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

///////////////////////////////////////////
// icache.sv
//
// Written: jaallen@g.hmc.edu 2021-03-02
// Modified: 
//
// Purpose: Cache instructions for the ifu so it can access memory less often, saving cycles
// 
// 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 icache(
  // Basic pipeline stuff
  input  logic              clk, reset,
  input  logic              StallF, StallD,
  input  logic              FlushD,
  // Upper bits of physical address for PC
  input  logic [`XLEN-1:12] UpperPCNextPF,
  // Lower 12 bits of virtual PC address, since it's faster this way
  input  logic [11:0]       LowerPCNextF,
  // Data read in from the ebu unit
  input  logic [`XLEN-1:0]  InstrInF,
  input  logic              InstrAckF,
  // Read requested from the ebu unit
  output logic [`XLEN-1:0]  InstrPAdrF,
  output logic              InstrReadF,
  // High if the instruction currently in the fetch stage is compressed
  output logic              CompressedF,
  // High if the icache is requesting a stall
  output logic              ICacheStallF,
  // The raw (not decompressed) instruction that was requested
  // If this instruction is compressed, upper 16 bits may be the next 16 bits or may be zeros
  output logic [31:0]       InstrRawD
);

    // Configuration parameters
    // TODO Move these to a config file
    localparam integer ICACHELINESIZE = 256;
    localparam integer ICACHENUMLINES = 512;

    // Input signals to cache memory
    logic                       FlushMem;
    logic [`XLEN-1:12]          ICacheMemReadUpperPAdr;
    logic [11:0]                ICacheMemReadLowerAdr;
    logic                       ICacheMemWriteEnable;
    logic [ICACHELINESIZE-1:0]  ICacheMemWriteData;
    logic [`XLEN-1:0]           ICacheMemWritePAdr;
    // Output signals from cache memory
    logic [`XLEN-1:0]   ICacheMemReadData;
    logic               ICacheMemReadValid;

    rodirectmappedmem #(.LINESIZE(ICACHELINESIZE), .NUMLINES(ICACHENUMLINES), .WORDSIZE(`XLEN)) cachemem(
        .*,
        .stall(StallF && (~ICacheStallF || ~InstrAckF)),
        .flush(FlushMem),
        .ReadUpperPAdr(ICacheMemReadUpperPAdr),
        .ReadLowerAdr(ICacheMemReadLowerAdr),
        .WriteEnable(ICacheMemWriteEnable),
        .WriteLine(ICacheMemWriteData),
        .WritePAdr(ICacheMemWritePAdr),
        .DataWord(ICacheMemReadData),
        .DataValid(ICacheMemReadValid)
    );

    icachecontroller #(.LINESIZE(ICACHELINESIZE)) controller(.*);

    // For now, assume no writes to executable memory
    assign FlushMem = 1'b0;
endmodule

module icachecontroller #(parameter LINESIZE = 256) (
    // Inputs from pipeline
    input  logic    clk, reset,
    input  logic    StallF, StallD,
    input  logic    FlushD,

    // Input the address to read
    // The upper bits of the physical pc
    input  logic [`XLEN-1:12]   UpperPCNextPF,
    // The lower bits of the virtual pc
    input  logic [11:0]         LowerPCNextF,

    // Signals to/from cache memory
    // The read coming out of it
    input  logic [`XLEN-1:0]    ICacheMemReadData,
    input  logic                ICacheMemReadValid,
    // The address at which we want to search the cache memory
    output logic [`XLEN-1:12]   ICacheMemReadUpperPAdr,
    output logic [11:0]         ICacheMemReadLowerAdr,
    // Load data into the cache
    output logic                ICacheMemWriteEnable,
    output logic [LINESIZE-1:0] ICacheMemWriteData,
    output logic [`XLEN-1:0]    ICacheMemWritePAdr,

