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

///////////////////////////////////////////
// ifu.sv
//
// Written: David_Harris@hmc.edu 9 January 2021
// Modified: 
//
// Purpose: Instrunction Fetch Unit
//           PC, branch prediction, instruction cache
// 
// 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.
///////////////////////////////////////////

`include "wally-config.vh"

module ifu (
  input  logic             clk, reset,
  input  logic             StallF, StallD, StallE, StallM, StallW,
  input  logic             FlushD, FlushE, FlushM, FlushW,
  // Fetch
  input  logic [`XLEN-1:0] InstrInF,
  output logic [`XLEN-1:0] PCF, 
  output logic [`XLEN-1:0] InstrPAdrF,
  output logic             InstrReadF,
  // Decode  
  // Execute
  input  logic             PCSrcE, 
  input  logic [`XLEN-1:0] PCTargetE,
  output logic [`XLEN-1:0] PCE, 
  // Mem
  input  logic             RetM, TrapM, 
  input  logic [`XLEN-1:0] PrivilegedNextPCM, 
  output logic [31:0]      InstrD, InstrM,
  output logic [`XLEN-1:0] PCM, 
  // Writeback
  output logic [`XLEN-1:0] PCLinkW,
  // Faults
  input  logic             IllegalBaseInstrFaultD,
  output logic             IllegalIEUInstrFaultD,
  output logic             InstrMisalignedFaultM,
  output logic [`XLEN-1:0] InstrMisalignedAdrM,
  // bogus
  input  logic [15:0] rd2
);

  logic [`XLEN-1:0] UnalignedPCNextF, PCNextF;
  logic misaligned, BranchMisalignedFaultE, BranchMisalignedFaultM, TrapMisalignedFaultM;
  logic PrivilegedChangePCM;
  logic IllegalCompInstrD;
  logic [`XLEN-1:0] PCPlusUpperF, PCPlus2or4F, PCD, PCW, PCLinkD, PCLinkE, PCLinkM;
  logic        CompressedF;
  logic [31:0]     InstrF, InstrRawD, InstrE, InstrW;
  logic [31:0]     nop = 32'h00000013; // instruction for NOP

  // *** put memory interface on here, InstrF becomes output
  assign InstrPAdrF = PCF; // *** no MMU
  //assign InstrReadF = ~StallD; // *** & ICacheMissF; add later
  assign InstrReadF = 1; // *** & ICacheMissF; add later

  assign PrivilegedChangePCM = RetM | TrapM;


  mux3    #(`XLEN) pcmux(PCPlus2or4F, PCTargetE, PrivilegedNextPCM, {PrivilegedChangePCM, PCSrcE}, UnalignedPCNextF);
  assign  PCNextF = {UnalignedPCNextF[`XLEN-1:1], 1'b0}; // hart-SPEC p. 21 about 16-bit alignment
  flopenl #(`XLEN) pcreg(clk, reset, ~StallF, PCNextF, `RESET_VECTOR, PCF);

  // pcadder
  // add 2 or 4 to the PC, based on whether the instruction is 16 bits or 32
  assign CompressedF = (InstrF[1:0] != 2'b11); // is it a 16-bit compressed instruction?
  assign PCPlusUpperF = PCF[`XLEN-1:2] + 1; // add 4 to PC
  
  // choose PC+2 or PC+4
  always_comb
    if (CompressedF) // add 2
      if (PCF[1]) PCPlus2or4F = {PCPlusUpperF, 2'b00}; 
      else        PCPlus2or4F = {PCF[`XLEN-1:2], 2'b10};
    else          PCPlus2or4F = {PCPlusUpperF, PCF[1:0]}; // add 4

  // harris 2/23/21 Add code to fetch instruction split across two words
  generate 
    if (`XLEN==32) begin
      assign InstrF = PCF[1] ? {rd2[15:0], InstrInF[31:16]} : InstrInF;
    end else begin
      assign InstrF = PCF[2] ? (PCF[1] ? {rd2[15:0], InstrInF[63:48]} : InstrInF[63:32])
                          : (PCF[1] ? InstrInF[47:16] : InstrInF[31:0]);
    end
  endgenerate

  // Decode stage pipeline register and logic
  flopenl #(32)    InstrDReg(clk, reset, ~StallD, (FlushD ? nop : InstrF), nop, InstrRawD);
  flopenrc #(`XLEN) PCDReg(clk, reset, FlushD, ~StallD, PCF, PCD);
   
  // expand 16-bit compressed instructions to 32 bits
  decompress decomp(.*);
  assign IllegalIEUInstrFaultD = IllegalBaseInstrFaultD | IllegalCompInstrD; // illegal if bad 32 or 16-bit instr
  // *** combine these with others in better way, including M, F

