20210625, 18:41  #12  
Jan 2018
2×29 Posts 
Quote:
Kind regards Michiel Last fiddled with by MJansen on 20210625 at 18:42 Reason: Changed typo's 

20210625, 19:39  #13 
Einyen
Dec 2003
Denmark
2^{2}·13·61 Posts 
Post #1948. Seems it was released in version 0.20 Dec 2012, about 3 years after the thread started, and SieveOnGPU was set to be automatically on from the start, so no one probably used CPU sieving since then.

20210626, 21:59  #14 
Jan 2018
111010_{2} Posts 
Hi,
In the mfaktc thread, the sieving on GPU seemed to get a boost after post #1610. No specifics though as far as I could find. I remember Dana once posted that a prp test is very fast and the mfaktc thread seems to indicate that presieving should be kept to a minimum (1000 primes tops). I have no data on real life performance, but my intuitive start point would be: a. presieve and PRP on the GPU: b. I would try a wheel approach first as a base reference, and prp the remaining candidates, i.e. 1 (or more?) fermat test(s) c. additional tests would be to play around with the number of primes in the presieve to determine the trade off between presieving and prping Question is how to avoid possible pseudoprimes? Is it enough to perform a second Fermat test in a different base, or do you need more tests? Kind regards Michiel 
20210627, 15:37  #15  
Einyen
Dec 2003
Denmark
C64_{16} Posts 
Quote:
But above 2^{64} Fermat and SPRP pseudoprimes are very rare, and the risk that a pseudoprime also should be "blocking" a record prime gap must be very very low, but I'm not sure if it is low enough to be negligible. 

20210629, 03:44  #16 
Mar 2021
53 Posts 
For sieving I start with a small wheel. I'm currently using 2310 but I haven't had a chance to test 30030 yet. Using 2310 gives me 480 possible candidates. I then sieve for each of the possible candidates. For example the first candidate is 1 so I sieve for 1, 2311, 4621, 6931, etc. This starts with 2 more wheels with 5 primes each. The first is copied into each possible candidate to initialize the sieve. The second wheel is combined with the first using a bitwiseor. Then I do 5 rounds of sieving with 2048 primes each. These are done using shared memory. I sieve 2048 primes for 192x1024 elements at a time. I then copy these into my global sieve. I find this approach fastest up to around 100k primes. After that approaches sieving directly into global memory are faster.
In a single processing loop I do 80 of the shared sieve blocks. That means a single candidate gets sieved out to 192*1024*80=15.7E6. With 2310 elements in the first wheel that means I get through 36E9 per loop. Using a minimum gap of 1300 it takes about .24 seconds per loop which gives me 150E9 per sec. I haven't tested sieving only in a while but it is probably 23 times faster. 
20210629, 03:49  #17 
Mar 2021
53 Posts 
I looked briefly at a Lucas test but haven't thought about implementing it yet. On a CPU how much slower is it than a Fermat test?

