name 名前 | KTakahashi |
---|---|
date 日付 | December 6, 2014 17:12:26 UTC 2014 年 12 月 7 日 (日) 2 時 12 分 26 秒 (日本時間) |
composite number 合成数 | 558066856409397845861934259724314972933757464144204475696188403370723812712762989006082928734862436519895083431<111> |
prime factors 素因数 | 2484274209615908069371340374055261<34> 224639797913323014184691970973857227766601204869528311688270891512225711925971<78> |
factorization results 素因数分解の結果 | Number: 11121_115 N=558066856409397845861934259724314972933757464144204475696188403370723812712762989006082928734862436519895083431 ( 111 digits) SNFS difficulty: 115 digits. Divisors found: r1=2484274209615908069371340374055261 (pp34) r2=224639797913323014184691970973857227766601204869528311688270891512225711925971 (pp78) Version: Msieve v. 1.51 (SVN Official Release) Total time: 1.49 hours. Scaled time: 3.09 units (timescale=2.075). Factorization parameters were as follows: n: 558066856409397845861934259724314972933757464144204475696188403370723812712762989006082928734862436519895083431 m: 100000000000000000000000 c5: 1 c0: 89 skew: 2.45 type: snfs Factor base limits: 600000/800000 Large primes per side: 3 Large prime bits: 25/25 Max factor residue bits: 46/46 Sieved rational special-q in [300000, 450001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 65871 x 66096 Total sieving time: 1.46 hours. Total relation processing time: 0.01 hours. Matrix solve time: 0.01 hours. Time per square root: 0.00 hours. Prototype def-par.txt line would be: snfs,115.000,5,0,0,0,0,0,0,0,0,600000,800000,25,25,46,46,2.4,2.4,50000 total time: 1.49 hours. --------- CPU info (if available) ---------- |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | KTakahashi |
---|---|
date 日付 | December 6, 2014 17:13:36 UTC 2014 年 12 月 7 日 (日) 2 時 13 分 36 秒 (日本時間) |
composite number 合成数 | 136322026058743653033017128277659245742863701451827522399272515814978024903484720800060665404329<96> |
prime factors 素因数 | 45466197548998470198230233349419<32> 2998315966753779167284754979079605957690639988483075037593888891<64> |
factorization results 素因数分解の結果 | Number: 11121_119 N=136322026058743653033017128277659245742863701451827522399272515814978024903484720800060665404329 ( 96 digits) SNFS difficulty: 120 digits. Divisors found: r1=45466197548998470198230233349419 (pp32) r2=2998315966753779167284754979079605957690639988483075037593888891 (pp64) Version: Msieve v. 1.51 (SVN Official Release) Total time: 2.44 hours. Scaled time: 4.10 units (timescale=1.682). Factorization parameters were as follows: n: 136322026058743653033017128277659245742863701451827522399272515814978024903484720800060665404329 m: 1000000000000000000000000 c5: 1 c0: 890 skew: 3.89 type: snfs Factor base limits: 600000/800000 Large primes per side: 3 Large prime bits: 25/25 Max factor residue bits: 46/46 Sieved rational special-q in [300000, 450001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 74125 x 74356 Total sieving time: 2.40 hours. Total relation processing time: 0.02 hours. Matrix solve time: 0.02 hours. Time per square root: 0.00 hours. Prototype def-par.txt line would be: snfs,120.000,5,0,0,0,0,0,0,0,0,600000,800000,25,25,46,46,2.4,2.4,50000 total time: 2.44 hours. --------- CPU info (if available) ---------- |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | December 6, 2014 19:29:59 UTC 2014 年 12 月 7 日 (日) 4 時 29 分 59 秒 (日本時間) |
composite number 合成数 | 2770159838222665447796337848693869636278013241364026704340840466494916756696861408903293720047646749217429845702097011<118> |
prime factors 素因数 | 237556523193974460872691308156529859516481589443<48> 11661055655208080579083498020805854935533634697639310083159047662239377<71> |
factorization results 素因数分解の結果 | N=2770159838222665447796337848693869636278013241364026704340840466494916756696861408903293720047646749217429845702097011 ( 118 digits) SNFS difficulty: 122 digits. Divisors found: r1=237556523193974460872691308156529859516481589443 (pp48) r2=11661055655208080579083498020805854935533634697639310083159047662239377 (pp71) Version: Msieve v. 1.50 (SVN unknown) Total time: 1.14 hours. Scaled time: 2.45 units (timescale=2.151). Factorization parameters were as follows: n: 2770159838222665447796337848693869636278013241364026704340840466494916756696861408903293720047646749217429845702097011 m: 1000000000000000000000000 deg: 5 c5: 100 c0: 89 skew: 0.98 # Murphy_E = 2.002e-08 type: snfs lss: 1 rlim: 760000 alim: 760000 lpbr: 25 lpba: 25 mfbr: 46 mfba: 46 rlambda: 2.2 alambda: 2.2 Factor base limits: 760000/760000 Large primes per side: 3 Large prime bits: 25/25 Max factor residue bits: 46/46 Sieved rational special-q in [380000, 680001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 60308 x 60534 Total sieving time: 1.10 hours. Total relation processing time: 0.02 hours. Matrix solve time: 0.01 hours. Time per square root: 0.00 hours. Prototype def-par.txt line would be: snfs,122.000,5,0,0,0,0,0,0,0,0,760000,760000,25,25,46,46,2.2,2.2,50000 total time: 1.14 hours. --------- CPU info (if available) ---------- |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | December 6, 2014 21:23:05 UTC 2014 年 12 月 7 日 (日) 6 時 23 分 5 秒 (日本時間) |
composite number 合成数 | 66454198757474838302352710501359493981361606690590336380350651245628802046607077735552520715903111368593486349643<113> |
prime factors 素因数 | 72784400133100154820005585628870881<35> 913028047712843188880664473749008318386895323372974930024501109917958229977003<78> |
factorization results 素因数分解の結果 | N=66454198757474838302352710501359493981361606690590336380350651245628802046607077735552520715903111368593486349643 ( 113 digits) SNFS difficulty: 123 digits. Divisors found: r1=72784400133100154820005585628870881 (pp35) r2=913028047712843188880664473749008318386895323372974930024501109917958229977003 (pp78) Version: Msieve v. 1.50 (SVN unknown) Total time: 1.49 hours. Scaled time: 2.28 units (timescale=1.536). Factorization parameters were as follows: n: 66454198757474838302352710501359493981361606690590336380350651245628802046607077735552520715903111368593486349643 m: 1000000000000000000000000 deg: 5 c5: 1000 c0: 89 skew: 0.62 # Murphy_E = 1.444e-08 type: snfs lss: 1 rlim: 790000 alim: 790000 lpbr: 25 lpba: 25 mfbr: 46 mfba: 46 rlambda: 2.2 alambda: 2.2 Factor base limits: 790000/790000 Large primes per side: 3 Large prime bits: 25/25 Max factor residue bits: 46/46 Sieved rational special-q in [395000, 745001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 74290 x 74520 Total sieving time: 1.43 hours. Total relation processing time: 0.02 hours. Matrix solve time: 0.01 hours. Time per square root: 0.02 hours. Prototype def-par.txt line would be: snfs,123.000,5,0,0,0,0,0,0,0,0,790000,790000,25,25,46,46,2.2,2.2,50000 total time: 1.49 hours. --------- CPU info (if available) ---------- |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | December 8, 2014 09:25:33 UTC 2014 年 12 月 8 日 (月) 18 時 25 分 33 秒 (日本時間) |
composite number 合成数 | 12978012661879069876633285420396834182641676585900563299283384655414001048057984887325462840533241693224087041<110> |
prime factors 素因数 | 748083312850102337492847337330168280707<39> 17348352033725349645434376116363629482705074927495724022939195115307563<71> |
factorization results 素因数分解の結果 | N=12978012661879069876633285420396834182641676585900563299283384655414001048057984887325462840533241693224087041 ( 110 digits) SNFS difficulty: 130 digits. Divisors found: r1=748083312850102337492847337330168280707 (pp39) r2=17348352033725349645434376116363629482705074927495724022939195115307563 (pp71) Version: Msieve v. 1.50 (SVN unknown) Total time: 1.69 hours. Scaled time: 0.00 units (timescale=0.000). Factorization parameters were as follows: n: 12978012661879069876633285420396834182641676585900563299283384655414001048057984887325462840533241693224087041 m: 100000000000000000000000000 deg: 5 c5: 1 c0: 890 skew: 3.89 # Murphy_E = 9.003e-09 type: snfs lss: 1 rlim: 1030000 alim: 1030000 lpbr: 26 lpba: 26 mfbr: 47 mfba: 47 rlambda: 2.3 alambda: 2.3 Factor base limits: 1030000/1030000 Large primes per side: 3 Large prime bits: 26/26 Max factor residue bits: 47/47 Sieved rational special-q in [515000, 815001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 122216 x 122443 Total sieving time: 1.61 hours. Total relation processing time: 0.03 hours. Matrix solve time: 0.04 hours. Time per square root: 0.01 hours. Prototype def-par.txt line would be: snfs,130.000,5,0,0,0,0,0,0,0,0,1030000,1030000,26,26,47,47,2.3,2.3,50000 total time: 1.69 hours. |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | KTakahashi |
---|---|
date 日付 | December 6, 2014 17:49:52 UTC 2014 年 12 月 7 日 (日) 2 時 49 分 52 秒 (日本時間) |
composite number 合成数 | 30633594637895594582755124234543053985583830363406333189355438535224038794384249430980979601089330625323567343362772217780351<125> |
prime factors 素因数 | 146247116526757658319567462753917<33> |
composite cofactor 合成数の残り | 209464605972527412026611859253446086433939416833400807548235616014338685849755654955370405803<93> |
factorization results 素因数分解の結果 | Input number is 30633594637895594582755124234543053985583830363406333189355438535224038794384249430980979601089330625323567343362772217780351 (125 digits) Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=1460753737 Step 1 took 3104ms ********** Factor found in step 1: 146247116526757658319567462753917 Found probable prime factor of 33 digits: 146247116526757658319567462753917 Composite cofactor 209464605972527412026611859253446086433939416833400807548235616014338685849755654955370405803 has 93 digits |
software ソフトウェア | GMP-ECM 6.4.4 |
name 名前 | KTakahashi |
---|---|
date 日付 | December 7, 2014 14:06:03 UTC 2014 年 12 月 7 日 (日) 23 時 6 分 3 秒 (日本時間) |
composite number 合成数 | 209464605972527412026611859253446086433939416833400807548235616014338685849755654955370405803<93> |
prime factors 素因数 | 30541956037724609094268229601259790998280741<44> 6858257726315967459110908364637681581823231402383<49> |