  // Misaligned PC logic

  generate
    if (`C_SUPPORTED) // C supports compressed instructions on halfword boundaries
      assign misaligned = PCNextF[0];
    else // instructions must be on word boundaries
      assign misaligned = |PCNextF[1:0];
  endgenerate

  // pipeline misaligned faults to M stage
  assign BranchMisalignedFaultE = misaligned & PCSrcE; // E-stage (Branch/Jump) misaligned
  flopenr #(1) InstrMisalginedReg(clk, reset, ~StallM, BranchMisalignedFaultE, BranchMisalignedFaultM);
  flopenr #(`XLEN) InstrMisalignedAdrReg(clk, reset, ~StallM, PCNextF, InstrMisalignedAdrM);
  assign TrapMisalignedFaultM = misaligned & PrivilegedChangePCM;
  assign InstrMisalignedFaultM = BranchMisalignedFaultM; // | TrapMisalignedFaultM; *** put this back in without causing a cyclic path
  
  flopenr  #(32)   InstrEReg(clk, reset, ~StallE, FlushE ? nop : InstrD, InstrE);
  flopenr  #(32)   InstrMReg(clk, reset, ~StallM, FlushM ? nop : InstrE, InstrM);
  flopenr  #(32)   InstrWReg(clk, reset, ~StallW, FlushW ? nop : InstrM, InstrW); // just for testbench, delete later
  flopenr #(`XLEN) PCEReg(clk, reset, ~StallE, PCD, PCE);
  flopenr #(`XLEN) PCMReg(clk, reset, ~StallM, PCE, PCM);
  flopenr #(`XLEN) PCWReg(clk, reset, ~StallW, PCM, PCW); // *** probably not needed; delete later

  // seems like there should be a lower-cost way of doing this PC+2 or PC+4 for JAL.  
  // either have ALU compute PC+2/4 and feed into ALUResult input of ResultMux or
  // have dedicated adder in Mem stage based on PCM + 2 or 4
  // *** redo this 
  flopenr #(`XLEN) PCPDReg(clk, reset, ~StallD, PCPlus2or4F, PCLinkD);
  flopenr #(`XLEN) PCPEReg(clk, reset, ~StallE, PCLinkD, PCLinkE);
  flopenr #(`XLEN) PCPMReg(clk, reset, ~StallM, PCLinkE, PCLinkM);
  flopenr #(`XLEN) PCPWReg(clk, reset, ~StallW, PCLinkM, PCLinkW);

endmodule
Initial Checkin 2021-01-15 04:37:51 +00:00			`///////////////////////////////////////////`
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00			`// ifu.sv`
Initial Checkin 2021-01-15 04:37:51 +00:00			`//`
			`// Written: David_Harris@hmc.edu 9 January 2021`
			`// Modified:`
			`//`
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00			`// Purpose: Instrunction Fetch Unit`
			`// PC, branch prediction, instruction cache`
Initial Checkin 2021-01-15 04:37:51 +00:00			`//`
			`// 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.`
			`///////////////////////////////////////////`