    // Outputs to rest of ifu
    // High if the instruction in the fetch stage is compressed
    output logic CompressedF,
    // The instruction that was requested
    // If this instruction is compressed, upper 16 bits may be the next 16 bits or may be zeros
    output logic [31:0]     InstrRawD,

    // Outputs to pipeline control stuff
    output logic ICacheStallF,

    // Signals to/from ahblite interface
    // A read containing the requested data
    input  logic [`XLEN-1:0] InstrInF,
    input  logic             InstrAckF,
    // The read we request from main memory
    output logic [`XLEN-1:0] InstrPAdrF,
    output logic             InstrReadF
);

    // Happy path signals
    logic [31:0]    AlignedInstrRawF, AlignedInstrRawD;
    logic           FlushDLastCycleN;
    logic           PCPMisalignedF;
    const logic [31:0] NOP = 32'h13;
    logic [`XLEN-1:0] PCPF;
    // Misaligned signals
    logic [`XLEN:0] MisalignedInstrRawF;
    logic           MisalignedStall;
    // Cache fault signals
    logic           FaultStall;

    // Detect if the instruction is compressed
    assign CompressedF = AlignedInstrRawF[1:0] != 2'b11;

    // Handle happy path (data in cache, reads aligned)

    generate
        if (`XLEN == 32) begin
            assign AlignedInstrRawF = PCPF[1] ? MisalignedInstrRawF : ICacheMemReadData;
            assign PCPMisalignedF = PCPF[1] && ~CompressedF;
        end else begin
            assign AlignedInstrRawF = PCPF[2]
                ? (PCPF[1] ? MisalignedInstrRawF : ICacheMemReadData[63:32])
                : (PCPF[1] ? ICacheMemReadData[47:16] : ICacheMemReadData[31:0]);
            assign PCPMisalignedF = PCPF[2] && PCPF[1] && ~CompressedF;
        end
    endgenerate

    flopenr #(32) AlignedInstrRawDFlop(clk, reset, ~StallD, AlignedInstrRawF, AlignedInstrRawD);
    flopr   #(1)  FlushDLastCycleFlop(clk, reset, ~FlushD & (FlushDLastCycleN | ~StallF), FlushDLastCycleN);
    flopenr #(`XLEN) PCPFFlop(clk, reset, ~StallF, {UpperPCNextPF, LowerPCNextF}, PCPF);
    mux2    #(32) InstrRawDMux(AlignedInstrRawD, NOP, ~FlushDLastCycleN, InstrRawD);

    // Stall for faults or misaligned reads
    always_comb begin
        assign ICacheStallF = FaultStall | MisalignedStall;
    end


    // Handle misaligned, noncompressed reads

    logic           MisalignedState, NextMisalignedState;
    logic [15:0]    MisalignedHalfInstrF;
    logic [15:0]    UpperHalfWord;

    flopenr #(16) MisalignedHalfInstrFlop(clk, reset, ~FaultStall & (PCPMisalignedF & MisalignedState), AlignedInstrRawF[15:0], MisalignedHalfInstrF);
    flopenr #(1)  MisalignedStateFlop(clk, reset, ~FaultStall, NextMisalignedState, MisalignedState);

    // When doing a misaligned read, swizzle the bits correctly
    generate
        if (`XLEN == 32) begin
            assign UpperHalfWord = ICacheMemReadData[31:16];
        end else begin
            assign UpperHalfWord = ICacheMemReadData[63:48];
        end
    endgenerate
    always_comb begin
        if (MisalignedState) begin
            assign MisalignedInstrRawF = {16'b0, UpperHalfWord};
        end else begin
            assign MisalignedInstrRawF = {ICacheMemReadData[15:0], MisalignedHalfInstrF};
        end
    end

    // Manage internal state and stall when necessary
    always_comb begin
        assign MisalignedStall = PCPMisalignedF & MisalignedState;
        assign NextMisalignedState = ~PCPMisalignedF | ~MisalignedState;
    end