factorization results 素因数分解の結果 | // 昨日の時点で以下の通りc93 = P44 * P49の結果は得られていましたが、投稿を忘れていました。申し訳ありません。 // I already factored c93 into 2 primes, P44 and P49, yesterday as follows. But I forgot to submit it. I apologize. Msieve v. 1.51 (SVN Official Release) Wed Dec 03 21:18:58 2014 random seeds: 8fb8c778 dc070092 factoring 209464605972527412026611859253446086433939416833400807548235616014338685849755654955370405803 (93 digits) searching for 15-digit factors commencing quadratic sieve (93-digit input) using multiplier of 1 using VC8 64kb sieve core sieve interval: 18 blocks of size 65536 processing polynomials in batches of 6 using a sieve bound of 1885603 (70588 primes) using large prime bound of 220615551 (27 bits) using double large prime bound of 1043626276316520 (42-50 bits) using trial factoring cutoff of 50 bits polynomial 'A' values have 12 factors 71059 relations (17797 full + 53262 combined from 933761 partial), need 70684 begin with 951558 relations reduce to 181940 relations in 11 passes attempting to read 181940 relations recovered 181940 relations recovered 164486 polynomials attempting to build 71059 cycles found 71059 cycles in 6 passes distribution of cycle lengths: length 1 : 17797 length 2 : 12744 length 3 : 11940 length 4 : 9564 length 5 : 7135 length 6 : 4836 length 7 : 3038 length 9+: 4005 largest cycle: 21 relations matrix is 70588 x 71059 (19.0 MB) with weight 4403983 (61.98/col) sparse part has weight 4403983 (61.98/col) filtering completed in 3 passes matrix is 66949 x 67013 (17.9 MB) with weight 4156230 (62.02/col) sparse part has weight 4156230 (62.02/col) saving the first 48 matrix rows for later matrix includes 64 packed rows matrix is 66901 x 67013 (11.1 MB) with weight 3208375 (47.88/col) sparse part has weight 2230859 (33.29/col) using block size 26760 for processor cache size 1024 kB commencing Lanczos iteration memory use: 7.0 MB linear algebra at 72.0%, ETA 0h 0m lanczos halted after 1058 iterations (dim = 66901) recovered 18 nontrivial dependencies prp44 factor: 30541956037724609094268229601259790998280741 prp49 factor: 6858257726315967459110908364637681581823231402383 elapsed time 02:20:36 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | December 8, 2014 12:14:09 UTC 2014 年 12 月 8 日 (月) 21 時 14 分 9 秒 (日本時間) |
composite number 合成数 | 254526274463516072737368257423048174236327701835155055510182429238316862849028603146035872775316597787911639585032884807387<123> |
prime factors 素因数 | 40942201092263928954662181032327770303236661822794922462909<59> 6216721809605128296963365261491103999233285107078224349164474743<64> |
factorization results 素因数分解の結果 | N=254526274463516072737368257423048174236327701835155055510182429238316862849028603146035872775316597787911639585032884807387 ( 123 digits) SNFS difficulty: 131 digits. Divisors found: r1=40942201092263928954662181032327770303236661822794922462909 (pp59) r2=6216721809605128296963365261491103999233285107078224349164474743 (pp64) Version: Msieve v. 1.50 (SVN unknown) Total time: 2.15 hours. Scaled time: 0.00 units (timescale=0.000). Factorization parameters were as follows: n: 254526274463516072737368257423048174236327701835155055510182429238316862849028603146035872775316597787911639585032884807387 m: 100000000000000000000000000 deg: 5 c5: 10 c0: 89 skew: 1.55 # Murphy_E = 7.619e-09 type: snfs lss: 1 rlim: 1070000 alim: 1070000 lpbr: 26 lpba: 26 mfbr: 47 mfba: 47 rlambda: 2.3 alambda: 2.3 Factor base limits: 1070000/1070000 Large primes per side: 3 Large prime bits: 26/26 Max factor residue bits: 47/47 Sieved rational special-q in [535000, 935001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 146245 x 146471 Total sieving time: 2.05 hours. Total relation processing time: 0.03 hours. Matrix solve time: 0.05 hours. Time per square root: 0.02 hours. Prototype def-par.txt line would be: snfs,131.000,5,0,0,0,0,0,0,0,0,1070000,1070000,26,26,47,47,2.3,2.3,50000 total time: 2.15 hours. |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | KTakahashi |
---|---|
date 日付 | December 6, 2014 17:53:03 UTC 2014 年 12 月 7 日 (日) 2 時 53 分 3 秒 (日本時間) |
composite number 合成数 | 4137347557648488874225364878359563586041893498547443528260561103628167529430909272513576528666659<97> |
prime factors 素因数 | 8576390951966062748565722010759005401<37> 482411259097282414373322282832194903220009887153969748148059<60> |
factorization results 素因数分解の結果 | Input number is 4137347557648488874225364878359563586041893498547443528260561103628167529430909272513576528666659 (97 digits) Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=2630908207 Step 1 took 2886ms Step 2 took 1670ms ********** Factor found in step 2: 8576390951966062748565722010759005401 Found probable prime factor of 37 digits: 8576390951966062748565722010759005401 Probable prime cofactor 482411259097282414373322282832194903220009887153969748148059 has 60 digits |
software ソフトウェア | GMP-ECM 6.4.4 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | December 8, 2014 13:33:40 UTC 2014 年 12 月 8 日 (月) 22 時 33 分 40 秒 (日本時間) |
composite number 合成数 | 19522739106499031033756510235095660388771332822734170059263794748169066662884034446539125608914967274763659968908199321331243<125> |
prime factors 素因数 | 2648700964218298147193069942602931<34> 7370684486559511920348236316379756447286048012676717892197900993600116240288223423428598953<91> |
factorization results 素因数分解の結果 | N=19522739106499031033756510235095660388771332822734170059263794748169066662884034446539125608914967274763659968908199321331243 ( 125 digits) SNFS difficulty: 135 digits. Divisors found: r1=2648700964218298147193069942602931 (pp34) r2=7370684486559511920348236316379756447286048012676717892197900993600116240288223423428598953 (pp91) Version: Msieve v. 1.50 (SVN unknown) Total time: 1.86 hours. Scaled time: 3.04 units (timescale=1.635). Factorization parameters were as follows: n: 19522739106499031033756510235095660388771332822734170059263794748169066662884034446539125608914967274763659968908199321331243 m: 1000000000000000000000000000 deg: 5 c5: 1 c0: 89 skew: 2.45 # Murphy_E = 7.555e-09 type: snfs lss: 1 rlim: 1240000 alim: 1240000 lpbr: 26 lpba: 26 mfbr: 47 mfba: 47 rlambda: 2.3 alambda: 2.3 Factor base limits: 1240000/1240000 Large primes per side: 3 Large prime bits: 26/26 Max factor residue bits: 47/47 Sieved rational special-q in [620000, 995001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 142697 x 142926 Total sieving time: 1.75 hours. Total relation processing time: 0.04 hours. Matrix solve time: 0.06 hours. Time per square root: 0.01 hours. Prototype def-par.txt line would be: snfs,135.000,5,0,0,0,0,0,0,0,0,1240000,1240000,26,26,47,47,2.3,2.3,75000 total time: 1.86 hours. |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | December 8, 2014 13:39:03 UTC 2014 年 12 月 8 日 (月) 22 時 39 分 3 秒 (日本時間) |
composite number 合成数 | 11610356437942644839196563334494368977127597817252989666782770231046093115058632300011610356437942644839196563334494368977127597817253<134> |
prime factors 素因数 | 247178117509976517604513812649563125771116751<45> 46971619312029235970767447408431505996973869154591226449445856465378766317862220074717003<89> |
factorization results 素因数分解の結果 | N=11610356437942644839196563334494368977127597817252989666782770231046093115058632300011610356437942644839196563334494368977127597817253 ( 134 digits) SNFS difficulty: 137 digits. Divisors found: r1=247178117509976517604513812649563125771116751 (pp45) r2=46971619312029235970767447408431505996973869154591226449445856465378766317862220074717003 (pp89) Version: Msieve v. 1.50 (SVN unknown) Total time: 2.64 hours. Scaled time: 0.00 units (timescale=0.000). Factorization parameters were as follows: n: 11610356437942644839196563334494368977127597817252989666782770231046093115058632300011610356437942644839196563334494368977127597817253 m: 1000000000000000000000000000 deg: 5 c5: 100 c0: 89 skew: 0.98 # Murphy_E = 5.803e-09 type: snfs lss: 1 rlim: 1340000 alim: 1340000 lpbr: 26 lpba: 26 mfbr: 48 mfba: 48 rlambda: 2.3 alambda: 2.3 Factor base limits: 1340000/1340000 Large primes per side: 3 Large prime bits: 26/26 Max factor residue bits: 48/48 Sieved rational special-q in [670000, 1120001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 150679 x 150904 Total sieving time: 2.52 hours. Total relation processing time: 0.04 hours. Matrix solve time: 0.06 hours. Time per square root: 0.03 hours. Prototype def-par.txt line would be: snfs,137.000,5,0,0,0,0,0,0,0,0,1340000,1340000,26,26,48,48,2.3,2.3,75000 total time: 2.64 hours. |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | December 12, 2014 13:02:10 UTC 2014 年 12 月 12 日 (金) 22 時 2 分 10 秒 (日本時間) |
composite number 合成数 | 668941066292059669543113251722523245702053649073516623185497357682788146364305304702655696033179476888086159609338417285437152986821861<135> |
prime factors 素因数 | 649198386295366880567903641359331494827973920227<48> 1030410858088162943594126125472297642315204128233522463619848200620842413521500921992343<88> |
factorization results 素因数分解の結果 | N=668941066292059669543113251722523245702053649073516623185497357682788146364305304702655696033179476888086159609338417285437152986821861 ( 135 digits) SNFS difficulty: 140 digits. Divisors found: r1=649198386295366880567903641359331494827973920227 (pp48) r2=1030410858088162943594126125472297642315204128233522463619848200620842413521500921992343 (pp88) Version: Msieve v. 1.50 (SVN unknown) Total time: 2.74 hours. Scaled time: 5.90 units (timescale=2.149). Factorization parameters were as follows: n: 668941066292059669543113251722523245702053649073516623185497357682788146364305304702655696033179476888086159609338417285437152986821861 m: 10000000000000000000000000000 deg: 5 c5: 1 c0: 890 skew: 3.89 # Murphy_E = 3.889e-09 type: snfs lss: 1 rlim: 1510000 alim: 1510000 lpbr: 26 lpba: 26 mfbr: 48 mfba: 48 rlambda: 2.3 alambda: 2.3 Factor base limits: 1510000/1510000 Large primes per side: 3 Large prime bits: 26/26 Max factor residue bits: 48/48 Sieved rational special-q in [755000, 1355001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 197333 x 197561 Total sieving time: 2.59 hours. Total relation processing time: 0.04 hours. Matrix solve time: 0.11 hours. Time per square root: 0.01 hours. Prototype def-par.txt line would be: snfs,140.000,5,0,0,0,0,0,0,0,0,1510000,1510000,26,26,48,48,2.3,2.3,75000 total time: 2.74 hours. |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 418 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
