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140 lines
5.5 KiB
VHDL
140 lines
5.5 KiB
VHDL
---------------------------------------------------------------------
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-- TITLE: Pipeline
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-- AUTHOR: Steve Rhoads (rhoadss@yahoo.com)
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-- DATE CREATED: 6/24/02
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-- FILENAME: pipeline.vhd
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-- PROJECT: Plasma CPU core
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-- COPYRIGHT: Software placed into the public domain by the author.
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-- Software 'as is' without warranty. Author liable for nothing.
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-- DESCRIPTION:
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-- Controls the three stage pipeline by delaying the signals:
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-- a_bus, b_bus, alu/shift/mult_func, c_source, and rs_index.
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---------------------------------------------------------------------
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library ieee;
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use ieee.std_logic_1164.all;
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use work.mlite_pack.all;
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--Note: sigD <= sig after rising_edge(clk)
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entity pipeline is
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port(clk : in std_logic;
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reset : in std_logic;
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a_bus : in std_logic_vector(31 downto 0);
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a_busD : out std_logic_vector(31 downto 0);
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b_bus : in std_logic_vector(31 downto 0);
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b_busD : out std_logic_vector(31 downto 0);
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alu_func : in alu_function_type;
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alu_funcD : out alu_function_type;
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shift_func : in shift_function_type;
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shift_funcD : out shift_function_type;
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mult_func : in mult_function_type;
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mult_funcD : out mult_function_type;
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reg_dest : in std_logic_vector(31 downto 0);
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reg_destD : out std_logic_vector(31 downto 0);
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rd_index : in std_logic_vector(5 downto 0);
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rd_indexD : out std_logic_vector(5 downto 0);
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rs_index : in std_logic_vector(5 downto 0);
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rt_index : in std_logic_vector(5 downto 0);
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pc_source : in pc_source_type;
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mem_source : in mem_source_type;
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a_source : in a_source_type;
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b_source : in b_source_type;
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c_source : in c_source_type;
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c_bus : in std_logic_vector(31 downto 0);
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pause_any : in std_logic;
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pause_pipeline : out std_logic);
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end; --entity pipeline
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architecture logic of pipeline is
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signal rd_index_reg : std_logic_vector(5 downto 0);
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signal reg_dest_reg : std_logic_vector(31 downto 0);
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signal reg_dest_delay : std_logic_vector(31 downto 0);
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signal c_source_reg : c_source_type;
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signal pause_enable_reg : std_logic;
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begin
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--When operating in three stage pipeline mode, the following signals
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--are delayed by one clock cycle: a_bus, b_bus, alu/shift/mult_func,
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--c_source, and rd_index.
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pipeline3: process(clk, reset, a_bus, b_bus, alu_func, shift_func, mult_func,
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rd_index, rd_index_reg, pause_any, pause_enable_reg,
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rs_index, rt_index,
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pc_source, mem_source, a_source, b_source, c_source, c_source_reg,
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reg_dest, reg_dest_reg, reg_dest_delay, c_bus)
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variable pause_mult_clock : std_logic;
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variable freeze_pipeline : std_logic;
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begin
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if (pc_source /= FROM_INC4 and pc_source /= FROM_OPCODE25_0) or
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mem_source /= MEM_FETCH or
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(mult_func = MULT_READ_LO or mult_func = MULT_READ_HI) then
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pause_mult_clock := '1';
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else
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pause_mult_clock := '0';
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end if;
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freeze_pipeline := not (pause_mult_clock and pause_enable_reg) and pause_any;
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pause_pipeline <= pause_mult_clock and pause_enable_reg;
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rd_indexD <= rd_index_reg;
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-- The value written back into the register bank, signal reg_dest is tricky.
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-- If reg_dest comes from the ALU via the signal c_bus, it is already delayed
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-- into stage #3, because a_busD and b_busD are delayed. If reg_dest comes from
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-- c_memory, pc_current, or pc_plus4 then reg_dest hasn't yet been delayed into
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-- stage #3.
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-- Instead of delaying c_memory, pc_current, and pc_plus4, these signals
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-- are multiplexed into reg_dest which is then delayed. The decision to use
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-- the already delayed c_bus or the delayed value of reg_dest (reg_dest_reg) is
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-- based on a delayed value of c_source (c_source_reg).
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if c_source_reg = C_FROM_ALU then
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reg_dest_delay <= c_bus; --delayed by 1 clock cycle via a_busD & b_busD
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else
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reg_dest_delay <= reg_dest_reg; --need to delay 1 clock cycle from reg_dest
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end if;
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reg_destD <= reg_dest_delay;
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if reset = '1' then
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a_busD <= ZERO;
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b_busD <= ZERO;
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alu_funcD <= ALU_NOTHING;
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shift_funcD <= SHIFT_NOTHING;
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mult_funcD <= MULT_NOTHING;
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reg_dest_reg <= ZERO;
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c_source_reg <= "000";
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rd_index_reg <= "000000";
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pause_enable_reg <= '0';
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elsif rising_edge(clk) then
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if freeze_pipeline = '0' then
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if (rs_index = "000000" or rs_index /= rd_index_reg) or
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(a_source /= A_FROM_REG_SOURCE or pause_enable_reg = '0') then
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a_busD <= a_bus;
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else
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a_busD <= reg_dest_delay; --rs from previous operation (bypass stage)
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end if;
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if (rt_index = "000000" or rt_index /= rd_index_reg) or
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(b_source /= B_FROM_REG_TARGET or pause_enable_reg = '0') then
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b_busD <= b_bus;
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else
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b_busD <= reg_dest_delay; --rt from previous operation
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end if;
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alu_funcD <= alu_func;
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shift_funcD <= shift_func;
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mult_funcD <= mult_func;
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reg_dest_reg <= reg_dest;
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c_source_reg <= c_source;
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rd_index_reg <= rd_index;
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end if;
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if pause_enable_reg = '0' and pause_any = '0' then
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pause_enable_reg <= '1'; --enable pause_pipeline
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elsif pause_mult_clock = '1' then
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pause_enable_reg <= '0'; --disable pause_pipeline
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end if;
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end if;
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end process; --pipeline3
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end; --logic
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