library ieee; use ieee.std_logic_1164.all; library ieee; use ieee.numeric_std.all; entity sub_160 is port ( le : out std_logic; result : out std_logic_vector(31 downto 0); in_a : in std_logic_vector(31 downto 0); in_b : in std_logic_vector(31 downto 0); sign : in std_logic ); end sub_160; architecture augh of sub_160 is signal carry_inA : std_logic_vector(33 downto 0); signal carry_inB : std_logic_vector(33 downto 0); signal carry_res : std_logic_vector(33 downto 0); -- Signals to generate the comparison outputs signal msb_abr : std_logic_vector(2 downto 0); signal tmp_sign : std_logic; signal tmp_eq : std_logic; signal tmp_le : std_logic; signal tmp_ge : std_logic; begin -- To handle the CI input, the operation is '0' - CI -- If CI is not present, the operation is '0' - '0' carry_inA <= '0' & in_a & '0'; carry_inB <= '0' & in_b & '0'; -- Compute the result carry_res <= std_logic_vector(unsigned(carry_inA) - unsigned(carry_inB)); -- Set the outputs result <= carry_res(32 downto 1); -- Other comparison outputs -- Temporary signals msb_abr <= carry_inA(32) & carry_inB(32) & carry_res(32); tmp_sign <= sign; tmp_eq <= '1' when in_a = in_b else '0'; tmp_le <= tmp_eq when msb_abr = "000" or msb_abr = "110" else '1' when msb_abr = "001" or msb_abr = "111" else '1' when tmp_sign = '0' and (msb_abr = "010" or msb_abr = "011") else '1' when tmp_sign = '1' and (msb_abr = "100" or msb_abr = "101") else '0'; tmp_ge <= '1' when msb_abr = "000" or msb_abr = "110" else '1' when tmp_sign = '0' and (msb_abr = "100" or msb_abr = "101") else '1' when tmp_sign = '1' and (msb_abr = "010" or msb_abr = "011") else '0'; le <= tmp_le; end architecture;