300 | Ignacio Santos | December 10, 2014 08:25:02 UTC 2014 年 12 月 10 日 (水) 17 時 25 分 2 秒 (日本時間) | |||
40 | 3e6 | 110 / 2126 | Ignacio Santos | December 10, 2014 08:25:02 UTC 2014 年 12 月 10 日 (水) 17 時 25 分 2 秒 (日本時間) | |
45 | 11e6 | 32 / 4437 | Ignacio Santos | December 10, 2014 08:25:02 UTC 2014 年 12 月 10 日 (水) 17 時 25 分 2 秒 (日本時間) |
name 名前 | KTakahashi |
---|---|
date 日付 | December 6, 2014 17:54:28 UTC 2014 年 12 月 7 日 (日) 2 時 54 分 28 秒 (日本時間) |
composite number 合成数 | 23327967900716168614551986376466745981757529101639956143420346653603004642265612242517554295845288916882450369748291226351272540648984067<137> |
prime factors 素因数 | 19309411187750606920431228178101438181<38> 1208113891919958209889238758042580470535955000684917922623318233206428230008511605184288032574212807<100> |
factorization results 素因数分解の結果 | Input number is 23327967900716168614551986376466745981757529101639956143420346653603004642265612242517554295845288916882450369748291226351272540648984067 (137 digits) Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=689360695 Step 1 took 4259ms Step 2 took 2527ms ********** Factor found in step 2: 19309411187750606920431228178101438181 Found probable prime factor of 38 digits: 19309411187750606920431228178101438181 Probable prime cofactor 1208113891919958209889238758042580470535955000684917922623318233206428230008511605184288032574212807 has 100 digits |
software ソフトウェア | GMP-ECM 6.4.4 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | KTakahashi |
---|---|
date 日付 | December 6, 2014 17:55:43 UTC 2014 年 12 月 7 日 (日) 2 時 55 分 43 秒 (日本時間) |
composite number 合成数 | 12470382840753211123581493951864322234692605062975433345803716174086544456914827285197655568025938396308766679137049507419877790248160618531<140> |
prime factors 素因数 | 2672599328030777679812120600954887<34> 4666012862444902206344462729229225536363567412582134525790015092950256745224785859821062525478804092715013<106> |
factorization results 素因数分解の結果 | Input number is 12470382840753211123581493951864322234692605062975433345803716174086544456914827285197655568025938396308766679137049507419877790248160618531 (140 digits) Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=2913318433 Step 1 took 3681ms Step 2 took 2200ms ********** Factor found in step 2: 2672599328030777679812120600954887 Found probable prime factor of 34 digits: 2672599328030777679812120600954887 Probable prime cofactor 4666012862444902206344462729229225536363567412582134525790015092950256745224785859821062525478804092715013 has 106 digits |
software ソフトウェア | GMP-ECM 6.4.4 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 904 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
name 名前 | Cyp |
---|---|
date 日付 | December 14, 2014 03:35:53 UTC 2014 年 12 月 14 日 (日) 12 時 35 分 53 秒 (日本時間) |
composite number 合成数 | 97960978185024210687916308597031323380232391478903261890641146017338822123097865685128412775316823355352989083348139811563<122> |
prime factors 素因数 | 12993184445125966353566232497262630460198393937727085436711<59> 7539412574241687244662806070436598280796290908841968244295039133<64> |
factorization results 素因数分解の結果 | 12/14/14 03:53:31 v1.34.3, 12/14/14 03:53:31 v1.34.3, **************************** 12/14/14 03:53:31 v1.34.3, Starting factorization of 97960978185024210687916308597031323380232391478903261890641146017338822123097865685128412775316823355352989083348139811563 12/14/14 03:53:31 v1.34.3, using pretesting plan: none 12/14/14 03:53:31 v1.34.3, no tune info: using qs/gnfs crossover of 95 digits 12/14/14 03:53:31 v1.34.3, **************************** 12/14/14 03:53:31 v1.34.3, nfs: commencing nfs on c122: 97960978185024210687916308597031323380232391478903261890641146017338822123097865685128412775316823355352989083348139811563 12/14/14 03:53:31 v1.34.3, nfs: continuing with sieving - could not determine last special q; using default startq 12/14/14 03:53:31 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/14/14 03:54:18 v1.34.3, nfs: commencing lattice sieving with 8 threads [45 lines snipped] 12/14/14 04:31:34 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/14/14 04:32:24 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/14/14 04:33:14 v1.34.3, nfs: commencing msieve filtering 12/14/14 04:33:59 v1.34.3, nfs: commencing msieve linear algebra 12/14/14 04:35:23 v1.34.3, nfs: commencing msieve sqrt 12/14/14 04:35:52 v1.34.3, prp64 = 7539412574241687244662806070436598280796290908841968244295039133 12/14/14 04:35:52 v1.34.3, prp59 = 12993184445125966353566232497262630460198393937727085436711 12/14/14 04:35:52 v1.34.3, NFS elapsed time = 2541.2739 seconds. 12/14/14 04:35:52 v1.34.3, 12/14/14 04:35:52 v1.34.3, 12/14/14 04:35:52 v1.34.3, Total factoring time = 2541.2745 seconds -- Sun Dec 14 04:33:14 2014 Sun Dec 14 04:33:14 2014 commencing relation filtering Sun Dec 14 04:33:14 2014 estimated available RAM is 15987.3 MB Sun Dec 14 04:33:14 2014 commencing duplicate removal, pass 1 Sun Dec 14 04:33:26 2014 found 615073 hash collisions in 4561709 relations Sun Dec 14 04:33:30 2014 added 181745 free relations Sun Dec 14 04:33:30 2014 commencing duplicate removal, pass 2 Sun Dec 14 04:33:33 2014 found 439345 duplicates and 4304109 unique relations Sun Dec 14 04:33:33 2014 memory use: 20.6 MB Sun Dec 14 04:33:33 2014 reading ideals above 100000 Sun Dec 14 04:33:33 2014 commencing singleton removal, initial pass Sun Dec 14 04:33:50 2014 memory use: 94.1 MB Sun Dec 14 04:33:50 2014 reading all ideals from disk Sun Dec 14 04:33:50 2014 memory use: 136.9 MB Sun Dec 14 04:33:50 2014 keeping 4648193 ideals with weight <= 200, target excess is 22334 Sun Dec 14 04:33:51 2014 commencing in-memory singleton removal Sun Dec 14 04:33:51 2014 begin with 4304109 relations and 4648193 unique ideals Sun Dec 14 04:33:52 2014 reduce to 1848815 relations and 1562602 ideals in 14 passes Sun Dec 14 04:33:52 2014 max relations containing the same ideal: 117 Sun Dec 14 04:33:52 2014 removing 481174 relations and 351021 ideals in 130153 cliques Sun Dec 14 04:33:52 2014 commencing in-memory singleton removal Sun Dec 14 04:33:52 2014 begin with 1367641 relations and 1562602 unique ideals Sun Dec 14 04:33:52 2014 reduce to 1279049 relations and 1115229 ideals in 8 passes Sun Dec 14 04:33:52 2014 max relations containing the same ideal: 88 Sun Dec 14 04:33:53 2014 removing 400143 relations and 269990 ideals in 130153 cliques Sun Dec 14 04:33:53 2014 commencing in-memory singleton removal Sun Dec 14 04:33:53 2014 begin with 878906 relations and 1115229 unique ideals Sun Dec 14 04:33:53 2014 reduce to 800891 relations and 759316 ideals in 9 passes Sun Dec 14 04:33:53 2014 max relations containing the same ideal: 63 Sun Dec 14 04:33:53 2014 removing 74970 relations and 59303 ideals in 15667 cliques Sun Dec 14 04:33:53 2014 commencing in-memory singleton removal Sun Dec 14 04:33:53 2014 begin with 725921 relations and 759316 unique ideals Sun Dec 14 04:33:53 2014 reduce to 720993 relations and 695001 ideals in 6 passes Sun Dec 14 04:33:53 2014 max relations containing the same ideal: 60 Sun Dec 14 04:33:53 2014 relations with 0 large ideals: 547 Sun Dec 14 04:33:53 2014 relations with 1 large ideals: 210 Sun Dec 14 04:33:53 2014 relations with 2 large ideals: 3089 Sun Dec 14 04:33:53 2014 relations with 3 large ideals: 22521 Sun Dec 14 04:33:53 2014 relations with 4 large ideals: 83364 Sun Dec 14 04:33:53 2014 relations with 5 large ideals: 172468 Sun Dec 14 04:33:53 2014 relations with 6 large ideals: 216810 Sun Dec 14 04:33:53 2014 relations with 7+ large ideals: 221984 Sun Dec 14 04:33:53 2014 commencing 2-way merge Sun Dec 14 04:33:53 2014 reduce to 451002 relation sets and 425010 unique ideals Sun Dec 14 04:33:53 2014 commencing full merge Sun Dec 14 04:33:58 2014 memory use: 56.5 MB Sun Dec 14 04:33:58 2014 found 230539 cycles, need 227210 Sun Dec 14 04:33:58 2014 weight of 227210 cycles is about 16029060 (70.55/cycle) Sun Dec 14 04:33:58 2014 distribution of cycle lengths: Sun Dec 14 04:33:58 2014 1 relations: 17152 Sun Dec 14 04:33:58 2014 2 relations: 21411 Sun Dec 14 04:33:58 2014 3 relations: 23157 Sun Dec 14 04:33:58 2014 4 relations: 22763 Sun Dec 14 04:33:58 2014 5 relations: 22740 Sun Dec 14 04:33:58 2014 6 relations: 21071 Sun Dec 14 04:33:58 2014 7 relations: 19035 Sun Dec 14 04:33:58 2014 8 relations: 16716 Sun Dec 14 04:33:58 2014 9 relations: 14311 Sun Dec 14 04:33:58 2014 10+ relations: 48854 Sun Dec 14 04:33:58 2014 heaviest cycle: 21 relations Sun Dec 14 04:33:58 2014 commencing cycle optimization Sun Dec 14 04:33:58 2014 start with 1463232 relations Sun Dec 14 04:33:59 2014 pruned 46223 relations Sun Dec 14 04:33:59 2014 memory use: 44.8 MB Sun Dec 14 04:33:59 2014 distribution of cycle lengths: Sun Dec 14 04:33:59 2014 1 relations: 17152 Sun Dec 14 04:33:59 2014 2 relations: 21813 Sun Dec 14 04:33:59 2014 3 relations: 23965 Sun Dec 14 04:33:59 2014 4 relations: 23600 Sun Dec 14 04:33:59 2014 5 relations: 23499 Sun Dec 14 04:33:59 2014 6 relations: 21827 Sun Dec 14 04:33:59 2014 7 relations: 19695 Sun Dec 14 04:33:59 2014 8 relations: 17081 Sun Dec 14 04:33:59 2014 9 relations: 14477 Sun Dec 14 04:33:59 2014 10+ relations: 44101 Sun Dec 14 04:33:59 2014 heaviest cycle: 21 relations Sun Dec 14 04:33:59 2014 RelProcTime: 45 Sun Dec 14 04:33:59 2014 Sun Dec 14 04:33:59 2014 commencing linear algebra Sun Dec 14 04:33:59 2014 read 227210 cycles Sun Dec 14 04:33:59 2014 cycles contain 705911 unique relations Sun Dec 14 04:34:04 2014 read 705911 relations Sun Dec 14 04:34:04 2014 using 20 quadratic characters above 67107740 Sun Dec 14 04:34:06 2014 building initial matrix Sun Dec 14 04:34:10 2014 memory use: 86.1 MB Sun Dec 14 04:34:10 2014 read 227210 cycles Sun Dec 14 04:34:10 2014 matrix is 227040 x 227210 (67.7 MB) with weight 20409881 (89.83/col) Sun Dec 14 04:34:10 2014 sparse part has weight 15236686 (67.06/col) Sun Dec 14 04:34:10 2014 filtering completed in 2 