    // Pick the correct address to read
    generate
        if (`XLEN == 32) begin
            assign ICacheMemReadLowerAdr = {LowerPCNextF[11:2] + (PCPMisalignedF & ~MisalignedState), 2'b00};
        end else begin
            assign ICacheMemReadLowerAdr = {LowerPCNextF[11:3] + (PCPMisalignedF & ~MisalignedState), 3'b00};
        end
    endgenerate
    // TODO Handle reading instructions that cross page boundaries
    assign ICacheMemReadUpperPAdr = UpperPCNextPF;


    // Handle cache faults

    localparam integer WORDSPERLINE = LINESIZE/`XLEN;
    localparam integer LOGWPL = $clog2(WORDSPERLINE);
    localparam integer OFFSETWIDTH = $clog2(LINESIZE/8);

    logic               FetchState, EndFetchState, BeginFetchState;
    logic [LOGWPL:0]    FetchWordNum, NextFetchWordNum;
    logic [`XLEN-1:0]   LineAlignedPCPF;

    flopr #(1) FetchStateFlop(clk, reset, BeginFetchState | (FetchState & ~EndFetchState), FetchState);
    flopr #(LOGWPL+1) FetchWordNumFlop(clk, reset, NextFetchWordNum, FetchWordNum);

    genvar i;
    generate
        for (i=0; i < WORDSPERLINE; i++) begin
            flopenr #(`XLEN) flop(clk, reset, FetchState & (i == FetchWordNum), InstrInF, ICacheMemWriteData[(i+1)*`XLEN-1:i*`XLEN]);
        end
    endgenerate

    // Enter the fetch state when we hit a cache fault
    always_comb begin
        assign BeginFetchState = ~ICacheMemReadValid & ~FetchState;
    end

    // Machinery to request the correct addresses from main memory
    always_comb begin
        assign InstrReadF = FetchState & ~EndFetchState;
        assign LineAlignedPCPF = {ICacheMemReadUpperPAdr, ICacheMemReadLowerAdr[11:OFFSETWIDTH], {OFFSETWIDTH{1'b0}}};
        assign InstrPAdrF = LineAlignedPCPF + FetchWordNum*(`XLEN/8);
        assign NextFetchWordNum = FetchState ? FetchWordNum+InstrAckF : {LOGWPL+1{1'b0}}; 
    end

    // Write to cache memory when we have the line here
    always_comb begin
        assign EndFetchState = FetchWordNum == {1'b1, {LOGWPL{1'b0}}} & FetchState;
        assign ICacheMemWritePAdr = LineAlignedPCPF;
        assign ICacheMemWriteEnable = EndFetchState;
    end

    // Stall the pipeline while loading a new line from memory
    always_comb begin
        assign FaultStall = FetchState | ~ICacheMemReadValid;
    end
endmodule
Remove rd2, working for non-compressed 2021-03-04 21:46:43 +00:00			`///////////////////////////////////////////`
			`// icache.sv`
			`//`
			`// Written: jaallen@g.hmc.edu 2021-03-02`
			`// Modified:`
			`//`
Small commit to see if new hook tests non-main branch 2021-03-23 03:57:01 +00:00			`// Purpose: Cache instructions for the ifu so it can access memory less often, saving cycles`
Remove rd2, working for non-compressed 2021-03-04 21:46:43 +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.`
			`///////////////////////////////////////////`

			`include "wally-config.vh"

