD, .FWriteIntM,`
			`.StallW, .FlushW, .RegWriteW, .IntDivW, .ResultSrcW, .CSRWriteFenceM, .InvalidateICacheM, .StoreStallD);`
removed .* instantiation from ieu.sv and datapth.sv in ieu folder 2021-12-08 08:24:27 +00:00
			`datapath dp(`
ALUControl Elimination 2023-03-24 15:10:48 +00:00			`.clk, .reset, .ImmSrcD, .InstrD, .StallE, .FlushE, .ForwardAE, .ForwardBE, .W64E, .SubArithE,`
			`.Funct3E, .ALUSrcAE, .ALUSrcBE, .ALUResultSrcE, .ALUSelectE, .JumpE, .BranchSignedE,`
removed rotate signal in datapath and instead packed into the new BALUControl Signal - BALUControl contains Rotate, Mask, PreShift signals to select from the respective generation muxes in the ALU 2023-03-05 06:44:03 +00:00			`.PCE, .PCLinkE, .FlagsE, .IEUAdrE, .ForwardedSrcAE, .ForwardedSrcBE, .BSelectE, .ZBBSelectE, .BALUControlE,`
Cleaned up fcvt selection control to IEU and FPUIllegalInst signals 2022-08-23 19:17:19 +00:00			`.StallM, .FlushM, .FWriteIntM, .FIntResM, .SrcAM, .WriteDataM, .FCvtIntW,`
Replaced MDUE with IntDivE in FDIVSQRT 2023-01-11 19:06:37 +00:00			`.StallW, .FlushW, .RegWriteW, .IntDivW, .SquashSCW, .ResultSrcW, .ReadDataW, .FCvtIntResW,`
Removed unused BMU, added CVW configuration 2023-01-27 23:47:15 +00:00			`.CSRReadValW, .MDUResultW, .FIntDivResultW, .Rs1D, .Rs2D, .Rs1E, .Rs2E, .RdE, .RdM, .RdW);`
removed .* instantiation from ieu.sv and datapth.sv in ieu folder 2021-12-08 08:24:27 +00:00
			`forward fw(`
			`.Rs1D, .Rs2D, .Rs1E, .Rs2E, .RdE, .RdM, .RdW,`
Capitalized LSU and IFU, changed MulDiv to MDU 2022-01-07 04:30:00 +00:00			`.MemReadE, .MDUE, .CSRReadE, .RegWriteM, .RegWriteW,`
Only stall FPU to IEU on convert instructions with dependencies 2022-08-23 19:57:18 +00:00			`.FCvtIntE, .SCE, .ForwardAE, .ForwardBE,`
Renamed FPUStallD to FCvtIntStallD 2022-12-02 19:55:23 +00:00			`.FCvtIntStallD, .LoadStallD, .MDUStallD, .CSRRdStallD);`
Repartitioned datapath and controller into ieu 2021-01-27 11:40:26 +00:00			`endmodule`
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00