passes Sun Dec 14 04:34:10 2014 matrix is 227006 x 227181 (67.7 MB) with weight 20408779 (89.83/col) Sun Dec 14 04:34:10 2014 sparse part has weight 15236265 (67.07/col) Sun Dec 14 04:34:11 2014 matrix starts at (0, 0) Sun Dec 14 04:34:11 2014 matrix is 227006 x 227181 (67.7 MB) with weight 20408779 (89.83/col) Sun Dec 14 04:34:11 2014 sparse part has weight 15236265 (67.07/col) Sun Dec 14 04:34:11 2014 saving the first 48 matrix rows for later Sun Dec 14 04:34:11 2014 matrix includes 64 packed rows Sun Dec 14 04:34:11 2014 matrix is 226958 x 227181 (63.7 MB) with weight 16055285 (70.67/col) Sun Dec 14 04:34:11 2014 sparse part has weight 14436697 (63.55/col) Sun Dec 14 04:34:11 2014 using block size 65536 for processor cache size 8192 kB Sun Dec 14 04:34:11 2014 commencing Lanczos iteration (8 threads) Sun Dec 14 04:34:11 2014 memory use: 60.6 MB Sun Dec 14 04:34:15 2014 linear algebra at 5.3%, ETA 0h 1m Sun Dec 14 04:35:23 2014 lanczos halted after 3591 iterations (dim = 226958) Sun Dec 14 04:35:23 2014 recovered 39 nontrivial dependencies Sun Dec 14 04:35:23 2014 BLanczosTime: 84 Sun Dec 14 04:35:23 2014 Sun Dec 14 04:35:23 2014 commencing square root phase Sun Dec 14 04:35:23 2014 reading relations for dependency 1 Sun Dec 14 04:35:23 2014 read 113347 cycles Sun Dec 14 04:35:23 2014 cycles contain 352870 unique relations Sun Dec 14 04:35:27 2014 read 352870 relations Sun Dec 14 04:35:27 2014 multiplying 352870 relations Sun Dec 14 04:35:32 2014 multiply complete, coefficients have about 8.62 million bits Sun Dec 14 04:35:32 2014 initial square root is modulo 89891 Sun Dec 14 04:35:38 2014 GCD is N, no factor found Sun Dec 14 04:35:38 2014 reading relations for dependency 2 Sun Dec 14 04:35:38 2014 read 113692 cycles Sun Dec 14 04:35:38 2014 cycles contain 353042 unique relations Sun Dec 14 04:35:41 2014 read 353042 relations Sun Dec 14 04:35:42 2014 multiplying 353042 relations Sun Dec 14 04:35:46 2014 multiply complete, coefficients have about 8.62 million bits Sun Dec 14 04:35:46 2014 initial square root is modulo 90191 Sun Dec 14 04:35:52 2014 sqrtTime: 29 -- n: 97960978185024210687916308597031323380232391478903261890641146017338822123097865685128412775316823355352989083348139811563 m: 50000000000000000000000000000 deg: 5 c5: 16 c0: 445 skew: 1.94 # Murphy_E = 2.535e-09 type: snfs lss: 1 rlim: 1810000 alim: 1810000 lpbr: 26 lpba: 26 mfbr: 49 mfba: 49 rlambda: 2.3 alambda: 2.3 |
software ソフトウェア | yafu v1.34.3 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 418 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
300 | Ignacio Santos | December 10, 2014 19:24:58 UTC 2014 年 12 月 11 日 (木) 4 時 24 分 58 秒 (日本時間) | |||
40 | 3e6 | 410 / 2126 | 110 | Ignacio Santos | December 10, 2014 19:24:58 UTC 2014 年 12 月 11 日 (木) 4 時 24 分 58 秒 (日本時間) |
300 | Serge Batalov | December 10, 2014 19:45:43 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 43 秒 (日本時間) | |||
45 | 11e6 | 32 / 4371 | Ignacio Santos | December 10, 2014 19:24:58 UTC 2014 年 12 月 11 日 (木) 4 時 24 分 58 秒 (日本時間) |
name 名前 | KTakahashi |
---|---|
date 日付 | December 6, 2014 17:57:48 UTC 2014 年 12 月 7 日 (日) 2 時 57 分 48 秒 (日本時間) |
composite number 合成数 | 27822623385041977649902206592473325338554740322458447824053308923116388118383171468020971282701207704144261579881126257343133<125> |
prime factors 素因数 | 92457448224656923123303607<26> 763002763110294217535863799505262398731<39> 394393785754135926901990586162946583003506969900726133690049<60> |
factorization results 素因数分解の結果 | GMP-ECM 6.4.4 [configured with GMP 6.0.0] [ECM] Input number is 27822623385041977649902206592473325338554740322458447824053308923116388118383171468020971282701207704144261579881126257343133 (125 digits) Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=298250442 Step 1 took 3089ms Step 2 took 1966ms ********** Factor found in step 2: 92457448224656923123303607 Found probable prime factor of 26 digits: 92457448224656923123303607 Composite cofactor 300923548283935104904544376547017806482119674903448411316857132225521960201682848883084550204927819 has 99 digits Number: 11121_145 N=300923548283935104904544376547017806482119674903448411316857132225521960201682848883084550204927819 ( 99 digits) Divisors found: r1=763002763110294217535863799505262398731 (pp39) r2=394393785754135926901990586162946583003506969900726133690049 (pp60) Version: Msieve v. 1.51 (SVN Official Release) Total time: 4.95 hours. Scaled time: 8.60 units (timescale=1.737). Factorization parameters were as follows: name: 11121_145 n: 300923548283935104904544376547017806482119674903448411316857132225521960201682848883084550204927819 skew: 2135.32 # norm 6.94e+013 c5: 455280 c4: 3295783094 c3: 6303997533025 c2: -23639599094670092 c1: -8418176748544704660 c0: 11519375915860817333719 # alpha -6.02 Y1: 46905249149 Y0: -3664607553749080616 # Murphy_E 3.80e-009 # M 296389808736295529473892407937858796276710082339856915786200311979190358681635172041352308649658825 type: gnfs rlim: 1800000 alim: 1800000 lpbr: 26 lpba: 26 mfbr: 48 mfba: 48 rlambda: 2.5 alambda: 2.5 qintsize: 100000 Factor base limits: 1800000/1800000 Large primes per side: 3 Large prime bits: 26/26 Max factor residue bits: 48/48 Sieved algebraic special-q in [900000, 1300001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 196960 x 197185 Polynomial selection time: 0.33 hours. Total sieving time: 4.43 hours. Total relation processing time: 0.03 hours. Matrix solve time: 0.13 hours. Time per square root: 0.03 hours. Prototype def-par.txt line would be: gnfs,98,5,maxs1,maxskew,goodScore,efrac,j0,j1,eStepSize,maxTime,1800000,1800000,26,26,48,48,2.5,2.5,100000 total time: 4.95 hours. --------- CPU info (if available) ---------- |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 904 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
786 | KTakahashi | December 6, 2014 17:56:31 UTC 2014 年 12 月 7 日 (日) 2 時 56 分 31 秒 (日本時間) |
name 名前 | KTakahashi |
---|---|
date 日付 | December 6, 2014 18:00:10 UTC 2014 年 12 月 7 日 (日) 3 時 0 分 10 秒 (日本時間) |
composite number 合成数 | 1392845187562354704357079135921289437148292466316289629388890321795028526306530612150521238001371602474079903351213366172237747<127> |
prime factors 素因数 | 1565268891619133867461548858317<31> 1990930836958505119868319516655962942509<40> 446948743390712810884716106162261357405082365356106996699<57> |
factorization results 素因数分解の結果 | GMP-ECM 6.4.4 [configured with GMP 6.0.0] [ECM] Input number is 1392845187562354704357079135921289437148292466316289629388890321795028526306530612150521238001371602474079903351213366172237747 (127 digits) Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=1400819758 Step 1 took 3542ms Step 2 took 2199ms ********** Factor found in step 2: 1565268891619133867461548858317 Found probable prime factor of 31 digits: 1565268891619133867461548858317 Composite cofactor 889844035756423990069327699987188822274958542387071764354632047450799942249387024871718789777791 has 96 digits Number: 11121_146 N=889844035756423990069327699987188822274958542387071764354632047450799942249387024871718789777791 ( 96 digits) Divisors found: r1=1990930836958505119868319516655962942509 (pp40) r2=446948743390712810884716106162261357405082365356106996699 (pp57) Version: Msieve v. 1.51 (SVN Official Release) Total time: 6.43 hours. Scaled time: 13.34 units (timescale=2.075). Factorization parameters were as follows: name: 11121_146 n: 889844035756423990069327699987188822274958542387071764354632047450799942249387024871718789777791 m: 11531825508547992544531 deg: 4 c4: 50317800 c3: 43206556077 c2: 637650617646126978 c1: -741151115422224934 c0: -484099647796218580327320 skew: 1635.250 type: gnfs # adj. I(F,S) = 55.203 # E(F1,F2) = 2.193413e-005 # GGNFS version 0.77.1-VC8(Sat 01/17/2009) polyselect. # Options were: # lcd=1, enumLCD=24, maxS1=60.00000000, seed=1417612729. # maxskew=2000.0 # These parameters should be manually set: rlim: 1200000 alim: 1200000 lpbr: 25 lpba: 25 mfbr: 45 mfba: 45 rlambda: 2.4 alambda: 2.4 qintsize: 60000 type: gnfs Factor base limits: 1200000/1200000 Large primes per side: 3 Large prime bits: 25/25 Max factor residue bits: 45/45 Sieved algebraic special-q in [600000, 1500001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 195543 x 195768 Polynomial selection time: 0.17 hours. Total sieving time: 6.08 hours. Total relation processing time: 0.02 hours. Matrix solve time: 0.12 hours. Time per square root: 0.05 hours. Prototype def-par.txt line would be: gnfs,95,4,maxs1,maxskew,goodScore,efrac,j0,j1,eStepSize,maxTime,1200000,1200000,25,25,45,45,2.4,2.4,60000 total time: 6.43 hours. --------- CPU info (if available) ---------- |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 904 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
786 | KTakahashi | December 6, 2014 17:58:41 UTC 2014 年 12 月 7 日 (日) 2 時 58 分 41 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | December 14, 2014 22:43:44 UTC 2014 年 12 月 15 日 (月) 7 時 43 分 44 秒 (日本時間) |
composite number 合成数 | 116261495355353260553637240882192226756420541080999383814074616627719065722623324381198190971132270703265785404531873088951670096380779649587853<144> |
prime factors 素因数 | 248804782760463646439881934271281958097078600947923<51> 467279985800288270357977970675188237897398224699831261186859945440048034957829801605611610911<93> |
factorization results 素因数分解の結果 | N=116261495355353260553637240882192226756420541080999383814074616627719065722623324381198190971132270703265785404531873088951670096380779649587853 ( 144 digits) SNFS difficulty: 148 digits. Divisors found: r1=248804782760463646439881934271281958097078600947923 (pp51) r2=467279985800288270357977970675188237897398224699831261186859945440048034957829801605611610911 (pp93) Version: Msieve v. 1.50 (SVN unknown) Total time: 5.21 hours. Scaled time: 9.24 units (timescale=1.772). Factorization parameters were as follows: n: 116261495355353260553637240882192226756420541080999383814074616627719065722623324381198190971132270703265785404531873088951670096380779649587853 m: 100000000000000000000000000000 deg: 5 c5: 1000 c0: 89 skew: 0.62 # Murphy_E = 1.776e-09 type: snfs lss: 1 rlim: 2100000 alim: 2100000 lpbr: 26 lpba: 26 mfbr: 49 mfba: 49 rlambda: 2.3 alambda: 2.3 Factor base limits: 2100000/2100000 Large primes per side: 3 Large prime bits: 26/26 Max factor residue bits: 49/49 Sieved rational special-q in [1050000, 2150001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 334447 x 334672 Total sieving time: 5.05 hours. Total relation processing time: 0.05 hours. Matrix solve time: 0.09 hours. Time per square root: 0.02 hours. Prototype def-par.txt line would be: snfs,148.000,5,0,0,0,0,0,0,0,0,2100000,2100000,26,26,49,49,2.3,2.3,100000 total time: 5.21 hours. |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:43 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 43 秒 (日本時間) |