Replaced parameters with macros for XLEN, MISA, other configuration, and renamed wally-params.sv to wally-config.vh 2021-01-23 15:48:12 +00:00			`include "wally-config.vh"
Initial Checkin 2021-01-15 04:37:51 +00:00
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00			`module ifu (`
Moved fpu to temporary location to fix compile and cleaned up interface formatting 2021-02-02 04:44:41 +00:00			`input logic clk, reset,`
Data memory bus integration 2021-02-08 04:21:55 +00:00			`input logic StallF, StallD, StallE, StallM, StallW,`
			`input logic FlushD, FlushE, FlushM, FlushW,`
Moved fpu to temporary location to fix compile and cleaned up interface formatting 2021-02-02 04:44:41 +00:00			`// Fetch`
All tests passing with bus interface 2021-02-24 12:25:03 +00:00			input logic [`XLEN-1:0] InstrInF,
Moved fpu to temporary location to fix compile and cleaned up interface formatting 2021-02-02 04:44:41 +00:00			output logic [`XLEN-1:0] PCF,
Rename ifu/dmem/ebu signals to match uarch diagram 2021-02-02 20:09:24 +00:00			output logic [`XLEN-1:0] InstrPAdrF,
Data memory bus integration 2021-02-08 04:21:55 +00:00			`output logic InstrReadF,`
Rename ifu/dmem/ebu signals to match uarch diagram 2021-02-02 20:09:24 +00:00			`// Decode`
Moved fpu to temporary location to fix compile and cleaned up interface formatting 2021-02-02 04:44:41 +00:00			`// Execute`
			`input logic PCSrcE,`
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00			input logic [`XLEN-1:0] PCTargetE,
Moved fpu to temporary location to fix compile and cleaned up interface formatting 2021-02-02 04:44:41 +00:00			output logic [`XLEN-1:0] PCE,
			`// Mem`
			`input logic RetM, TrapM,`
Replaced parameters with macros for XLEN, MISA, other configuration, and renamed wally-params.sv to wally-config.vh 2021-01-23 15:48:12 +00:00			input logic [`XLEN-1:0] PrivilegedNextPCM,
Moved fpu to temporary location to fix compile and cleaned up interface formatting 2021-02-02 04:44:41 +00:00			`output logic [31:0] InstrD, InstrM,`
			output logic [`XLEN-1:0] PCM,
			`// Writeback`
Provided PC + 2 or 4 (PCLink) for JAL 2021-01-28 05:22:05 +00:00			output logic [`XLEN-1:0] PCLinkW,
Moved fpu to temporary location to fix compile and cleaned up interface formatting 2021-02-02 04:44:41 +00:00			`// Faults`
			`input logic IllegalBaseInstrFaultD,`
			`output logic IllegalIEUInstrFaultD,`
			`output logic InstrMisalignedFaultM,`
All tests passing with bus interface 2021-02-24 12:25:03 +00:00			output logic [`XLEN-1:0] InstrMisalignedAdrM,
			`// bogus`
			`input logic [15:0] rd2`
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00			`);`
Initial Checkin 2021-01-15 04:37:51 +00:00
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00			logic [`XLEN-1:0] UnalignedPCNextF, PCNextF;
Initial Checkin 2021-01-15 04:37:51 +00:00			`logic misaligned, BranchMisalignedFaultE, BranchMisalignedFaultM, TrapMisalignedFaultM;`
Cleaned out unused signals 2021-02-26 14:17:36 +00:00			`logic PrivilegedChangePCM;`
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00			`logic IllegalCompInstrD;`
Provided PC + 2 or 4 (PCLink) for JAL 2021-01-28 05:22:05 +00:00			logic [`XLEN-1:0] PCPlusUpperF, PCPlus2or4F, PCD, PCW, PCLinkD, PCLinkE, PCLinkM;
Changed to . notation for instantiation, cleaned up dmem 2021-01-19 01:16:53 +00:00			`logic CompressedF;`
All tests passing with bus interface 2021-02-24 12:25:03 +00:00			`logic [31:0] InstrF, InstrRawD, InstrE, InstrW;`
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00			`logic [31:0] nop = 32'h00000013; // instruction for NOP`

			`// *** put memory interface on here, InstrF becomes output`
Rename ifu/dmem/ebu signals to match uarch diagram 2021-02-02 20:09:24 +00:00			`assign InstrPAdrF = PCF; // *** no MMU`
More memory interface, ALU testgen 2021-02-15 15:10:50 +00:00			`//assign InstrReadF = ~StallD; // *** & ICacheMissF; add later`
			`assign InstrReadF = 1; // *** & ICacheMissF; add later`
Initial Checkin 2021-01-15 04:37:51 +00:00
			`assign PrivilegedChangePCM = RetM \| TrapM;`

Debugging instruction fetch 2021-02-09 16:02:17 +00:00
Replaced parameters with macros for XLEN, MISA, other configuration, and renamed wally-params.sv to wally-config.vh 2021-01-23 15:48:12 +00:00			mux3 #(`XLEN) pcmux(PCPlus2or4F, PCTargetE, PrivilegedNextPCM, {PrivilegedChangePCM, PCSrcE}, UnalignedPCNextF);
			assign PCNextF = {UnalignedPCNextF[`XLEN-1:1], 1'b0}; // hart-SPEC p. 21 about 16-bit alignment
More memory interface, ALU testgen 2021-02-15 15:10:50 +00:00			flopenl #(`XLEN) pcreg(clk, reset, ~StallF, PCNextF, `RESET_VECTOR, PCF);
Changed to . notation for instantiation, cleaned up dmem 2021-01-19 01:16:53 +00:00
			`// pcadder`
			`// add 2 or 4 to the PC, based on whether the instruction is 16 bits or 32`
			`assign CompressedF = (InstrF[1:0] != 2'b11); // is it a 16-bit compressed instruction?`
Replaced parameters with macros for XLEN, MISA, other configuration, and renamed wally-params.sv to wally-config.vh 2021-01-23 15:48:12 +00:00			assign PCPlusUpperF = PCF[`XLEN-1:2] + 1; // add 4 to PC
Changed to . notation for instantiation, cleaned up dmem 2021-01-19 01:16:53 +00:00
			`// choose PC+2 or PC+4`
			`always_comb`
			`if (CompressedF) // add 2`
			`if (PCF[1]) PCPlus2or4F = {PCPlusUpperF, 2'b00};`
Replaced parameters with macros for XLEN, MISA, other configuration, and renamed wally-params.sv to wally-config.vh 2021-01-23 15:48:12 +00:00			else PCPlus2or4F = {PCF[`XLEN-1:2], 2'b10};
Changed to . notation for instantiation, cleaned up dmem 2021-01-19 01:16:53 +00:00			`else PCPlus2or4F = {PCPlusUpperF, PCF[1:0]}; // add 4`
Initial Checkin 2021-01-15 04:37:51 +00:00
All tests passing with bus interface 2021-02-24 12:25:03 +00:00			`// harris 2/23/21 Add code to fetch instruction split across two words`
			`generate`
			if (`XLEN==32) begin
			`assign InstrF = PCF[1] ? {rd2[15:0], InstrInF[31:16]} : InstrInF;`
			`end else begin`
			`assign InstrF = PCF[2] ? (PCF[1] ? {rd2[15:0], InstrInF[63:48]} : InstrInF[63:32])`
			`: (PCF[1] ? InstrInF[47:16] : InstrInF[31:0]);`
			`end`
			`endgenerate`
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00
			`// Decode stage pipeline register and logic`
			`flopenl #(32) InstrDReg(clk, reset, ~StallD, (FlushD ? nop : InstrF), nop, InstrRawD);`
			flopenrc #(`XLEN) PCDReg(clk, reset, FlushD, ~StallD, PCF, PCD);