			`module icache(`
Add comments explaining icache inputs 2021-03-23 04:07:39 +00:00			`// Basic pipeline stuff`
Update icache interface 2021-03-22 19:04:46 +00:00			`input logic clk, reset,`
			`input logic StallF, StallD,`
			`input logic FlushD,`
Add comments explaining icache inputs 2021-03-23 04:07:39 +00:00			`// Upper bits of physical address for PC`
A few more cache fixes 2021-04-13 05:06:57 +00:00			input logic [`XLEN-1:12] UpperPCNextPF,
Add comments explaining icache inputs 2021-03-23 04:07:39 +00:00			`// Lower 12 bits of virtual PC address, since it's faster this way`
A few more cache fixes 2021-04-13 05:06:57 +00:00			`input logic [11:0] LowerPCNextF,`
Add comments explaining icache inputs 2021-03-23 04:07:39 +00:00			`// Data read in from the ebu unit`
Update icache interface 2021-03-22 19:04:46 +00:00			input logic [`XLEN-1:0] InstrInF,
rv64i linear control flow now working 2021-03-24 20:56:44 +00:00			`input logic InstrAckF,`
Add comments explaining icache inputs 2021-03-23 04:07:39 +00:00			`// Read requested from the ebu unit`
Update icache interface 2021-03-22 19:04:46 +00:00			output logic [`XLEN-1:0] InstrPAdrF,
			`output logic InstrReadF,`
Add comments explaining icache inputs 2021-03-23 04:07:39 +00:00			`// High if the instruction currently in the fetch stage is compressed`
Update icache interface 2021-03-22 19:04:46 +00:00			`output logic CompressedF,`
Add comments explaining icache inputs 2021-03-23 04:07:39 +00:00			`// High if the icache is requesting a stall`
Update icache interface 2021-03-22 19:04:46 +00:00			`output logic ICacheStallF,`
Add comments explaining icache inputs 2021-03-23 04:07:39 +00:00			`// The raw (not decompressed) instruction that was requested`
Works for misaligned instructions not on line boundaries 2021-03-25 19:42:17 +00:00			`// If this instruction is compressed, upper 16 bits may be the next 16 bits or may be zeros`
Update icache interface 2021-03-22 19:04:46 +00:00			`output logic [31:0] InstrRawD`
Remove rd2, working for non-compressed 2021-03-04 21:46:43 +00:00			`);`

Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`// Configuration parameters`
			`// TODO Move these to a config file`
			`localparam integer ICACHELINESIZE = 256;`
			`localparam integer ICACHENUMLINES = 512;`

			`// Input signals to cache memory`
			`logic FlushMem;`
			logic [`XLEN-1:12] ICacheMemReadUpperPAdr;
			`logic [11:0] ICacheMemReadLowerAdr;`
			`logic ICacheMemWriteEnable;`
			`logic [ICACHELINESIZE-1:0] ICacheMemWriteData;`
			logic [`XLEN-1:0] ICacheMemWritePAdr;
			`// Output signals from cache memory`
			logic [`XLEN-1:0] ICacheMemReadData;
			`logic ICacheMemReadValid;`

A few more cache fixes 2021-04-13 05:06:57 +00:00			rodirectmappedmem #(.LINESIZE(ICACHELINESIZE), .NUMLINES(ICACHENUMLINES), .WORDSIZE(`XLEN)) cachemem(
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`.*,`
A few more cache fixes 2021-04-13 05:06:57 +00:00			`.stall(StallF && (~ICacheStallF \|\| ~InstrAckF)),`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`.flush(FlushMem),`
			`.ReadUpperPAdr(ICacheMemReadUpperPAdr),`
			`.ReadLowerAdr(ICacheMemReadLowerAdr),`
			`.WriteEnable(ICacheMemWriteEnable),`
			`.WriteLine(ICacheMemWriteData),`
			`.WritePAdr(ICacheMemWritePAdr),`
			`.DataWord(ICacheMemReadData),`
			`.DataValid(ICacheMemReadValid)`
			`);`

			`icachecontroller #(.LINESIZE(ICACHELINESIZE)) controller(.*);`
rv64i linear control flow now working 2021-03-24 20:56:44 +00:00
A few more cache fixes 2021-04-13 05:06:57 +00:00			`// For now, assume no writes to executable memory`
rv64i linear control flow now working 2021-03-24 20:56:44 +00:00			`assign FlushMem = 1'b0;`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`endmodule`