name 名前 | Serge Batalov |
---|---|
date 日付 | December 11, 2014 01:31:32 UTC 2014 年 12 月 11 日 (木) 10 時 31 分 32 秒 (日本時間) |
composite number 合成数 | 28113606211064665344809490801856850712961277015769291108458177970541608842661153162061497876363705575450066055677143346047224533491690484873<140> |
prime factors 素因数 | 426398290581668580385153475673859<33> 65932736673764953426226180217720508586760398948963667315105692118104386787994851017014984438213939860476547<107> |
factorization results 素因数分解の結果 | Input number is 28113606211064665344809490801856850712961277015769291108458177970541608842661153162061497876363705575450066055677143346047224533491690484873 (140 digits) Using B1=3000000, B2=11414255590, polynomial Dickson(12), sigma=1153307977 Step 1 took 9223ms Step 2 took 7112ms ********** Factor found in step 2: 426398290581668580385153475673859 Found probable prime factor of 33 digits: 426398290581668580385153475673859 Probable prime cofactor 65932736673764953426226180217720508586760398948963667315105692118104386787994851017014984438213939860476547 has 107 digits |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:44 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 44 秒 (日本時間) |
name 名前 | Cyp |
---|---|
date 日付 | December 19, 2014 05:15:25 UTC 2014 年 12 月 19 日 (金) 14 時 15 分 25 秒 (日本時間) |
composite number 合成数 | 4485656347386744569278138869524850476825795772577126853408185622731717326555129510619219964524514849518411823634498659029762363<127> |
prime factors 素因数 | 643322453377439740079868767400301821615258691<45> 6972640740016255674968800615390420974514334076940025652205974200466299645497185193<82> |
factorization results 素因数分解の結果 | 12/19/14 04:27:38 v1.34.3, 12/19/14 04:27:38 v1.34.3, **************************** 12/19/14 04:27:38 v1.34.3, Starting factorization of 4485656347386744569278138869524850476825795772577126853408185622731717326555129510619219964524514849518411823634498659029762363 12/19/14 04:27:38 v1.34.3, using pretesting plan: none 12/19/14 04:27:38 v1.34.3, no tune info: using qs/gnfs crossover of 95 digits 12/19/14 04:27:38 v1.34.3, **************************** 12/19/14 04:27:38 v1.34.3, nfs: commencing nfs on c127: 4485656347386744569278138869524850476825795772577126853408185622731717326555129510619219964524514849518411823634498659029762363 12/19/14 04:27:38 v1.34.3, nfs: continuing with sieving - could not determine last special q; using default startq 12/19/14 04:27:38 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/19/14 04:28:31 v1.34.3, nfs: commencing lattice sieving with 8 threads [112 lines snipped] 12/19/14 06:08:56 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/19/14 06:09:50 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/19/14 06:10:41 v1.34.3, nfs: commencing msieve filtering 12/19/14 06:12:17 v1.34.3, nfs: commencing msieve linear algebra 12/19/14 06:15:02 v1.34.3, nfs: commencing msieve sqrt 12/19/14 06:15:24 v1.34.3, prp45 = 643322453377439740079868767400301821615258691 12/19/14 06:15:24 v1.34.3, prp82 = 6972640740016255674968800615390420974514334076940025652205974200466299645497185193 12/19/14 06:15:24 v1.34.3, NFS elapsed time = 6465.6283 seconds. 12/19/14 06:15:24 v1.34.3, 12/19/14 06:15:24 v1.34.3, 12/19/14 06:15:24 v1.34.3, Total factoring time = 6465.6290 seconds -- Fri Dec 19 06:10:41 2014 Fri Dec 19 06:10:41 2014 commencing relation filtering Fri Dec 19 06:10:41 2014 estimated available RAM is 15987.3 MB Fri Dec 19 06:10:41 2014 commencing duplicate removal, pass 1 Fri Dec 19 06:11:07 2014 found 1686641 hash collisions in 10061494 relations Fri Dec 19 06:11:15 2014 added 345907 free relations Fri Dec 19 06:11:15 2014 commencing duplicate removal, pass 2 Fri Dec 19 06:11:22 2014 found 1364257 duplicates and 9043144 unique relations Fri Dec 19 06:11:22 2014 memory use: 41.3 MB Fri Dec 19 06:11:22 2014 reading ideals above 100000 Fri Dec 19 06:11:22 2014 commencing singleton removal, initial pass Fri Dec 19 06:12:00 2014 memory use: 188.2 MB Fri Dec 19 06:12:00 2014 reading all ideals from disk Fri Dec 19 06:12:00 2014 memory use: 300.0 MB Fri Dec 19 06:12:00 2014 keeping 8972547 ideals with weight <= 200, target excess is 46995 Fri Dec 19 06:12:00 2014 commencing in-memory singleton removal Fri Dec 19 06:12:01 2014 begin with 9043144 relations and 8972547 unique ideals Fri Dec 19 06:12:03 2014 reduce to 4513536 relations and 3330057 ideals in 10 passes Fri Dec 19 06:12:03 2014 max relations containing the same ideal: 131 Fri Dec 19 06:12:04 2014 removing 1172788 relations and 772788 ideals in 400000 cliques Fri Dec 19 06:12:04 2014 commencing in-memory singleton removal Fri Dec 19 06:12:04 2014 begin with 3340748 relations and 3330057 unique ideals Fri Dec 19 06:12:05 2014 reduce to 3173519 relations and 2373406 ideals in 8 passes Fri Dec 19 06:12:05 2014 max relations containing the same ideal: 101 Fri Dec 19 06:12:06 2014 removing 1010989 relations and 610989 ideals in 400000 cliques Fri Dec 19 06:12:06 2014 commencing in-memory singleton removal Fri Dec 19 06:12:06 2014 begin with 2162530 relations and 2373406 unique ideals Fri Dec 19 06:12:06 2014 reduce to 2028596 relations and 1613732 ideals in 6 passes Fri Dec 19 06:12:06 2014 max relations containing the same ideal: 72 Fri Dec 19 06:12:07 2014 removing 869390 relations and 509041 ideals in 360349 cliques Fri Dec 19 06:12:07 2014 commencing in-memory singleton removal Fri Dec 19 06:12:07 2014 begin with 1159206 relations and 1613732 unique ideals Fri Dec 19 06:12:07 2014 reduce to 1026378 relations and 953786 ideals in 9 passes Fri Dec 19 06:12:07 2014 max relations containing the same ideal: 47 Fri Dec 19 06:12:07 2014 removing 82444 relations and 64367 ideals in 18077 cliques Fri Dec 19 06:12:07 2014 commencing in-memory singleton removal Fri Dec 19 06:12:07 2014 begin with 943934 relations and 953786 unique ideals Fri Dec 19 06:12:08 2014 reduce to 937468 relations and 882822 ideals in 6 passes Fri Dec 19 06:12:08 2014 max relations containing the same ideal: 47 Fri Dec 19 06:12:08 2014 relations with 0 large ideals: 1049 Fri Dec 19 06:12:08 2014 relations with 1 large ideals: 1078 Fri Dec 19 06:12:08 2014 relations with 2 large ideals: 13690 Fri Dec 19 06:12:08 2014 relations with 3 large ideals: 70086 Fri Dec 19 06:12:08 2014 relations with 4 large ideals: 179611 Fri Dec 19 06:12:08 2014 relations with 5 large ideals: 264132 Fri Dec 19 06:12:08 2014 relations with 6 large ideals: 242674 Fri Dec 19 06:12:08 2014 relations with 7+ large ideals: 165148 Fri Dec 19 06:12:08 2014 commencing 2-way merge Fri Dec 19 06:12:08 2014 reduce to 662240 relation sets and 607594 unique ideals Fri Dec 19 06:12:08 2014 commencing full merge Fri Dec 19 06:12:14 2014 memory use: 73.4 MB Fri Dec 19 06:12:14 2014 found 326829 cycles, need 319794 Fri Dec 19 06:12:14 2014 weight of 319794 cycles is about 22626098 (70.75/cycle) Fri Dec 19 06:12:14 2014 distribution of cycle lengths: Fri Dec 19 06:12:14 2014 1 relations: 17691 Fri Dec 19 06:12:14 2014 2 relations: 30160 Fri Dec 19 06:12:14 2014 3 relations: 37085 Fri Dec 19 06:12:14 2014 4 relations: 37288 Fri Dec 19 06:12:14 2014 5 relations: 35163 Fri Dec 19 06:12:14 2014 6 relations: 30534 Fri Dec 19 06:12:14 2014 7 relations: 26426 Fri Dec 19 06:12:14 2014 8 relations: 21884 Fri Dec 19 06:12:14 2014 9 relations: 18157 Fri Dec 19 06:12:14 2014 10+ relations: 65406 Fri Dec 19 06:12:14 2014 heaviest cycle: 21 relations Fri Dec 19 06:12:14 2014 commencing cycle optimization Fri Dec 19 06:12:14 2014 start with 2046459 relations Fri Dec 19 06:12:16 2014 pruned 82195 relations Fri Dec 19 06:12:16 2014 memory use: 59.7 MB Fri Dec 19 06:12:16 2014 distribution of cycle lengths: Fri Dec 19 06:12:16 2014 1 relations: 17691 Fri Dec 19 06:12:16 2014 2 relations: 30988 Fri Dec 19 06:12:16 2014 3 relations: 38838 Fri Dec 19 06:12:16 2014 4 relations: 38929 Fri Dec 19 06:12:16 2014 5 relations: 36937 Fri Dec 19 06:12:16 2014 6 relations: 31625 Fri Dec 19 06:12:16 2014 7 relations: 27095 Fri Dec 19 06:12:16 2014 8 relations: 22126 Fri Dec 19 06:12:16 2014 9 relations: 18086 Fri Dec 19 06:12:16 2014 10+ relations: 57479 Fri Dec 19 06:12:16 2014 heaviest cycle: 21 relations Fri Dec 19 06:12:17 2014 RelProcTime: 96 Fri Dec 19 06:12:17 2014 Fri Dec 19 06:12:17 2014 commencing linear algebra Fri Dec 19 06:12:17 2014 read 319794 cycles Fri Dec 19 06:12:17 2014 cycles contain 908246 unique relations Fri Dec 19 06:12:25 2014 read 908246 relations Fri Dec 19 06:12:25 2014 using 20 quadratic characters above 134202348 Fri Dec 19 06:12:28 2014 building initial matrix Fri Dec 19 06:12:33 2014 memory use: 111.9 MB Fri Dec 19 06:12:33 2014 read 319794 cycles Fri Dec 19 06:12:33 2014 matrix is 319617 x 319794 (94.9 MB) with weight 28813186 (90.10/col) Fri Dec 19 06:12:33 2014 sparse part has weight 21360080 (66.79/col) Fri Dec 19 06:12:34 2014 filtering completed in 2 passes Fri Dec 19 06:12:34 2014 matrix is 319511 x 319688 (94.9 MB) with weight 28808388 (90.11/col) Fri Dec 19 06:12:34 2014 sparse part has weight 21357929 (66.81/col) Fri Dec 19 06:12:35 2014 matrix starts at (0, 0) Fri Dec 19 06:12:35 2014 matrix is 319511 x 319688 (94.9 MB) with weight 28808388 (90.11/col) Fri Dec 19 06:12:35 2014 sparse part has weight 21357929 (66.81/col) Fri Dec 19 06:12:35 2014 saving the first 48 matrix rows for later Fri Dec 19 06:12:35 2014 matrix includes 64 packed rows Fri Dec 19 06:12:35 2014 matrix is 319463 x 319688 (89.6 MB) with weight 22504350 (70.39/col) Fri Dec 19 06:12:35 2014 sparse part has weight 20294800 (63.48/col) Fri Dec 19 06:12:35 2014 using block size 65536 for processor cache size 8192 kB Fri Dec 19 06:12:35 2014 commencing Lanczos iteration (8 threads) Fri Dec 19 06:12:35 2014 memory use: 86.1 MB Fri Dec 19 06:12:41 2014 linear algebra at 3.8%, ETA 0h 2m Fri Dec 19 06:15:02 2014 lanczos halted after 5052 iterations (dim = 319463) Fri Dec 19 06:15:02 2014 recovered 38 nontrivial dependencies Fri Dec 19 06:15:02 2014 BLanczosTime: 165 Fri Dec 19 06:15:02 2014 Fri Dec 19 06:15:02 2014 commencing square root phase Fri Dec 19 06:15:02 2014 reading relations for dependency 1 Fri Dec 19 06:15:02 2014 read 159890 cycles Fri Dec 19 06:15:02 2014 cycles contain 454536 unique relations Fri Dec 19 06:15:09 2014 read 454536 relations Fri Dec 19 06:15:10 2014 multiplying 454536 relations Fri Dec 19 06:15:16 2014 multiply complete, coefficients have about 10.88 million bits Fri Dec 19 06:15:16 2014 initial square root is modulo 1794941 Fri Dec 19 06:15:24 2014 sqrtTime: 22 -- n: 4485656347386744569278138869524850476825795772577126853408185622731717326555129510619219964524514849518411823634498659029762363 m: 1000000000000000000000000000000 deg: 5 c5: 10 c0: 89 skew: 1.55 # Murphy_E = 1.384e-09 type: snfs lss: 1 rlim: 2300000 alim: 2300000 lpbr: 27 lpba: 27 mfbr: 49 mfba: 49 rlambda: 2.4 alambda: 2.4 |
