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[/] [potato/] [trunk/] [src/] [pp_decode.vhd] - Rev 44
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-- The Potato Processor - A simple processor for FPGAs -- (c) Kristian Klomsten Skordal 2014 - 2015 <kristian.skordal@wafflemail.net> -- Report bugs and issues on <http://opencores.org/project,potato,bugtracker> library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.pp_types.all; use work.pp_constants.all; use work.pp_csr.all; --! @brief Instruction decode unit. entity pp_decode is generic( RESET_ADDRESS : std_logic_vector(31 downto 0); PROCESSOR_ID : std_logic_vector(31 downto 0) ); port( clk : in std_logic; reset : in std_logic; flush : in std_logic; stall : in std_logic; -- Instruction input: instruction_data : in std_logic_vector(31 downto 0); instruction_address : in std_logic_vector(31 downto 0); instruction_ready : in std_logic; instruction_count : in std_logic; -- Register addresses: rs1_addr, rs2_addr, rd_addr : out register_address; csr_addr : out csr_address; -- Shamt value for shift operations: shamt : out std_logic_vector(4 downto 0); funct3 : out std_logic_vector(2 downto 0); -- Immediate value for immediate instructions: immediate : out std_logic_vector(31 downto 0); -- Control signals: rd_write : out std_logic; branch : out branch_type; alu_x_src : out alu_operand_source; alu_y_src : out alu_operand_source; alu_op : out alu_operation; mem_op : out memory_operation_type; mem_size : out memory_operation_size; count_instruction : out std_logic; -- Instruction address: pc : out std_logic_vector(31 downto 0); -- CSR control signals: csr_write : out csr_write_mode; csr_use_imm : out std_logic; -- Exception output signals: decode_exception : out std_logic; decode_exception_cause : out csr_exception_cause ); end entity pp_decode; architecture behaviour of pp_decode is signal instruction : std_logic_vector(31 downto 0); signal immediate_value : std_logic_vector(31 downto 0); begin immediate <= immediate_value; get_instruction: process(clk) begin if rising_edge(clk) then if reset = '1' then instruction <= RISCV_NOP; pc <= RESET_ADDRESS; count_instruction <= '0'; elsif stall = '1' then count_instruction <= '0'; elsif flush = '1' or instruction_ready = '0' then instruction <= RISCV_NOP; count_instruction <= '0'; else instruction <= instruction_data; count_instruction <= instruction_count; pc <= instruction_address; end if; end if; end process get_instruction; -- -- Extract register addresses from the instruction word: rs1_addr <= instruction(19 downto 15); rs2_addr <= instruction(24 downto 20); rd_addr <= instruction(11 downto 7); -- Extract the shamt value from the instruction word: shamt <= instruction(24 downto 20); -- Extract the value specifying which comparison to do in branch instructions: funct3 <= instruction(14 downto 12); -- Extract the immediate value from the instruction word: immediate_decoder: entity work.pp_imm_decoder port map( instruction => instruction(31 downto 2), immediate => immediate_value ); decode_csr_addr: process(immediate_value) begin if immediate_value(11 downto 0) = CSR_EPC_SRET then csr_addr <= CSR_EPC; else csr_addr <= immediate_value(11 downto 0); end if; end process decode_csr_addr; control_unit: entity work.pp_control_unit port map( opcode => instruction(6 downto 2), funct3 => instruction(14 downto 12), funct7 => instruction(31 downto 25), funct12 => instruction(31 downto 20), rd_write => rd_write, branch => branch, alu_x_src => alu_x_src, alu_y_src => alu_y_src, alu_op => alu_op, mem_op => mem_op, mem_size => mem_size, decode_exception => decode_exception, decode_exception_cause => decode_exception_cause, csr_write => csr_write, csr_imm => csr_use_imm ); end architecture behaviour;
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