			`module icachecontroller #(parameter LINESIZE = 256) (`
			`// Inputs from pipeline`
			`input logic clk, reset,`
			`input logic StallF, StallD,`
			`input logic FlushD,`

			`// Input the address to read`
			`// The upper bits of the physical pc`
A few more cache fixes 2021-04-13 05:06:57 +00:00			input logic [`XLEN-1:12] UpperPCNextPF,
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`// The lower bits of the virtual pc`
A few more cache fixes 2021-04-13 05:06:57 +00:00			`input logic [11:0] LowerPCNextF,`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00
			`// Signals to/from cache memory`
			`// The read coming out of it`
			input logic [`XLEN-1:0] ICacheMemReadData,
			`input logic ICacheMemReadValid,`
			`// The address at which we want to search the cache memory`
			output logic [`XLEN-1:12] ICacheMemReadUpperPAdr,
			`output logic [11:0] ICacheMemReadLowerAdr,`
			`// Load data into the cache`
			`output logic ICacheMemWriteEnable,`
			`output logic [LINESIZE-1:0] ICacheMemWriteData,`
			output logic [`XLEN-1:0] ICacheMemWritePAdr,

			`// Outputs to rest of ifu`
			`// High if the instruction in the fetch stage is compressed`
			`output logic CompressedF,`
			`// The instruction that was requested`
			`// If this instruction is compressed, upper 16 bits may be the next 16 bits or may be zeros`
			`output logic [31:0] InstrRawD,`

			`// Outputs to pipeline control stuff`
			`output logic ICacheStallF,`

			`// Signals to/from ahblite interface`
			`// A read containing the requested data`
			input logic [`XLEN-1:0] InstrInF,
rv64i linear control flow now working 2021-03-24 20:56:44 +00:00			`input logic InstrAckF,`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`// The read we request from main memory`
			output logic [`XLEN-1:0] InstrPAdrF,
			`output logic InstrReadF`
			`);`

Works for misaligned instructions not on line boundaries 2021-03-25 19:42:17 +00:00			`// Happy path signals`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`logic [31:0] AlignedInstrRawF, AlignedInstrRawD;`
Make cache output NOP after a reset 2021-03-25 17:18:30 +00:00			`logic FlushDLastCycleN;`
Begin work on compressed instructions 2021-03-25 18:43:10 +00:00			`logic PCPMisalignedF;`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`const logic [31:0] NOP = 32'h13;`
A few more cache fixes 2021-04-13 05:06:57 +00:00			logic [`XLEN-1:0] PCPF;
Works for misaligned instructions not on line boundaries 2021-03-25 19:42:17 +00:00			`// Misaligned signals`
			logic [`XLEN:0] MisalignedInstrRawF;
			`logic MisalignedStall;`
			`// Cache fault signals`
			`logic FaultStall;`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00
Begin work on compressed instructions 2021-03-25 18:43:10 +00:00			`// Detect if the instruction is compressed`
			`assign CompressedF = AlignedInstrRawF[1:0] != 2'b11;`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00
			`// Handle happy path (data in cache, reads aligned)`

			`generate`
			if (`XLEN == 32) begin
A few more cache fixes 2021-04-13 05:06:57 +00:00			`assign AlignedInstrRawF = PCPF[1] ? MisalignedInstrRawF : ICacheMemReadData;`
			`assign PCPMisalignedF = PCPF[1] && ~CompressedF;`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`end else begin`
A few more cache fixes 2021-04-13 05:06:57 +00:00			`assign AlignedInstrRawF = PCPF[2]`
			`? (PCPF[1] ? MisalignedInstrRawF : ICacheMemReadData[63:32])`
			`: (PCPF[1] ? ICacheMemReadData[47:16] : ICacheMemReadData[31:0]);`
			`assign PCPMisalignedF = PCPF[2] && PCPF[1] && ~CompressedF;`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`end`
			`endgenerate`

