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lfd111x_building_a_risc-v-cpu_core
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Add decoding of remaining instr; move instr mem into pkg; add jump logic; Makefile refactoring

master
T. Meissner 4 years ago
parent
03b2872c8d
commit
d52e1681b9
3 changed files with 107 additions and 37 deletions
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  1. +11
    -5
      vhdl/Makefile
  2. +60
    -32
      vhdl/risc_v.vhd
  3. +36
    -0
      vhdl/risc_v_pkg.vhd

+ 11
- 5
vhdl/Makefile View File

@ -1,9 +1,15 @@
DESIGN := risc_v
DESIGN_SRC := risc_v_pkg.vhd risc_v.vhd
TESTBENCH := tb_${DESIGN}
.PHONY: sim .PHONY: sim
sim: risc_v.vhd tb_risc_v.vhd
ghdl -a --std=08 risc_v.vhd tb_risc_v.vhd
ghdl -e --std=08 tb_risc_v
ghdl -r --std=08 tb_risc_v --vcd=tb_risc_v.vcd --wave=tb_risc_v.ghw
sim: tb_${DESIGN}.ghw
${TESTBENCH}.ghw : ${DESIGN_SRC} ${TESTBENCH}.vhd
ghdl -a --std=08 ${DESIGN_SRC} ${TESTBENCH}.vhd
ghdl -e --std=08 ${TESTBENCH}
ghdl -r --std=08 ${TESTBENCH} --vcd=${TESTBENCH}.vcd --wave=$@
.PHONY: clean .PHONY: clean
clean: clean:
rm tb_risc_v tb_risc_v.ghw tb_risc_v.vcd work* *.o
rm ${TESTBENCH} ${TESTBENCH}.ghw ${TESTBENCH}.vcd work* *.o

