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--------------------------------------------------------------------- -- TITLE: Bus Multiplexer / Signal Router -- AUTHOR: Steve Rhoads (rhoadss@yahoo.com) -- DATE CREATED: 2/8/01 -- FILENAME: bus_mux.vhd -- PROJECT: Plasma CPU core -- COPYRIGHT: Software placed into the public domain by the author. -- Software 'as is' without warranty. Author liable for nothing. -- DESCRIPTION: -- This entity is the main signal router. -- It multiplexes signals from multiple sources to the correct location. -- The outputs are as follows: -- a_bus : goes to the ALU -- b_bus : goes to the ALU -- reg_dest_out : goes to the register bank -- take_branch : goes to pc_next --------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use work.mlite_pack.all; entity bus_mux is port(imm_in : in std_logic_vector(15 downto 0); reg_source : in std_logic_vector(31 downto 0); a_mux : in a_source_type; a_out : out std_logic_vector(31 downto 0); reg_target : in std_logic_vector(31 downto 0); b_mux : in b_source_type; b_out : out std_logic_vector(31 downto 0); c_bus : in std_logic_vector(31 downto 0); c_memory : in std_logic_vector(31 downto 0); c_pc : in std_logic_vector(31 downto 2); c_pc_plus4 : in std_logic_vector(31 downto 2); c_mux : in c_source_type; reg_dest_out : out std_logic_vector(31 downto 0); branch_func : in branch_function_type; take_branch : out std_logic); end; --entity bus_mux architecture logic of bus_mux is begin --Determine value of a_bus amux: process(reg_source, imm_in, a_mux, c_pc) begin case a_mux is when A_FROM_REG_SOURCE => a_out <= reg_source; when A_FROM_IMM10_6 => a_out <= ZERO(31 downto 5) & imm_in(10 downto 6); when A_FROM_PC => a_out <= c_pc & "00"; when others => a_out <= c_pc & "00"; end case; end process; --Determine value of b_bus bmux: process(reg_target, imm_in, b_mux) begin case b_mux is when B_FROM_REG_TARGET => b_out <= reg_target; when B_FROM_IMM => b_out <= ZERO(31 downto 16) & imm_in; when B_FROM_SIGNED_IMM => if imm_in(15) = '0' then b_out(31 downto 16) <= ZERO(31 downto 16); else b_out(31 downto 16) <= "1111111111111111"; end if; b_out(15 downto 0) <= imm_in; when B_FROM_IMMX4 => if imm_in(15) = '0' then b_out(31 downto 18) <= "00000000000000"; else b_out(31 downto 18) <= "11111111111111"; end if; b_out(17 downto 0) <= imm_in & "00"; when others => b_out <= reg_target; end case; end process; --Determine value of c_bus cmux: process(c_bus, c_memory, c_pc, c_pc_plus4, imm_in, c_mux) begin case c_mux is when C_FROM_ALU => -- | C_FROM_SHIFT | C_FROM_MULT => reg_dest_out <= c_bus; when C_FROM_MEMORY => reg_dest_out <= c_memory; when C_FROM_PC => reg_dest_out <= c_pc(31 downto 2) & "00"; when C_FROM_PC_PLUS4 => reg_dest_out <= c_pc_plus4 & "00"; when C_FROM_IMM_SHIFT16 => reg_dest_out <= imm_in & ZERO(15 downto 0); when others => reg_dest_out <= c_bus; end case; end process; --Determine value of take_branch pc_mux: process(branch_func, reg_source, reg_target) variable is_equal : std_logic; begin if reg_source = reg_target then is_equal := '1'; else is_equal := '0'; end if; case branch_func is when BRANCH_LTZ => take_branch <= reg_source(31); when BRANCH_LEZ => take_branch <= reg_source(31) or is_equal; when BRANCH_EQ => take_branch <= is_equal; when BRANCH_NE => take_branch <= not is_equal; when BRANCH_GEZ => take_branch <= not reg_source(31); when BRANCH_GTZ => take_branch <= not reg_source(31) and not is_equal; when BRANCH_YES => take_branch <= '1'; when others => take_branch <= '0'; end case; end process; end; --architecture logic
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