			`flopenr #(32) AlignedInstrRawDFlop(clk, reset, ~StallD, AlignedInstrRawF, AlignedInstrRawD);`
Make cache output NOP after a reset 2021-03-25 17:18:30 +00:00			`flopr #(1) FlushDLastCycleFlop(clk, reset, ~FlushD & (FlushDLastCycleN \| ~StallF), FlushDLastCycleN);`
A few more cache fixes 2021-04-13 05:06:57 +00:00			flopenr #(`XLEN) PCPFFlop(clk, reset, ~StallF, {UpperPCNextPF, LowerPCNextF}, PCPF);
Make cache output NOP after a reset 2021-03-25 17:18:30 +00:00			`mux2 #(32) InstrRawDMux(AlignedInstrRawD, NOP, ~FlushDLastCycleN, InstrRawD);`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00
Begin work on compressed instructions 2021-03-25 18:43:10 +00:00			`// Stall for faults or misaligned reads`
			`always_comb begin`
			`assign ICacheStallF = FaultStall \| MisalignedStall;`
			`end`

Works for misaligned instructions not on line boundaries 2021-03-25 19:42:17 +00:00
Begin work on compressed instructions 2021-03-25 18:43:10 +00:00			`// Handle misaligned, noncompressed reads`
Works for misaligned instructions not on line boundaries 2021-03-25 19:42:17 +00:00
Begin work on compressed instructions 2021-03-25 18:43:10 +00:00			`logic MisalignedState, NextMisalignedState;`
			`logic [15:0] MisalignedHalfInstrF;`
Works for misaligned instructions not on line boundaries 2021-03-25 19:42:17 +00:00			`logic [15:0] UpperHalfWord;`
Begin work on compressed instructions 2021-03-25 18:43:10 +00:00
			`flopenr #(16) MisalignedHalfInstrFlop(clk, reset, ~FaultStall & (PCPMisalignedF & MisalignedState), AlignedInstrRawF[15:0], MisalignedHalfInstrF);`
			`flopenr #(1) MisalignedStateFlop(clk, reset, ~FaultStall, NextMisalignedState, MisalignedState);`

Works for misaligned instructions not on line boundaries 2021-03-25 19:42:17 +00:00			`// When doing a misaligned read, swizzle the bits correctly`
			`generate`
			if (`XLEN == 32) begin
			`assign UpperHalfWord = ICacheMemReadData[31:16];`
			`end else begin`
			`assign UpperHalfWord = ICacheMemReadData[63:48];`
			`end`
			`endgenerate`
			`always_comb begin`
			`if (MisalignedState) begin`
			`assign MisalignedInstrRawF = {16'b0, UpperHalfWord};`
			`end else begin`
			`assign MisalignedInstrRawF = {ICacheMemReadData[15:0], MisalignedHalfInstrF};`
			`end`
			`end`

			`// Manage internal state and stall when necessary`
Begin work on compressed instructions 2021-03-25 18:43:10 +00:00			`always_comb begin`
			`assign MisalignedStall = PCPMisalignedF & MisalignedState;`
			`assign NextMisalignedState = ~PCPMisalignedF \| ~MisalignedState;`
			`end`

			`// Pick the correct address to read`
Works for misaligned instructions not on line boundaries 2021-03-25 19:42:17 +00:00			`generate`
			if (`XLEN == 32) begin
A few more cache fixes 2021-04-13 05:06:57 +00:00			`assign ICacheMemReadLowerAdr = {LowerPCNextF[11:2] + (PCPMisalignedF & ~MisalignedState), 2'b00};`
Begin work on compressed instructions 2021-03-25 18:43:10 +00:00			`end else begin`
A few more cache fixes 2021-04-13 05:06:57 +00:00			`assign ICacheMemReadLowerAdr = {LowerPCNextF[11:3] + (PCPMisalignedF & ~MisalignedState), 3'b00};`
Begin work on compressed instructions 2021-03-25 18:43:10 +00:00			`end`
Works for misaligned instructions not on line boundaries 2021-03-25 19:42:17 +00:00			`endgenerate`
A few more cache fixes 2021-04-13 05:06:57 +00:00			`// TODO Handle reading instructions that cross page boundaries`
			`assign ICacheMemReadUpperPAdr = UpperPCNextPF;`
Works for misaligned instructions not on line boundaries 2021-03-25 19:42:17 +00:00
Begin work on compressed instructions 2021-03-25 18:43:10 +00:00
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`// Handle cache faults`

