I'm trying to figure out how to do floating point division for a vhdl assignment. I'm supposed to use the newton-raphson algorithm but have some questions. First here's a snippet of my vhdl code:
--Work branch of the state machine when s5 => -- include hidden bit on the mantissa of each value A_PRIME <= '1' & A_VAL(22 downto 0); B_PRIME <= '1' & B_VAL(22 downto 0); PSR <= s6; when s6 => -- take the complement of B_PRIME then check the count B_COMP <= not (B_PRIME) + 1; if COUNT = 5 then PSR <= s9; else PSR <= s7; end if; when s7 => -- multiply A mantissa by B's complement A_PRIME <= A_PRIME * B_COMP; PSR <= s8; when s8 => -- multiply B mantissa by B's complement then increment the count B_PRIME <= B_PRIME * B_COMP; COUNT <= COUNT + 1; PSR <= s6; when s9 => -- account for sign bit, mantissa, and exponents A_VAL(31) <= A_VAL(31) XOR B_VAL(31); -- sign bit stuff A_VAL(22 downto 0) <= A_PRIME(22 downto 0); -- mantissa stuff A_VAL(30 downto 23) <= A_VAL(30 downto 23) - B_VAL(30 downto 23); -- subtract exponent A from exponent B PSR <= s4; end case; end process; end Behavioral;
I'm sure this is riddled with errors but what I'd like to know is, can I just take the 2's complement of the B_VAL mantissa and multiply it through a number of iterations then subtract the exponents and XOR the sign bits. Can this be accomplished only using a state machine or do I need a component for the multiply. The instructor included a floating point multiplier but it doesn't seem necessary. I'm a noob so I don't really know how to go about this. Thanks for the help!