20050430, 23:28  #1 
Jan 2005
2×31 Posts 
64bit GMPECM on Apple G5/OS X v10.4
Apple's justreleased OS X v10.4 supports true 64bit computing on its G5 (PowerPC970) models. The attached G5_64bit_GMPECM.zip archive contains all of the instructions, patches, and extra files you'll need to build and install 64bit versions of GMP4.1.4 and ECM6.0.1 on a G5.
The improvement over 32bit code is fairly dramatic; here are timing comparisons for some Cunningham cofactors (6^329  1, 2^833 + 1, 5^421 + 1, 2^ 2018 + 1, and 10^386 + 1) of various lengths: 32bit version of GMPECM on Apple G5, 2.5 GHz, OS X 10.3.8: GMPECM 6.0 [powered by GMP 4.1.4] [ECM] Input number is 65030090232295456717...09355134587611097719 (150 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=513591587 Step 1 took 70190ms Step 2 took 29210ms Input number is 11846804646723081354...15329989531005685163 (200 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=3742068876 Step 1 took 88700ms Step 2 took 41500ms Input number is 74153397868455467120...13316867740036509963 (250 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=1201248243 Step 1 took 155260ms Step 2 took 50580ms Input number is 45306169533352784567...10063050866528133509 (300 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=3821960013 Step 1 took 228200ms Step 2 took 64230ms Input number is 68760637088087042795...66376993609358157449 (348 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=3555916332 Step 1 took 293210ms Step 2 took 81590ms 64bit version of GMPECM on Apple G5, 2.5 GHz, OS X 10.4: GMPECM 6.0 [powered by GMP 4.1.4] [ECM] Input number is 65030090232295456717...09355134587611097719 (150 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=861374654 Step 1 took 30948ms Step 2 took 16502ms Input number is 11846804646723081354...15329989531005685163 (200 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=3093777225 Step 1 took 40605ms Step 2 took 22657ms Input number is 74153397868455467120...13316867740036509963 (250 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=2753020307 Step 1 took 63725ms Step 2 took 27288ms Input number is 45306169533352784567...10063050866528133509 (300 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=4290308355 Step 1 took 90626ms Step 2 took 35623ms Input number is 68760637088087042795...66376993609358157449 (348 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=366885523 Step 1 took 120730ms Step 2 took 43114ms Post here or contact me if you have any problems. Phil McLaughlin 
20050501, 20:11  #2 
"Mark"
Apr 2003
Between here and the
18A1_{16} Posts 
Thanks. I'll try it out. I haven't used 64bit GMP on PPC before. Did you run some tests to verify that it find expected factors?
BTW, I think that mpn_addmul_1() can be dramatically improved to use a model similar to the 32bit code. I haven't seen the GMP 4.2 code, so it might already have such an improvement. 
20050501, 21:41  #3  
Jan 2005
2·31 Posts 
Quote:
It may be worthwhile to improve the code if you can, since the release date of 4.2 and status of any improvements for 64bit PPC are unknown. Phil 

20050501, 23:16  #4  
"Mark"
Apr 2003
Between here and the
5×13×97 Posts 
Quote:
One note is that you have the line "sudo gcc_select 4" in one of your readmes. I think that should be "sudo gcc_select v 4". I hope that GMP 4.2 is out soon. I would like to try, but I haven't much time as I have my finger in too many pots at this time. I think all that you need to do is take powerpc32/mul_1.asm, copy it to powerpc64 and then change the code to use the appropriate 64bit instructions. 

20050502, 00:08  #5  
Jan 2005
76_{8} Posts 
Quote:
You are correct. The "gcc_select 4" command came from an older Apple PDF document (64bitporting.pdf) from last year. Now it says "gcc_select 4.0". But I believe this is the default in OS X 10.4/Xcode 2.0 anyway. I'll try modifying the 32bit mul_1.asm to 64bit. If there is a significant speed boost, I'll post it here. Phil 

20050604, 06:12  #6 
Jan 2005
2×31 Posts 
Improved assembly code
As Mark suggested, I've upgraded the GMP4.1.4 addmul_1.c, mul_1.c, and submul_1.c files with improved assembly blocks. The full package of files and patches is attached.
Here are the new GMPECM timings for the test numbers given in the original post above: GMPECM 6.0.1 [powered by GMP 4.1.4] [ECM] Input number is 65030090232295...7611097719 (150 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=2091664324 Step 1 took 28605ms Step 2 took 15620ms Input number is 11846804646723...1005685163 (200 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=2433697906 Step 1 took 36737ms Step 2 took 20987ms Input number is 741533978684...40036509963 (250 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=232452003 Step 1 took 53508ms Step 2 took 25151ms Input number is 453061695333...528133509 (300 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=2709846699 Step 1 took 78669ms Step 2 took 32485ms Input number is 68760637088...09358157449 (348 digits) Using B1=3000000, B2=4016636513, polynomial Dickson(6), sigma=2374092456 Step 1 took 104431ms Step 2 took 39437ms 
Thread Tools  
Similar Threads  
Thread  Thread Starter  Forum  Replies  Last Post 
Apple Moving to ARM CPUs?  ewmayer  Mlucas  13  20180405 21:16 
Could Apple become the new Windows?  jasong  jasong  2  20121207 05:57 
Bugs in apple calculator  diep  Lounge  8  20110510 21:59 
New to Apple; New to GIMPS  Unregistered  Information & Answers  4  20090316 13:10 
Dualcore mac G5 machines from Apple  Peter Nelson  Hardware  20  20060307 11:26 