			localparam integer WORDSPERLINE = LINESIZE/`XLEN;
More progress on icache controller 2021-03-24 17:58:43 +00:00			`localparam integer LOGWPL = $clog2(WORDSPERLINE);`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`localparam integer OFFSETWIDTH = $clog2(LINESIZE/8);`

Begin work on compressed instructions 2021-03-25 18:43:10 +00:00			`logic FetchState, EndFetchState, BeginFetchState;`
			`logic [LOGWPL:0] FetchWordNum, NextFetchWordNum;`
			logic [`XLEN-1:0] LineAlignedPCPF;
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00
More progress on icache controller 2021-03-24 17:58:43 +00:00			`flopr #(1) FetchStateFlop(clk, reset, BeginFetchState \| (FetchState & ~EndFetchState), FetchState);`
			`flopr #(LOGWPL+1) FetchWordNumFlop(clk, reset, NextFetchWordNum, FetchWordNum);`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00
			`genvar i;`
			`generate`
			`for (i=0; i < WORDSPERLINE; i++) begin`
rv64i linear control flow now working 2021-03-24 20:56:44 +00:00			flopenr #(`XLEN) flop(clk, reset, FetchState & (i == FetchWordNum), InstrInF, ICacheMemWriteData[(i+1)`XLEN-1:i`XLEN]);
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`end`
			`endgenerate`

rv64i linear control flow now working 2021-03-24 20:56:44 +00:00			`// Enter the fetch state when we hit a cache fault`
			`always_comb begin`
			`assign BeginFetchState = ~ICacheMemReadValid & ~FetchState;`
			`end`

More progress on icache controller 2021-03-24 17:58:43 +00:00			`// Machinery to request the correct addresses from main memory`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`always_comb begin`
rv64i linear control flow now working 2021-03-24 20:56:44 +00:00			`assign InstrReadF = FetchState & ~EndFetchState;`
Fix error when reading an instruction that crosses a line boundary 2021-03-25 22:47:23 +00:00			`assign LineAlignedPCPF = {ICacheMemReadUpperPAdr, ICacheMemReadLowerAdr[11:OFFSETWIDTH], {OFFSETWIDTH{1'b0}}};`
rv64i linear control flow now working 2021-03-24 20:56:44 +00:00			assign InstrPAdrF = LineAlignedPCPF + FetchWordNum*(`XLEN/8);
			`assign NextFetchWordNum = FetchState ? FetchWordNum+InstrAckF : {LOGWPL+1{1'b0}};`
More progress on icache controller 2021-03-24 17:58:43 +00:00			`end`

			`// Write to cache memory when we have the line here`
			`always_comb begin`
rv64i linear control flow now working 2021-03-24 20:56:44 +00:00			`assign EndFetchState = FetchWordNum == {1'b1, {LOGWPL{1'b0}}} & FetchState;`
			`assign ICacheMemWritePAdr = LineAlignedPCPF;`
			`assign ICacheMemWriteEnable = EndFetchState;`
More progress on icache controller 2021-03-24 17:58:43 +00:00			`end`

			`// Stall the pipeline while loading a new line from memory`
			`always_comb begin`
Begin work on compressed instructions 2021-03-25 18:43:10 +00:00			`assign FaultStall = FetchState \| ~ICacheMemReadValid;`
Begin rewrite of icache module to use a direct-mapped scheme 2021-03-24 17:40:08 +00:00			`end`
			`endmodule`