I am revisiting VHDL after many years. I am trying to setup a basic state machine with a counter trigger at some overflow period.
For some reason I am getting state transitions on the falling edge of the m_tick clock. There should only be a transition on the rising edge based on the m_tick <= '1' in the state process? I must be overlooking something.
I am testing in isim. I am sure I'm probably doing some not very smart.
entity nes_ctl is generic( N: integer := 3; --17 bit overflow 131k ); port( clk : in std_logic; n_reset : in std_logic ); end nes_ctl; architecture Behavioral of nes_ctl is signal count_reg, count_next: unsigned(N-1 downto 0); --counter to produce tick signal m_tick: std_logic; --state variable type state_type is (s0,s1,s2,s3,s4,s5); signal state_reg, state_next: state_type; signal reset: std_logic; --inverted reset signal begin reset <= not(n_reset); --invert the reset signal --syncronos logic process(clk) begin if(reset= '1') then count_reg <= (others=>'0'); state_reg <= s0; elsif (clk'event and clk = '1') then count_reg <= count_next; state_reg <= state_next; end if; end process; count_next <= count_reg +1; --increment counter, will overflow m_tick <= '1' when count_reg = 0 else '0'; -- tick on every overflow --STATE MACHINE process(m_tick) begin if(m_tick <= '1') then --only when m_tick goes high case state_reg is when s0 => state_next <= s1; when s1 => state_next <= s2; when s2 => state_next <= s3; when s3 => state_next<= s4; when s4 => state_next<= s5; when s5 => state_next <= s0; end case; else state_next <= state_reg; --keep same state. no latches. end if; end process; end Behavioral;