I have a process that implements a state machine. In one of the cycles (states) two signals need to be calculated, where one of them is a calculated directly and the other is a calculation made using the already calculated signal inside a component. The result of the first calculation needs to be put into a MUX that directs into the component, and it all need to be done in the same cycle (which is long enough for both operations to be done serially).
A method that I tried was using a variable to calculate the first signal and then using that signal to calculate the second signal, but it doesn't happen in the same cycle, but in 2 cycles, as the assignment to the first signal happens only at the end of the cycle and the component doesn't have enough time to calculate:
when st_cycle_5 => vec_var(31 downto 0) := dot_c_sig(31 downto 0) - dot_a_sig(31 downto 0); vec_var(63 downto 32) := dot_c_sig(63 downto 32) - dot_a_sig(63 downto 32); vec_var(95 downto 64) := dot_c_sig(95 downto 64) - dot_a_sig(95 downto 64); c_minus_a_sig <= vec_var; ... end process cau_proc; mult1_in1_sig <= b_minus_a_sig(63 downto 32) when cau_state = st_cycle_5
How can I calculate the signal
b_minus_a_sig and assign it through a MUX to get the result for a component at the same cycle?
vec_var is a variable and all the other signals are
EDIT: There is the solution of putting
mult1_in1_sig <= dot_c_sig(63 downto 32) - dot_a_sig(63 downto 32) when cau_state = st_cycle_5
But I think that in this case the place & route will not know that that operation was done already and that the result is available and do it twice instead of using the known result.