software ソフトウェア | yafu v1.34.3 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:44 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 44 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | December 19, 2014 10:49:35 UTC 2014 年 12 月 19 日 (金) 19 時 49 分 35 秒 (日本時間) |
composite number 合成数 | 726841145687403228487541257766729960510364953003180043235675979334351145461747249996172662995546704071242956265699098959317<123> |
prime factors 素因数 | 79809370138055796808228121602534770471646965089<47> 9107215661896583240539723360426202024508812960517551078324574096029571166453<76> |
factorization results 素因数分解の結果 | N=726841145687403228487541257766729960510364953003180043235675979334351145461747249996172662995546704071242956265699098959317 ( 123 digits) SNFS difficulty: 152 digits. Divisors found: r1=79809370138055796808228121602534770471646965089 (pp47) r2=9107215661896583240539723360426202024508812960517551078324574096029571166453 (pp76) Version: Msieve v. 1.50 (SVN unknown) Total time: 9.17 hours. Scaled time: 0.00 units (timescale=0.000). Factorization parameters were as follows: n: 726841145687403228487541257766729960510364953003180043235675979334351145461747249996172662995546704071242956265699098959317 m: 1000000000000000000000000000000 deg: 5 c5: 100 c0: 89 skew: 0.98 # Murphy_E = 1.598e-09 type: snfs lss: 1 rlim: 2400000 alim: 2400000 lpbr: 27 lpba: 27 mfbr: 50 mfba: 50 rlambda: 2.4 alambda: 2.4 Factor base limits: 2400000/2400000 Large primes per side: 3 Large prime bits: 27/27 Max factor residue bits: 50/50 Sieved rational special-q in [1200000, 1700001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 337629 x 337857 Total sieving time: 8.95 hours. Total relation processing time: 0.08 hours. Matrix solve time: 0.11 hours. Time per square root: 0.03 hours. Prototype def-par.txt line would be: snfs,152.000,5,0,0,0,0,0,0,0,0,2400000,2400000,27,27,50,50,2.4,2.4,100000 total time: 9.17 hours. |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:45 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 45 秒 (日本時間) | |
45 | 11e6 | 590 / 4409 | Pierre Jammes | December 16, 2014 22:38:56 UTC 2014 年 12 月 17 日 (水) 7 時 38 分 56 秒 (日本時間) |
name 名前 | Serge Batalov |
---|---|
date 日付 | December 9, 2014 02:41:28 UTC 2014 年 12 月 9 日 (火) 11 時 41 分 28 秒 (日本時間) |
composite number 合成数 | 10101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101011<152> |
prime factors 素因数 | 5339975201877277100738804884889042723984938525018952321167<58> 1891583709500949410425036067546688638745431340648964138841070349971285377202559165697149257533<94> |
factorization results 素因数分解の結果 | Divisors found: r1=5339975201877277100738804884889042723984938525018952321167 (pp58) r2=1891583709500949410425036067546688638745431340648964138841070349971285377202559165697149257533 (pp94) Version: Msieve v. 1.51 (SVN 719M) Total time: 8.03 hours. Scaled time: 19.28 units (timescale=2.400). Factorization parameters were as follows: n: 10101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101011 m: 1000000000000000000000000000000 deg: 5 c5: 1000 c0: 89 skew: 0.62 # Murphy_E = 1.149e-09 type: snfs lss: 1 rlim: 2500000 alim: 2500000 lpbr: 27 lpba: 27 mfbr: 50 mfba: 50 rlambda: 2.4 alambda: 2.4 Factor base limits: 2500000/2500000 Large primes per side: 3 Large prime bits: 27/27 Max factor residue bits: 50/50 Sieved rational special-q in [1250000, 2050001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 322541 x 322766 Total sieving time: 7.79 hours. Total relation processing time: 0.06 hours. Matrix solve time: 0.06 hours. Time per square root: 0.13 hours. Prototype def-par.txt line would be: snfs,153.000,5,0,0,0,0,0,0,0,0,2500000,2500000,27,27,50,50,2.4,2.4,100000 total time: 8.03 hours. |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 2320 | Serge Batalov | December 8, 2014 19:27:21 UTC 2014 年 12 月 9 日 (火) 4 時 27 分 21 秒 (日本時間) |
name 名前 | Cyp |
---|---|
date 日付 | December 18, 2014 18:54:10 UTC 2014 年 12 月 19 日 (金) 3 時 54 分 10 秒 (日本時間) |
composite number 合成数 | 5448772731702399539022868927693370607284527371120438626250070035913679683634871236763709629641974934683315033686346672950035214617<130> |
prime factors 素因数 | 4504023274069821478078306720040189033406671830890649<52> 1209756788574252942887734506923308854895960782759309518977860775379152449096833<79> |
factorization results 素因数分解の結果 | 12/18/14 17:34:40 v1.34.3, 12/18/14 17:34:40 v1.34.3, **************************** 12/18/14 17:34:40 v1.34.3, Starting factorization of 5448772731702399539022868927693370607284527371120438626250070035913679683634871236763709629641974934683315033686346672950035214617 12/18/14 17:34:40 v1.34.3, using pretesting plan: none 12/18/14 17:34:40 v1.34.3, no tune info: using qs/gnfs crossover of 95 digits 12/18/14 17:34:40 v1.34.3, **************************** 12/18/14 17:34:40 v1.34.3, nfs: commencing nfs on c130: 5448772731702399539022868927693370607284527371120438626250070035913679683634871236763709629641974934683315033686346672950035214617 12/18/14 17:34:40 v1.34.3, nfs: continuing with sieving - could not determine last special q; using default startq 12/18/14 17:34:40 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/18/14 17:35:34 v1.34.3, nfs: commencing lattice sieving with 8 threads [133 lines snipped] 12/18/14 19:44:21 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/18/14 19:45:18 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/18/14 19:46:14 v1.34.3, nfs: commencing msieve filtering 12/18/14 19:47:55 v1.34.3, nfs: commencing msieve linear algebra 12/18/14 19:52:40 v1.34.3, nfs: commencing msieve sqrt 12/18/14 19:54:07 v1.34.3, prp79 = 1209756788574252942887734506923308854895960782759309518977860775379152449096833 12/18/14 19:54:07 v1.34.3, prp52 = 4504023274069821478078306720040189033406671830890649 12/18/14 19:54:07 v1.34.3, NFS elapsed time = 8366.2041 seconds. 12/18/14 19:54:07 v1.34.3, 12/18/14 19:54:07 v1.34.3, 12/18/14 19:54:07 v1.34.3, Total factoring time = 8366.2048 seconds -- Thu Dec 18 19:46:14 2014 Thu Dec 18 19:46:14 2014 commencing relation filtering Thu Dec 18 19:46:14 2014 estimated available RAM is 15987.3 MB Thu Dec 18 19:46:14 2014 commencing duplicate removal, pass 1 Thu Dec 18 19:46:41 2014 found 1639127 hash collisions in 10087100 relations Thu Dec 18 19:46:49 2014 added 355660 free relations Thu Dec 18 19:46:49 2014 commencing duplicate removal, pass 2 Thu Dec 18 19:46:56 2014 found 1300711 duplicates and 9142049 unique relations Thu Dec 18 19:46:56 2014 memory use: 41.3 MB Thu Dec 18 19:46:56 2014 reading ideals above 100000 Thu Dec 18 19:46:56 2014 commencing singleton removal, initial pass Thu Dec 18 19:47:35 2014 memory use: 188.2 MB Thu Dec 18 19:47:35 2014 reading all ideals from disk Thu Dec 18 19:47:35 2014 memory use: 309.9 MB Thu Dec 18 19:47:35 2014 keeping 9555393 ideals with weight <= 200, target excess is 46388 Thu Dec 18 19:47:35 2014 commencing in-memory singleton removal Thu Dec 18 19:47:36 2014 begin with 9142049 relations and 9555393 unique ideals Thu Dec 18 19:47:38 2014 reduce to 4204902 relations and 3459667 ideals in 12 passes Thu Dec 18 19:47:38 2014 max relations containing the same ideal: 119 Thu Dec 18 19:47:39 2014 removing 1197229 relations and 851517 ideals in 345712 cliques Thu Dec 18 19:47:39 2014 commencing in-memory singleton removal Thu Dec 18 19:47:40 2014 begin with 3007673 relations and 3459667 unique ideals Thu Dec 18 19:47:41 2014 reduce to 2773477 relations and 2350209 ideals in 10 passes Thu Dec 18 19:47:41 2014 max relations containing the same ideal: 91 Thu Dec 18 19:47:41 2014 removing 1001184 relations and 655472 ideals in 345712 cliques Thu Dec 18 19:47:41 2014 commencing in-memory singleton removal Thu Dec 18 19:47:42 2014 begin with 1772293 relations and 2350209 unique ideals Thu Dec 18 19:47:42 2014 reduce to 1565804 relations and 1462166 ideals in 9 passes Thu Dec 18 19:47:42 2014 max relations containing the same ideal: 60 Thu Dec 18 19:47:42 2014 removing 212188 relations and 162361 ideals in 49827 cliques Thu Dec 18 19:47:42 2014 commencing in-memory singleton removal Thu Dec 18 19:47:42 2014 begin with 1353616 relations and 1462166 unique ideals Thu Dec 18 19:47:43 2014 reduce to 1332009 relations and 1277526 ideals in 6 passes Thu Dec 18 19:47:43 2014 max relations containing the same ideal: 55 Thu Dec 18 19:47:43 2014 relations with 0 large ideals: 1026 Thu Dec 18 19:47:43 2014 relations with 1 large ideals: 657 Thu Dec 18 19:47:43 2014 relations with 2 large ideals: 9796 Thu Dec 18 19:47:43 2014 relations with 3 large ideals: 62361 Thu Dec 18 19:47:43 2014 relations with 4 large ideals: 200682 Thu Dec 18 19:47:43 2014 relations with 5 large ideals: 