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I'm curious if anyone has advice on how to use SIMD to find lists of prime numbers. Particularly I'm interested how to do this with SSE/AVX.

The two algorithms I have been looking at are trial division and the Sieve of Eratosthenes. I have managed to find a way to use SSE with trial division. I found a faster way to to division which works well for a vector/scalar "Division by Invariant Integers Using Multiplication"http://citeseerx.ist.psu.edu/viewdoc/summary?doi= Each time I find a prime I form the results to do a fast division and save them. Then the next time I do the division it goes much quicker. Doing this I get a speedup of about 3x (out of 4x). With AVX2 maybe it would be faster as well.

However, trial division is much slower than the Sieve of Eratosthenes and I can't think of any way to use SIMD with the Sieve of Eratosthenes except with some kind of scatter instruction with not even AVX2 has yet. Would a scatter instruction helpful? Is anyone aware of this being used on GPUs for the Sieve of Eratosthenes?

Here is the fastest version of the Sieve of Eratosthenes using OpenMP I know of. Any ideas how to speed this up with SSE/AVX? http://create.stephan-brumme.com/eratosthenes/

Here is the function I use to determine if a number is prime. I operate on eight primes at once (will actually it's 4 at a time done twice without AVX2). I'm using Agner Fog's vectorclass. The idea is that for large values there are unlikely to be eight primes in sequence. If I find a prime among the eight I have to loop over the results in sequence.

inline int is_prime_vec8(Vec8ui num, Divisor_ui_s *buffer, int size) {
    Divisor_ui div = Divisor_ui(buffer[0].m, buffer[0].s1, buffer[0].s2);
    int val = buffer[0].d; 
    Vec8ui cmp = -1;

    for(int i=0; (val*val)<=num[7]; i++) {
        Divisor_ui div = Divisor_ui(buffer[i].m, buffer[i].s1, buffer[i].s2);
        val = buffer[i].d;
        Vec8ui q = num/div; 
        cmp &= (q*val != num);
        int cnt = _mm_movemask_epi8(cmp.get_low()) || _mm_movemask_epi8(cmp.get_high());
        if(cnt == 0) {
            return size;  //0 primes were found
    num &= cmp;  //at least 1 out of 8 values were found to be prime
    int tmp[8];

    for(int i=0; i<8; i++) {
        if(tmp[i]) {
            set_ui(tmp[i], &buffer[size++]);
    return size;

Here is where I setup to the eight prime candidates. I skip multiples of 2, 3, and 5 doing this.

int find_primes_vec8(Divisor_ui_s *buffer, const int nmax) {
    int start[] = {2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47};
    int size = sizeof(start)/4;

    for(int i=0; i<size; i++) {
        set_ui(start[i], &buffer[i]);

    Vec8ui iv(49, 53, 59, 61, 67, 71, 73, 77);
    for(int i=49; i<nmax; i+=30) {
        if((i-1)%100000==0) printf("i %d, %f %%\n", i, 100.f*i/(nmax/16));
        size = is_prime_vec8(iv, &buffer[3], size);
        iv += 30;

    return size;
share|improve this question
BTW, Granlund improved the division method (particularly for modern processors) in this 2011 paper. If you precomputed the reciprocals (after normalization) for trial division, you could do trial 'division' very quickly. Just the first 54 primes < 256 will eliminate ~ 80% of all odd candidates, and provide the correct result for any candidate < 65536. –  Brett Hale Jun 21 '13 at 18:25
I experimented with this a year ago. I found that a blocked approached to the Sieve of Eratosthenes was the fastest, but that it's also incompatible with SIMD. –  Mysticial Jun 21 '13 at 18:42
@Mysticial, wouldn't some kind of scatter instruction help with the Sieve of Eatosthenes? Xeon Phi and many GPUs have a scatter option. The link I mentioned uses a blocked approach for the Sieve - it gives a big improvement. –  user2088790 Jun 21 '13 at 18:52
@BrettHale, thanks for the link! I check out your profile. Your a prime guy, maybe you could write up an answer. I already skip multiples of 2,3,5 (from wheel factorization). The removes most over 70% of the composites. Do you mean to make a sublist of prime candidates using the first 54 primes using SIMD and the fast 'division and then doing scalar division on the much smaller sublist? –  user2088790 Jun 21 '13 at 18:55
@raxman - actually I was thinking about testing 4 candidates at a time. The problem is that they will bail out at different times. I thought about wheel factorization, but Mystical is right about all things SIMD. I don't see how to keep the pipeline doing useful work across all 4 or 8 elements. It also depends on what you're trying to achieve: generate all primes < N? How much memory will you use? How much pre-computation is acceptable? etc. –  Brett Hale Jun 21 '13 at 19:10

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