I want to obtain prime number in verilog. For this I used counter, which counts on the rising edge of every clock. Using the value of counter, I must get prime number. My question is how I can check the count value is prime or not. I can use for loop to check prime, but know that in verilog for loop is not a good way because it takes many clock cycles to finish for loop. I have to check the prime number without for loop. Can anyone help me to check the count is prime without loop.

module prime_clk ( input clk, input reset) 
  parameter N =1000;          // size of array

  reg [31:0] prime_number[0:N-1]; // memory array for product       

  integer k=0 ;               // counter variable   
  integer result_done =1;     // controller
  integer count =0;     

  always @(posedge clk )     
    count = count+1 ;
    if (count%2 !=0 || count%3 !=0 )
      prime_number[k] <=  count;
      k               <=  k + 1;       
  • With for-loop you can check if a number is prime in one cycle, but max frequency of that module would be very low. Without for-loop you'll definitely need more than 1 (i.e. a lot) cycle.
    – Qiu
    Dec 13, 2014 at 16:56
  • ok . i can use for loop. please, can you tell me the efficient way of using for loop
    – Misal313
    Dec 13, 2014 at 16:59
  • when i use for loop, the system become very slow.. so for loop method is not good
    – Misal313
    Dec 13, 2014 at 18:41

1 Answer 1


You have not described how you are planning on checking prime for each number, I am going to assume you are planning on taking the modulo of each number below it to test if it is devisable.

When checking for prime you only have to check it is not devisable by the primes below it, as all other numbers are made up of multiples of the primes.

There are a 168 primes below 1000. There fore to check for the primes in 1 to 1000 you either need 168 parallel modulo operations or you can overlock the design to reuse the same hardware. Having to deliver a prime in the same amount of time you need to design for the worst case or allow the time to change, more and more clock cycles for the bigger numbers.

I think it is worth mentioning at this stage that actually putting the primes in to a ROM or Look up table will be much smaller than the hardware to generate them.

An example using multiple clock cycles to check primes:

integer test  ;
integer check ; //Counts 1 to k
localparam S_INC   = 2'b01;
localparam S_CHECK = 2'b10;

reg [1:0] state;

initial begin
  prime_number[0] = 'd2;
  state           = S_CHECK; //Check set count first
  count           = 'd3;
  k               = 'd1; //0 preloaded
  check           = 'd0;
  test            = 'd1;

always @(posedge clk ) begin
  if (state == S_INC) begin
    $display("State: Incrementing Number to check %d", count+1);
    count <= count+1 ;
    state <= S_CHECK ;
    check <= 'd0;
    test  <= 'd1; // Safe default
  else if (state == S_CHECK) begin
    if (test == 0) begin
      // Failed Prime test (exact divisor found)
      $display("Reject %3d", count);
      state           <= S_INC ;
    else if (check == k) begin
      //Passed Prime check
      //Use k+1 so that 2 is number 1, 3 is 2nd etc
      $display("Found the %1d th Prime, it is %1d", k+1, count);
      prime_number[k] <=  count;
      k               <=  k + 1;
      state           <= S_INC ;
    else begin
      test  <= count % prime_number[check] ;
      check <= check + 1;          

Working Example on EDA playground;

  • Thank you sir Morgan for helping me. My plan was that every 50 prime number it should return a 50th prime number and so on.
    – Misal313
    Dec 14, 2014 at 3:10
  • @fame313 no problem, questions which show effort should do well. Although after the first 50 primes you are going to have a more and more work todo. Remember there are only 168 primes below 1000. and 1229 under 10,000.
    – Morgan
    Dec 16, 2014 at 8:17
  • Yes, i calculated the 50th primes and it get more clock cycle due to more number of calculation. Now i have one more problem which is how i can calculate the simulation time of calculation of one prime number. It means that no of clock cycle to calculate one prime number.As we also know that a large prime number get more clock cycle than a small prime number for calculation. can you help me?? i am very thank full to you
    – Misal313
    Dec 17, 2014 at 8:46
  • @sir Morgan ,,,, . This method in not sufficient way to compute the prime number. when i have to start the prime number from 17 , it does not compute correctly. it also give the number in output which are not prime number
    – Misal313
    Dec 27, 2014 at 17:28
  • @fame313 This method of calculating primes require knowledge of all primes below it. This is the optimisation to avoid dividing by all numbers less than it.
    – Morgan
    Dec 27, 2014 at 19:21

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