20210629, 11:15  #18 
"Rashid Naimi"
Oct 2015
Remote to Here/There
2·11·97 Posts 
Well the experts seem to have chosen to stay silent so far so I will give you a non expert reply. You will have to know all the prime factors of p1. So there is Factoringcomputationcost. And then you will have to do modular calculations computationally as expensive as a single Fermat test per each prime factor:
Mod(base,p)^((p1)/eachPrimeFactor) != 1 Then you have to try enough "random" bases to get a !=1 for all the found prime factors. Normally it does not take more than a few random trials. BTW this is an excellent thread. Thank you for sharing your expertise without the commonattitudes that seem to dominate the members here. ETA one issue is that you might hit a Fermatpseudiprime and have to have implementations to break the loop. While they are rare for given base for larger numbers there exist infinitude of them per given base growing exponentially in size. Last fiddled with by a1call on 20210629 at 11:50 
20210715, 12:18  #19 
Einyen
Dec 2003
Denmark
2^{2}×13×61 Posts 
I switched my program from BPSW test (MillerRabin + Lucas) to 2 x MillerRabin instead, and it is now twice as fast. I'm pretty sure BPSW test is overkill here. I'm using base 2 and then base 9375, which is one of the bases with few survivors when testing all the 2SPRP in the Feitsma list up to 2^{64}.
Craig: You are using only 1 Fermat test ? Did you consider switching to the MillerRabin (SPRP) test ? The complexity according to Wikipedia is O(log^{3}n) for MR and O(log^{2}n*loglog n) for Fermat, so it should not be that much slower, but maybe it is hard to implement on GPU? The advantage is that there are no Carmichael numbers for SPRP test (where all bases shows PRP incorrectly), and there are fewer composite SPRP numbers than Fermat PRP. I'm not sure when doing 1 Fermat or 1 MR test, how likely it is that a false PRP will block a big prime gap, it seems to be very unlikely, but the question is if it is unlikely enough. 2SPRP numbers are pretty rare, when I tried searching above 2^{64} a few years ago, and if you look at the Feitsma list, there are 808 2SPRP in the last 10^{15} below 2^{64} or 1 every 1.24*10^{12} on average. I'm not sure about the numbers for Fermat PRP. Are your program testing all PRP surviving your sieve? The way I do it is that I set a minimum gap I want to find, in my case 1320 because it is the highest I have found above 2^{64}, then after I have sieved an interval I jump 1320 ahead from the last PRP I found and then test backwards until I find a PRP, then I jump ahead 1320 again and repeat. If I happen to get from 1320 down to 0 without finding a PRP then I search upwards again from 1320 until I find a new "record" gap. That way I'm sure no gap above or equal to my minimum is missed, but I will not find any gaps below the minimum. On average my program only reach from 1320 down to 11001200 before it finds a PRP. I'm not sure if that would work on a GPU. If you use all the threads to PRP test the same interval it probably will not, but if each thread tests its own small interval, it could be useful, but maybe you are already using this strategy? If you do I guess your minimum gap is set to 1000. Last fiddled with by ATH on 20210715 at 12:20 
20210716, 05:05  #20 
Mar 2021
53 Posts 
It probably wouldn't be too hard to convert my Fermat code to a MR test. The time complexity should be the same. I think the O(log^{2}n*loglog n) you wrote for Fermat uses an FFT multiply which is only faster for very large numbers.
http://www.janfeitsma.nl/math/psp2/statistics From the Fietsma list there is about 1 2PRP every 3E11 from 1E19 to 2^{64}. This is about 4x more than the 2SPRP. I think there will be about 500 gaps >= 1400 from 2^{64} to 2^{65} and each will require about 70 prime checks on average. The chance that a gap above 1400 from 2^{64} to 2^{65} is missed due to a PRP is about 1 in 3E11/500/70 = 1 in 8E6. I'm currently saving gaps >= 1300 using an approach similar to yours. All gaps found in the GPU above 1300 are sent back to the CPU for a more thorough check using the gmp library. 
20210903, 09:49  #21 
Jan 2018
58_{10} Posts 
I bought a laptop with a GPU (Geforce 1650 mobile, 1024 cuda cores, 16 SM's of 64 cores each) for testing. I will be using windows however (not Linux) and will install the necessary programs next week. A fast search showed that I will have to use C++ (new to me ...) to code.
I looked at the pseudoprime problem and the solution ATH uses, seems most interesting (and fast) but also no clue as to how to implement that yet on a GPU. I have been looking at Dana's Perl code, but not sure this is the correct 64 bit code: https://metacpan.org/dist/MathPrime...ime/Util/PP.pm For prime gaps, the fastest I found was using his next_prime / prev_prime code. sub next_prime { my($n) = @_; _validate_positive_integer($n); return $_prime_next_small[$n] if $n <= $#_prime_next_small; # This turns out not to be faster. # return $_primes_small[1+_tiny_prime_count($n)] if $n < $_primes_small[1]; return Math::BigInt>new(MPU_32BIT ? "4294967311" : "18446744073709551629") if ref($n) ne 'Math::BigInt' && $n >= MPU_MAXPRIME; # n is now either 1) not bigint and < maxprime, or (2) bigint and >= uvmax if ($n > 4294967295 && Math::Prime::Util::prime_get_config()>{'gmp'}) { return Math::Prime::Util::_reftyped($_[0], Math::Prime::Util::GMP::next_prime($n)); } if (ref($n) eq 'Math::BigInt') { do { $n += $_wheeladvance30[$n%30]; } while !Math::BigInt::bgcd($n, B_PRIM767)>is_one  !_miller_rabin_2($n)  !is_extra_strong_lucas_pseudoprime($n); } else { do { $n += $_wheeladvance30[$n%30]; } while !($n%7)  !_is_prime7($n); } $n; } And it seems like he uses a small wheel (30) and a Miller_Rabin base 2 test followed by a full Lucas, so in effect a full BPSW test? Is this a correct assumption? 
20210905, 06:20  #22  
Romulan Interpreter
Jun 2011
Thailand
9772_{10} Posts 
Please use code tabs when you post code, it takes less space on the screen (especially for long routines, and not all of us have highresolution, superwide monitors), and it makes the code easily to read (guess what, not all of us are perl experts either ). Moreover, Mike may add some syntaxhighlighting for perl in the future, which will make our life even easier
(edit: albeit code in quotes looks crap, as I just found out from below... grrr ) Quote:
Last fiddled with by LaurV on 20210905 at 06:23 

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