Provided PC + 2 or 4 (PCLink) for JAL 2021-01-28 05:22:05 +00:00			`// expand 16-bit compressed instructions to 32 bits`
			`decompress decomp(.*);`
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00			`assign IllegalIEUInstrFaultD = IllegalBaseInstrFaultD \| IllegalCompInstrD; // illegal if bad 32 or 16-bit instr`
			`// *** combine these with others in better way, including M, F`

Initial Checkin 2021-01-15 04:37:51 +00:00			`// Misaligned PC logic`

			`generate`
			if (`C_SUPPORTED) // C supports compressed instructions on halfword boundaries
			`assign misaligned = PCNextF[0];`
			`else // instructions must be on word boundaries`
			`assign misaligned = \|PCNextF[1:0];`
			`endgenerate`

			`// pipeline misaligned faults to M stage`
			`assign BranchMisalignedFaultE = misaligned & PCSrcE; // E-stage (Branch/Jump) misaligned`
Data memory bus integration 2021-02-08 04:21:55 +00:00			`flopenr #(1) InstrMisalginedReg(clk, reset, ~StallM, BranchMisalignedFaultE, BranchMisalignedFaultM);`
			flopenr #(`XLEN) InstrMisalignedAdrReg(clk, reset, ~StallM, PCNextF, InstrMisalignedAdrM);
Initial Checkin 2021-01-15 04:37:51 +00:00			`assign TrapMisalignedFaultM = misaligned & PrivilegedChangePCM;`
			`assign InstrMisalignedFaultM = BranchMisalignedFaultM; // \| TrapMisalignedFaultM; *** put this back in without causing a cyclic path`

Data memory bus integration 2021-02-08 04:21:55 +00:00			`flopenr #(32) InstrEReg(clk, reset, ~StallE, FlushE ? nop : InstrD, InstrE);`
			`flopenr #(32) InstrMReg(clk, reset, ~StallM, FlushM ? nop : InstrE, InstrM);`
			`flopenr #(32) InstrWReg(clk, reset, ~StallW, FlushW ? nop : InstrM, InstrW); // just for testbench, delete later`
			flopenr #(`XLEN) PCEReg(clk, reset, ~StallE, PCD, PCE);
			flopenr #(`XLEN) PCMReg(clk, reset, ~StallM, PCE, PCM);
			flopenr #(`XLEN) PCWReg(clk, reset, ~StallW, PCM, PCW); // *** probably not needed; delete later
Provided PC + 2 or 4 (PCLink) for JAL 2021-01-28 05:22:05 +00:00
Hint to optimize ifu 2021-01-29 02:40:48 +00:00			`// seems like there should be a lower-cost way of doing this PC+2 or PC+4 for JAL.`
			`// either have ALU compute PC+2/4 and feed into ALUResult input of ResultMux or`
			`// have dedicated adder in Mem stage based on PCM + 2 or 4`
			`// *** redo this`
Data memory bus integration 2021-02-08 04:21:55 +00:00			flopenr #(`XLEN) PCPDReg(clk, reset, ~StallD, PCPlus2or4F, PCLinkD);
			flopenr #(`XLEN) PCPEReg(clk, reset, ~StallE, PCLinkD, PCLinkE);
			flopenr #(`XLEN) PCPMReg(clk, reset, ~StallM, PCLinkE, PCLinkM);
			flopenr #(`XLEN) PCPWReg(clk, reset, ~StallW, PCLinkM, PCLinkW);
Repartitioned with Instruction Fetch Unit, Integer Execution Unit 2021-01-28 03:49:47 +00:00
Initial Checkin 2021-01-15 04:37:51 +00:00			`endmodule`