355991 Thu Dec 18 19:47:43 2014 relations with 6 large ideals: 382683 Thu Dec 18 19:47:43 2014 relations with 7+ large ideals: 318813 Thu Dec 18 19:47:43 2014 commencing 2-way merge Thu Dec 18 19:47:43 2014 reduce to 836528 relation sets and 782045 unique ideals Thu Dec 18 19:47:43 2014 commencing full merge Thu Dec 18 19:47:51 2014 memory use: 101.0 MB Thu Dec 18 19:47:51 2014 found 429870 cycles, need 422245 Thu Dec 18 19:47:51 2014 weight of 422245 cycles is about 29904716 (70.82/cycle) Thu Dec 18 19:47:51 2014 distribution of cycle lengths: Thu Dec 18 19:47:51 2014 1 relations: 28333 Thu Dec 18 19:47:51 2014 2 relations: 38980 Thu Dec 18 19:47:51 2014 3 relations: 44535 Thu Dec 18 19:47:51 2014 4 relations: 44319 Thu Dec 18 19:47:51 2014 5 relations: 43234 Thu Dec 18 19:47:51 2014 6 relations: 40754 Thu Dec 18 19:47:51 2014 7 relations: 36729 Thu Dec 18 19:47:51 2014 8 relations: 31932 Thu Dec 18 19:47:51 2014 9 relations: 27044 Thu Dec 18 19:47:51 2014 10+ relations: 86385 Thu Dec 18 19:47:51 2014 heaviest cycle: 21 relations Thu Dec 18 19:47:51 2014 commencing cycle optimization Thu Dec 18 19:47:52 2014 start with 2692927 relations Thu Dec 18 19:47:54 2014 pruned 84516 relations Thu Dec 18 19:47:54 2014 memory use: 82.6 MB Thu Dec 18 19:47:54 2014 distribution of cycle lengths: Thu Dec 18 19:47:54 2014 1 relations: 28333 Thu Dec 18 19:47:54 2014 2 relations: 39802 Thu Dec 18 19:47:54 2014 3 relations: 46179 Thu Dec 18 19:47:54 2014 4 relations: 45813 Thu Dec 18 19:47:54 2014 5 relations: 45002 Thu Dec 18 19:47:54 2014 6 relations: 42120 Thu Dec 18 19:47:54 2014 7 relations: 37842 Thu Dec 18 19:47:54 2014 8 relations: 32375 Thu Dec 18 19:47:54 2014 9 relations: 27287 Thu Dec 18 19:47:54 2014 10+ relations: 77492 Thu Dec 18 19:47:54 2014 heaviest cycle: 20 relations Thu Dec 18 19:47:55 2014 RelProcTime: 101 Thu Dec 18 19:47:55 2014 Thu Dec 18 19:47:55 2014 commencing linear algebra Thu Dec 18 19:47:55 2014 read 422245 cycles Thu Dec 18 19:47:55 2014 cycles contain 1296714 unique relations Thu Dec 18 19:48:04 2014 read 1296714 relations Thu Dec 18 19:48:05 2014 using 20 quadratic characters above 134210382 Thu Dec 18 19:48:09 2014 building initial matrix Thu Dec 18 19:48:15 2014 memory use: 161.5 MB Thu Dec 18 19:48:15 2014 read 422245 cycles Thu Dec 18 19:48:15 2014 matrix is 422068 x 422245 (126.5 MB) with weight 38360473 (90.85/col) Thu Dec 18 19:48:15 2014 sparse part has weight 28522720 (67.55/col) Thu Dec 18 19:48:17 2014 filtering completed in 2 passes Thu Dec 18 19:48:17 2014 matrix is 421990 x 422167 (126.5 MB) with weight 38357841 (90.86/col) Thu Dec 18 19:48:17 2014 sparse part has weight 28521998 (67.56/col) Thu Dec 18 19:48:18 2014 matrix starts at (0, 0) Thu Dec 18 19:48:18 2014 matrix is 421990 x 422167 (126.5 MB) with weight 38357841 (90.86/col) Thu Dec 18 19:48:18 2014 sparse part has weight 28521998 (67.56/col) Thu Dec 18 19:48:18 2014 saving the first 48 matrix rows for later Thu Dec 18 19:48:18 2014 matrix includes 64 packed rows Thu Dec 18 19:48:18 2014 matrix is 421942 x 422167 (119.6 MB) with weight 30023661 (71.12/col) Thu Dec 18 19:48:18 2014 sparse part has weight 27126735 (64.26/col) Thu Dec 18 19:48:18 2014 using block size 65536 for processor cache size 8192 kB Thu Dec 18 19:48:19 2014 commencing Lanczos iteration (8 threads) Thu Dec 18 19:48:19 2014 memory use: 115.3 MB Thu Dec 18 19:48:26 2014 linear algebra at 2.9%, ETA 0h 3m Thu Dec 18 19:52:40 2014 lanczos halted after 6674 iterations (dim = 421940) Thu Dec 18 19:52:40 2014 recovered 37 nontrivial dependencies Thu Dec 18 19:52:40 2014 BLanczosTime: 285 Thu Dec 18 19:52:40 2014 Thu Dec 18 19:52:40 2014 commencing square root phase Thu Dec 18 19:52:40 2014 reading relations for dependency 1 Thu Dec 18 19:52:40 2014 read 211210 cycles Thu Dec 18 19:52:40 2014 cycles contain 649554 unique relations Thu Dec 18 19:52:48 2014 read 649554 relations Thu Dec 18 19:52:49 2014 multiplying 649554 relations Thu Dec 18 19:52:58 2014 multiply complete, coefficients have about 15.66 million bits Thu Dec 18 19:52:58 2014 initial square root is modulo 999332441 Thu Dec 18 19:53:09 2014 GCD is 1, no factor found Thu Dec 18 19:53:09 2014 reading relations for dependency 2 Thu Dec 18 19:53:09 2014 read 210728 cycles Thu Dec 18 19:53:09 2014 cycles contain 648266 unique relations Thu Dec 18 19:53:17 2014 read 648266 relations Thu Dec 18 19:53:18 2014 multiplying 648266 relations Thu Dec 18 19:53:27 2014 multiply complete, coefficients have about 15.63 million bits Thu Dec 18 19:53:27 2014 initial square root is modulo 959282971 Thu Dec 18 19:53:38 2014 GCD is 1, no factor found Thu Dec 18 19:53:38 2014 reading relations for dependency 3 Thu Dec 18 19:53:38 2014 read 210960 cycles Thu Dec 18 19:53:38 2014 cycles contain 649150 unique relations Thu Dec 18 19:53:45 2014 read 649150 relations Thu Dec 18 19:53:47 2014 multiplying 649150 relations Thu Dec 18 19:53:56 2014 multiply complete, coefficients have about 15.65 million bits Thu Dec 18 19:53:56 2014 initial square root is modulo 986381521 Thu Dec 18 19:54:07 2014 sqrtTime: 87 -- n: 5448772731702399539022868927693370607284527371120438626250070035913679683634871236763709629641974934683315033686346672950035214617 m: 10000000000000000000000000000000 deg: 5 c5: 10 c0: 89 skew: 1.55 # Murphy_E = 8.916e-10 type: snfs lss: 1 rlim: 2800000 alim: 2800000 lpbr: 27 lpba: 27 mfbr: 50 mfba: 50 rlambda: 2.4 alambda: 2.4 |
software ソフトウェア | yafu v1.34.3 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:45 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 45 秒 (日本時間) |
name 名前 | Serge Batalov |
---|---|
date 日付 | December 11, 2014 01:31:35 UTC 2014 年 12 月 11 日 (木) 10 時 31 分 35 秒 (日本時間) |
composite number 合成数 | 3853435356887842295845958150921337126655098653725289364094537100297600812612448060508183347995654866291573269027204097589021100255983710758059363713047<151> |
prime factors 素因数 | 1489720864253973130148577416211293<34> 2586682813775033740099368754671507536071687699826380691525486850186805225249297886556306432145938937606863975369381379<118> |
factorization results 素因数分解の結果 | Input number is 3853435356887842295845958150921337126655098653725289364094537100297600812612448060508183347995654866291573269027204097589021100255983710758059363713047 (151 digits) Using B1=3000000, B2=11414255590, polynomial Dickson(12), sigma=1847784143 Step 1 took 9233ms ********** Factor found in step 1: 1489720864253973130148577416211293 Found probable prime factor of 34 digits: 1489720864253973130148577416211293 Probable prime cofactor 2586682813775033740099368754671507536071687699826380691525486850186805225249297886556306432145938937606863975369381379 has 118 digits |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:46 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 46 秒 (日本時間) |
name 名前 | Cyp |
---|---|
date 日付 | December 17, 2014 15:59:08 UTC 2014 年 12 月 18 日 (木) 0 時 59 分 8 秒 (日本時間) |
composite number 合成数 | 12146312433397368936360587577099195212460070517511755926977322930699126765134011337625391433075604847395036508946854103644964239533490729<137> |
prime factors 素因数 | 2294787091386889302912308996150305697893299180334417077799693<61> 5293001899386038999290150473775918499747616669518963604964085329061458599053<76> |
factorization results 素因数分解の結果 | 12/17/14 14:34:16 v1.34.3, 12/17/14 14:34:16 v1.34.3, **************************** 12/17/14 14:34:16 v1.34.3, Starting factorization of 12146312433397368936360587577099195212460070517511755926977322930699126765134011337625391433075604847395036508946854103644964239533490729 12/17/14 14:34:16 v1.34.3, using pretesting plan: none 12/17/14 14:34:16 v1.34.3, no tune info: using qs/gnfs crossover of 95 digits 12/17/14 14:34:16 v1.34.3, **************************** 12/17/14 14:34:16 v1.34.3, nfs: commencing nfs on c137: 12146312433397368936360587577099195212460070517511755926977322930699126765134011337625391433075604847395036508946854103644964239533490729 12/17/14 14:34:16 v1.34.3, nfs: continuing with sieving - could not determine last special q; using default startq 12/17/14 14:34:16 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/17/14 14:35:25 v1.34.3, nfs: commencing lattice sieving with 8 threads [111 lines snipped] 12/17/14 16:49:33 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/17/14 16:50:44 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/17/14 16:51:57 v1.34.3, nfs: commencing msieve filtering 12/17/14 16:53:40 v1.34.3, nfs: commencing msieve linear algebra 12/17/14 16:58:31 v1.34.3, nfs: commencing msieve sqrt 12/17/14 16:59:07 v1.34.3, prp61 = 2294787091386889302912308996150305697893299180334417077799693 12/17/14 16:59:07 v1.34.3, prp76 = 5293001899386038999290150473775918499747616669518963604964085329061458599053 12/17/14 16:59:07 v1.34.3, NFS elapsed time = 8691.4492 seconds. 