+ 60
- 32
vhdl/risc_v.vhd View File

@ -2,6 +2,8 @@ library ieee;
use ieee.std_logic_1164.all; use ieee.std_logic_1164.all;
use ieee.numeric_std.all; use ieee.numeric_std.all;
use work.risc_v_pkg.all;
entity risc_v is entity risc_v is
port ( port (
@ -14,31 +16,6 @@ end entity;
architecture rtl of risc_v is architecture rtl of risc_v is
type t_slv_array is array (natural range <>) of std_logic_vector;
subtype t_reg_file is t_slv_array(0 to 31)(31 downto 0);
subtype t_imem is t_slv_array(natural range 0 to 8)(31 downto 0);
-- Test program
constant c_imem : t_imem := (
-- ADDI, x14, x0, 0
b"0000_0000_0000_0000_0000_0111_0001_0011",
-- ADDI, x12, x0, 1010
b"0000_0000_1010_0000_0000_0110_0001_0011",
-- ADDI, x13, x0, 1
b"0000_0000_0001_0000_0000_0110_1001_0011",
-- LOOP begin
-- ADD, x14, x13, x14
b"0000_0000_1110_0110_1000_0111_0011_0011",
-- ADDI, x13, x13, 1
b"0000_0000_0001_0110_1000_0110_1001_0011",
-- BLT, x13, x12, 1111111111000 (branch to LOOP begin if x13 < x12)
b"1111_1110_1100_0110_1100_1100_1110_0011",
-- ADDI, x0, x0, 1010 (Test write ignore to x0)
b"0000_0000_1010_0000_0000_0000_0001_0011",
-- ADDI, x30, x14, 111111010100
b"1111_1101_0100_0111_0000_1111_0001_0011",
-- BGE, x0, x0, 0 (Infinite loop)
b"0000_0000_0000_0000_0101_0000_0110_0011");
signal s_reg_file : t_reg_file; signal s_reg_file : t_reg_file;
@ -48,9 +25,10 @@ architecture rtl of risc_v is
signal s_src1_value : std_logic_vector(31 downto 0); signal s_src1_value : std_logic_vector(31 downto 0);
signal s_src2_value : std_logic_vector(31 downto 0); signal s_src2_value : std_logic_vector(31 downto 0);
signal s_pc : unsigned(31 downto 0);
signal s_next_pc : unsigned(31 downto 0);
signal s_br_tgt_br : unsigned(31 downto 0);
signal s_pc : unsigned(31 downto 0);
signal s_next_pc : unsigned(31 downto 0);
signal s_br_tgt_br : unsigned(31 downto 0);
signal s_jalr_tgt_pc : unsigned(31 downto 0);
signal s_result : signed(31 downto 0); signal s_result : signed(31 downto 0);
@ -67,6 +45,10 @@ architecture rtl of risc_v is
signal s_rs2_valid : boolean; signal s_rs2_valid : boolean;
signal s_funct7_valid : boolean; signal s_funct7_valid : boolean;
signal s_imm_valid : boolean; signal s_imm_valid : boolean;
signal s_is_lui : boolean;
signal s_is_auipc : boolean;
signal s_is_jal : boolean;
signal s_is_jalr : boolean;
signal s_is_beq : boolean; signal s_is_beq : boolean;
signal s_is_bne : boolean; signal s_is_bne : boolean;
signal s_is_blt : boolean; signal s_is_blt : boolean;
@ -74,7 +56,26 @@ architecture rtl of risc_v is
signal s_is_bltu : boolean; signal s_is_bltu : boolean;
signal s_is_bgeu : boolean; signal s_is_bgeu : boolean;
signal s_is_addi : boolean; signal s_is_addi : boolean;
signal s_is_slti : boolean;
signal s_is_sltiu : boolean;
signal s_is_xori : boolean;
signal s_is_ori : boolean;
signal s_is_andi : boolean;
signal s_is_slli : boolean;
signal s_is_srli : boolean;
signal s_is_srai : boolean;
signal s_is_add : boolean; signal s_is_add : boolean;
signal s_is_sub : boolean;
signal s_is_sll : boolean;
signal s_is_slt : boolean;
signal s_is_sltu : boolean;
signal s_is_xor : boolean;
signal s_is_srl : boolean;
signal s_is_sra : boolean;
signal s_is_or : boolean;
signal s_is_and : boolean;
signal s_is_load : boolean;
signal s_is_store : boolean;
alias a_opcode : std_logic_vector(6 downto 0) is s_instr(6 downto 0); alias a_opcode : std_logic_vector(6 downto 0) is s_instr(6 downto 0);
alias a_rd : std_logic_vector(4 downto 0) is s_instr(11 downto 7); alias a_rd : std_logic_vector(4 downto 0) is s_instr(11 downto 7);
@ -86,8 +87,9 @@ architecture rtl of risc_v is
begin begin
-- prog counter next state logic -- prog counter next state logic
s_next_pc <= 32x"0" when not reset_n_i else
s_br_tgt_br when s_taken_br else
s_next_pc <= 32x"0" when not reset_n_i else
s_br_tgt_br when s_taken_br or s_is_jal else
s_jalr_tgt_pc when s_is_jalr else
s_pc + 4; s_pc + 4;
-- prog counter register -- prog counter register
@ -146,6 +148,10 @@ begin
-- Instruction code decoding -- Instruction code decoding
s_dec_bits <= (a_funct7(5), a_funct3, a_opcode); s_dec_bits <= (a_funct7(5), a_funct3, a_opcode);
s_is_lui <= std_match(s_dec_bits, b"-_---_0110111");
s_is_auipc <= std_match(s_dec_bits, b"-_---_0010111");
s_is_jal <= std_match(s_dec_bits, b"-_---_1101111");
s_is_jalr <= std_match(s_dec_bits, b"-_000_1100111");
s_is_beq <= std_match(s_dec_bits, b"-_000_1100011"); s_is_beq <= std_match(s_dec_bits, b"-_000_1100011");
s_is_bne <= std_match(s_dec_bits, b"-_001_1100011"); s_is_bne <= std_match(s_dec_bits, b"-_001_1100011");
s_is_blt <= std_match(s_dec_bits, b"-_100_1100011"); s_is_blt <= std_match(s_dec_bits, b"-_100_1100011");
@ -153,7 +159,28 @@ begin
s_is_bltu <= std_match(s_dec_bits, b"-_110_1100011"); s_is_bltu <= std_match(s_dec_bits, b"-_110_1100011");
s_is_bgeu <= std_match(s_dec_bits, b"-_111_1100011"); s_is_bgeu <= std_match(s_dec_bits, b"-_111_1100011");
s_is_addi <= std_match(s_dec_bits, b"-_000_0010011"); s_is_addi <= std_match(s_dec_bits, b"-_000_0010011");
s_is_add <= s_dec_bits = b"0_000_0110011";
s_is_slti <= std_match(s_dec_bits, b"-_010_0010011");
s_is_sltiu <= std_match(s_dec_bits, b"-_011_0010011");
s_is_xori <= std_match(s_dec_bits, b"-_100_0010011");
s_is_ori <= std_match(s_dec_bits, b"-_110_0010011");
s_is_andi <= std_match(s_dec_bits, b"-_111_0010011");
s_is_slli <= s_dec_bits = b"0_001_0010011";
s_is_srli <= s_dec_bits = b"0_101_0010011";
s_is_srai <= s_dec_bits = b"1_101_0010011";
s_is_add <= s_dec_bits = b"0_000_0110011";
s_is_sub <= s_dec_bits = b"1_000_0110011";
s_is_sll <= s_dec_bits = b"0_001_0110011";
s_is_slt <= s_dec_bits = b"0_010_0110011";
s_is_sltu <= s_dec_bits = b"0_011_0110011";
s_is_xor <= s_dec_bits = b"0_100_0110011";
s_is_srl <= s_dec_bits = b"0_101_0110011";
s_is_sra <= s_dec_bits = b"1_101_0110011";
s_is_or <= s_dec_bits = b"0_110_0110011";
s_is_and <= s_dec_bits = b"0_111_0110011";
-- LB, LH, LW, LBU, LHU
s_is_load <= a_opcode = "0000011";
-- SB, SH, SW
s_is_store <= a_opcode = "0100011";
-- ALU -- ALU
s_result <= signed(s_src1_value) + signed(s_imm) when s_is_addi else s_result <= signed(s_src1_value) + signed(s_imm) when s_is_addi else
@ -168,7 +195,8 @@ begin
unsigned(s_src1_value) < unsigned(s_src2_value) when s_is_bltu else unsigned(s_src1_value) < unsigned(s_src2_value) when s_is_bltu else
unsigned(s_src1_value) >= unsigned(s_src2_value) when s_is_bgeu else unsigned(s_src1_value) >= unsigned(s_src2_value) when s_is_bgeu else
false; false;
s_br_tgt_br <= s_pc + unsigned(s_imm);
s_br_tgt_br <= s_pc + unsigned(s_imm);
s_jalr_tgt_pc <= unsigned(s_src1_value) + unsigned(s_imm);
-- Register file -- Register file
process (clk_i) is process (clk_i) is


