# VHDL Clock Divider: Counter - Duty Cycle

I am new to VHDL. I was given this code on how to generate a clock signal of 1Hz (50 % duty cycle) from input clock signal of 24 MHz. I have some questions for more clarification.

1. How is the counter limit chosen? in the below case, 12000000. What would this limit be if I want generate an 8Hz clock signal.
2. How should the code be adjusted if I wanted to change the duty cycle to 80% ?

``````library IEEE;
use IEEE.STD_LOGIC_1164.ALL;
use IEEE.STD_LOGIC_ARITH.ALL;
use IEEE.STD_LOGIC_UNSIGNED.ALL;
entity clock is
port ( CLKin: in std_logic;
reset: in std_logic;
CLKout: out std_logic);
end clock;
architecture arch of clock is

signal counter: integer:=0;
signal temp : std_logic := '1';
begin
process(CLKin,counter,reset)
begin
if(reset='0') then counter<=0; temp<='1';
elsif(CLKin'event and CLKin='1') then counter <=counter+1;
if (counter = 12000000) then temp <= NOT temp; counter<=0;
end if;
end if;
CLKout <= temp;
end process;
end arch;
``````
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You want to divide a clock of 24MHz, being 24000000 Hz, to 1 Hz. So you create a counter that will count up every rising edge of the CLKin (24 MHz). After 24000000/2=12000000 counts, you are in the middle. That's where you change the level value of the output signal (`temp <= not temp`). Because you spec say it has to be a duty cycle of 50%. When doing so, you also starts counting again from the start.

For 8MHz, you have have a counter to (24000000/8)/2 = 1500000.

And just a small remark: it's better to use the `ieee.numeric_std` library i.s.o the `ieee_logic_arith` and the `ieee.std_logic_unsigned`

Note: the code is first assigning to a signal`temp`. And then the signal `temp` to output `clkout`. The reason behind this is that in VHDL it is not allowed to read from an output port (`clkout`). And you should read from it when doing the `output <= not output;`. From a signal, reading is allowed.

And one more note: in the sensitivity list of the process, there is no need to have the `counter` signal there.

``````process(CLKin, reset) -- no counter needed
``````

And, another thing... Counting 12000000 cycles is: 0 -> (12000000-1) = 11999999

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