+ 36
- 0
vhdl/risc_v_pkg.vhd View File

@ -0,0 +1,36 @@
library ieee;
use ieee.std_logic_1164.all;
package risc_v_pkg is
type t_slv_array is array (natural range <>) of std_logic_vector;
subtype t_reg_file is t_slv_array(0 to 31)(31 downto 0);
subtype t_imem is t_slv_array(natural range 0 to 8)(31 downto 0);
-- Test program
constant c_imem : t_imem := (
-- ADDI, x14, x0, 0
b"0000_0000_0000_0000_0000_0111_0001_0011",
-- ADDI, x12, x0, 1010
b"0000_0000_1010_0000_0000_0110_0001_0011",
-- ADDI, x13, x0, 1
b"0000_0000_0001_0000_0000_0110_1001_0011",
-- LOOP begin
-- ADD, x14, x13, x14
b"0000_0000_1110_0110_1000_0111_0011_0011",
-- ADDI, x13, x13, 1
b"0000_0000_0001_0110_1000_0110_1001_0011",
-- BLT, x13, x12, 1111111111000 (branch to LOOP begin if x13 < x12)
b"1111_1110_1100_0110_1100_1100_1110_0011",
-- ADDI, x0, x0, 1010 (Test write ignore to x0)
b"0000_0000_1010_0000_0000_0000_0001_0011",
-- ADDI, x30, x14, 111111010100
b"1111_1101_0100_0111_0000_1111_0001_0011",
-- BGE, x0, x0, 0 (Infinite loop)
b"0000_0000_0000_0000_0101_0000_0110_0011");
end package risc_v_pkg;

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