12/17/14 16:59:07 v1.34.3, 12/17/14 16:59:07 v1.34.3, 12/17/14 16:59:07 v1.34.3, Total factoring time = 8691.4499 seconds -- Wed Dec 17 16:51:57 2014 Wed Dec 17 16:51:57 2014 commencing relation filtering Wed Dec 17 16:51:57 2014 estimated available RAM is 15987.3 MB Wed Dec 17 16:51:57 2014 commencing duplicate removal, pass 1 Wed Dec 17 16:52:25 2014 found 1616719 hash collisions in 10102403 relations Wed Dec 17 16:52:33 2014 added 356289 free relations Wed Dec 17 16:52:33 2014 commencing duplicate removal, pass 2 Wed Dec 17 16:52:41 2014 found 1267539 duplicates and 9191153 unique relations Wed Dec 17 16:52:41 2014 memory use: 41.3 MB Wed Dec 17 16:52:41 2014 reading ideals above 100000 Wed Dec 17 16:52:41 2014 commencing singleton removal, initial pass Wed Dec 17 16:53:21 2014 memory use: 188.2 MB Wed Dec 17 16:53:21 2014 reading all ideals from disk Wed Dec 17 16:53:21 2014 memory use: 310.9 MB Wed Dec 17 16:53:21 2014 keeping 9584223 ideals with weight <= 200, target excess is 46050 Wed Dec 17 16:53:22 2014 commencing in-memory singleton removal Wed Dec 17 16:53:22 2014 begin with 9191153 relations and 9584223 unique ideals Wed Dec 17 16:53:24 2014 reduce to 4250559 relations and 3487456 ideals in 12 passes Wed Dec 17 16:53:24 2014 max relations containing the same ideal: 123 Wed Dec 17 16:53:25 2014 removing 1218248 relations and 863405 ideals in 354843 cliques Wed Dec 17 16:53:26 2014 commencing in-memory singleton removal Wed Dec 17 16:53:26 2014 begin with 3032311 relations and 3487456 unique ideals Wed Dec 17 16:53:27 2014 reduce to 2795392 relations and 2362459 ideals in 8 passes Wed Dec 17 16:53:27 2014 max relations containing the same ideal: 94 Wed Dec 17 16:53:27 2014 removing 1020178 relations and 665335 ideals in 354843 cliques Wed Dec 17 16:53:27 2014 commencing in-memory singleton removal Wed Dec 17 16:53:28 2014 begin with 1775214 relations and 2362459 unique ideals Wed Dec 17 16:53:28 2014 reduce to 1568326 relations and 1462931 ideals in 8 passes Wed Dec 17 16:53:28 2014 max relations containing the same ideal: 59 Wed Dec 17 16:53:28 2014 removing 216785 relations and 164808 ideals in 51977 cliques Wed Dec 17 16:53:28 2014 commencing in-memory singleton removal Wed Dec 17 16:53:28 2014 begin with 1351541 relations and 1462931 unique ideals Wed Dec 17 16:53:29 2014 reduce to 1328864 relations and 1274659 ideals in 6 passes Wed Dec 17 16:53:29 2014 max relations containing the same ideal: 53 Wed Dec 17 16:53:29 2014 relations with 0 large ideals: 1041 Wed Dec 17 16:53:29 2014 relations with 1 large ideals: 684 Wed Dec 17 16:53:29 2014 relations with 2 large ideals: 10269 Wed Dec 17 16:53:29 2014 relations with 3 large ideals: 63537 Wed Dec 17 16:53:29 2014 relations with 4 large ideals: 200985 Wed Dec 17 16:53:29 2014 relations with 5 large ideals: 356036 Wed Dec 17 16:53:29 2014 relations with 6 large ideals: 379405 Wed Dec 17 16:53:29 2014 relations with 7+ large ideals: 316907 Wed Dec 17 16:53:29 2014 commencing 2-way merge Wed Dec 17 16:53:29 2014 reduce to 838266 relation sets and 784061 unique ideals Wed Dec 17 16:53:29 2014 commencing full merge Wed Dec 17 16:53:37 2014 memory use: 100.8 MB Wed Dec 17 16:53:37 2014 found 433970 cycles, need 426261 Wed Dec 17 16:53:37 2014 weight of 426261 cycles is about 29889740 (70.12/cycle) Wed Dec 17 16:53:37 2014 distribution of cycle lengths: Wed Dec 17 16:53:37 2014 1 relations: 29938 Wed Dec 17 16:53:37 2014 2 relations: 40420 Wed Dec 17 16:53:37 2014 3 relations: 45727 Wed Dec 17 16:53:37 2014 4 relations: 45372 Wed Dec 17 16:53:37 2014 5 relations: 44540 Wed Dec 17 16:53:37 2014 6 relations: 41383 Wed Dec 17 16:53:37 2014 7 relations: 37243 Wed Dec 17 16:53:37 2014 8 relations: 31862 Wed Dec 17 16:53:37 2014 9 relations: 27212 Wed Dec 17 16:53:37 2014 10+ relations: 82564 Wed Dec 17 16:53:37 2014 heaviest cycle: 21 relations Wed Dec 17 16:53:37 2014 commencing cycle optimization Wed Dec 17 16:53:38 2014 start with 2666987 relations Wed Dec 17 16:53:40 2014 pruned 82018 relations Wed Dec 17 16:53:40 2014 memory use: 82.2 MB Wed Dec 17 16:53:40 2014 distribution of cycle lengths: Wed Dec 17 16:53:40 2014 1 relations: 29938 Wed Dec 17 16:53:40 2014 2 relations: 41277 Wed Dec 17 16:53:40 2014 3 relations: 47454 Wed Dec 17 16:53:40 2014 4 relations: 46940 Wed Dec 17 16:53:40 2014 5 relations: 46260 Wed Dec 17 16:53:40 2014 6 relations: 42652 Wed Dec 17 16:53:40 2014 7 relations: 38269 Wed Dec 17 16:53:40 2014 8 relations: 32345 Wed Dec 17 16:53:40 2014 9 relations: 27164 Wed Dec 17 16:53:40 2014 10+ relations: 73962 Wed Dec 17 16:53:40 2014 heaviest cycle: 20 relations Wed Dec 17 16:53:40 2014 RelProcTime: 103 Wed Dec 17 16:53:40 2014 Wed Dec 17 16:53:40 2014 commencing linear algebra Wed Dec 17 16:53:40 2014 read 426261 cycles Wed Dec 17 16:53:41 2014 cycles contain 1293110 unique relations Wed Dec 17 16:53:50 2014 read 1293110 relations Wed Dec 17 16:53:51 2014 using 20 quadratic characters above 134215818 Wed Dec 17 16:53:55 2014 building initial matrix Wed Dec 17 16:54:01 2014 memory use: 163.5 MB Wed Dec 17 16:54:02 2014 read 426261 cycles Wed Dec 17 16:54:02 2014 matrix is 426084 x 426261 (126.8 MB) with weight 38777076 (90.97/col) Wed Dec 17 16:54:02 2014 sparse part has weight 28537926 (66.95/col) Wed Dec 17 16:54:03 2014 filtering completed in 2 passes Wed Dec 17 16:54:03 2014 matrix is 425996 x 426173 (126.7 MB) with weight 38773332 (90.98/col) Wed Dec 17 16:54:03 2014 sparse part has weight 28536367 (66.96/col) Wed Dec 17 16:54:04 2014 matrix starts at (0, 0) Wed Dec 17 16:54:04 2014 matrix is 425996 x 426173 (126.7 MB) with weight 38773332 (90.98/col) Wed Dec 17 16:54:04 2014 sparse part has weight 28536367 (66.96/col) Wed Dec 17 16:54:04 2014 saving the first 48 matrix rows for later Wed Dec 17 16:54:04 2014 matrix includes 64 packed rows Wed Dec 17 16:54:04 2014 matrix is 425948 x 426173 (120.3 MB) with weight 30402993 (71.34/col) Wed Dec 17 16:54:04 2014 sparse part has weight 27286660 (64.03/col) Wed Dec 17 16:54:04 2014 using block size 65536 for processor cache size 8192 kB Wed Dec 17 16:54:05 2014 commencing Lanczos iteration (8 threads) Wed Dec 17 16:54:05 2014 memory use: 115.6 MB Wed Dec 17 16:54:13 2014 linear algebra at 2.8%, ETA 0h 4m Wed Dec 17 16:58:30 2014 lanczos halted after 6736 iterations (dim = 425948) Wed Dec 17 16:58:31 2014 recovered 38 nontrivial dependencies Wed Dec 17 16:58:31 2014 BLanczosTime: 291 Wed Dec 17 16:58:31 2014 Wed Dec 17 16:58:31 2014 commencing square root phase Wed Dec 17 16:58:31 2014 reading relations for dependency 1 Wed Dec 17 16:58:31 2014 read 213248 cycles Wed Dec 17 16:58:31 2014 cycles contain 646296 unique relations Wed Dec 17 16:58:39 2014 read 646296 relations Wed Dec 17 16:58:40 2014 multiplying 646296 relations Wed Dec 17 16:58:52 2014 multiply complete, coefficients have about 19.49 million bits Wed Dec 17 16:58:52 2014 initial square root is modulo 395191 Wed Dec 17 16:59:07 2014 sqrtTime: 36 -- n: 12146312433397368936360587577099195212460070517511755926977322930699126765134011337625391433075604847395036508946854103644964239533490729 m: 10000000000000000000000000000000 deg: 5 c5: 1000 c0: 89 skew: 0.62 # Murphy_E = 7.395e-10 type: snfs lss: 1 rlim: 3000000 alim: 3000000 lpbr: 27 lpba: 27 mfbr: 50 mfba: 50 rlambda: 2.4 alambda: 2.4 |
software ソフトウェア | yafu v1.34.3 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:46 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 46 秒 (日本時間) |
name 名前 | Serge Batalov |
---|---|
date 日付 | December 8, 2014 19:30:50 UTC 2014 年 12 月 9 日 (火) 4 時 30 分 50 秒 (日本時間) |
composite number 合成数 | 10101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101010101011<158> |
prime factors 素因数 | 418066928029724197863359794671077<33> 24161227362839683667458959033655950659734541886840843434189294648382573846544556307764273032944390102310914890227627393781143<125> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=11414255590, polynomial Dickson(12), sigma=3473475398 Step 1 took 11041ms ********** Factor found in step 1: 418066928029724197863359794671077 Found probable prime factor of 33 digits: 418066928029724197863359794671077 Probable prime cofactor |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 2320 | Serge Batalov | December 8, 2014 19:27:25 UTC 2014 年 12 月 9 日 (火) 4 時 27 分 25 秒 (日本時間) |
name 名前 | Serge Batalov |
---|---|
date 日付 | December 9, 2014 05:35:20 UTC 2014 年 12 月 9 日 (火) 14 時 35 分 20 秒 (日本時間) |
composite number 合成数 | 1111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111121<160> |
prime factors 素因数 | 507036567746187542160648729747573735524974451321799953<54> 2191382598004866809482485731143672972656373993550352099137056498602568791868927609394469581894796436414657<106> |
factorization results 素因数分解の結果 | Divisors found: r1=507036567746187542160648729747573735524974451321799953 (pp54) r2=2191382598004866809482485731143672972656373993550352099137056498602568791868927609394469581894796436414657 (pp106) Version: Msieve v. 1.51 (SVN 719M) Total time: 10.33 hours. Scaled time: 24.80 units (timescale=2.400). Factorization parameters were as follows: n: 1111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111121 m: 100000000000000000000000000000000 deg: 5 c5: 1 c0: 89 skew: 2.45 # Murphy_E = 8.632e-10 type: snfs lss: 1 rlim: 3200000 alim: 3200000 lpbr: 27 lpba: 27 mfbr: 51 mfba: 51 rlambda: 2.4 alambda: 2.4 Factor base limits: 3200000/3200000 Large primes per side: 3 Large prime bits: 27/27 Max factor residue bits: 51/51 Sieved rational special-q in [1600000, 2600001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 429284 x 429509 Total sieving time: 10.14 hours. Total relation processing time: 0.07 hours. Matrix solve time: 0.09 hours. Time per square root: 0.03 hours. Prototype def-par.txt line would be: snfs,160.000,5,0,0,0,0,0,0,0,0,3200000,3200000,27,27,51,51,2.4,2.4,100000 total time: 10.33 hours. |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 2320 | Serge Batalov | December 8, 2014 19:27:26 UTC 2014 年 12 月 9 日 (火) 4 時 27 分 26 秒 (日本時間) |
name 名前 | Cyp |
---|---|
date 日付 | December 16, 2014 10:59:27 UTC 2014 年 12 月 16 日 (火) 19 時 59 分 27 秒 (日本時間) |
composite number 合成数 | 505981071620944341158926377599079219737931476266611282912017110419693401374279138494138667794842124619524143550902476876736055116281229874508670033<147> |
prime factors 素因数 | 7077420257394526886699862503819680007120138928995743723023561459031374737<73> 71492302734501683208167210263998261933781412684453825797834508325358550209<74> |
factorization results 素因数分解の結果 | 12/16/14 08:48:23 v1.34.3, 12/16/14 08:48:23 v1.34.3, **************************** 12/16/14 08:48:23 v1.34.3, Starting factorization of 505981071620944341158926377599079219737931476266611282912017110419693401374279138494138667794842124619524143550902476876736055116281229874508670033 12/16/14 08:48:23 v1.34.3, using pretesting plan: none 12/16/14 08:48:23 v1.34.3, no tune info: using qs/gnfs crossover of 95 digits 12/16/14 08:48:23 v1.34.3, **************************** 12/16/14 08:48:23 v1.34.3, nfs: commencing nfs on c147: 505981071620944341158926377599079219737931476266611282912017110419693401374279138494138667794842124619524143550902476876736055116281229874508670033 12/16/14 08:48:23 v1.34.3, nfs: continuing with sieving - could not determine last special q; using default startq 12/16/14 08:48:23 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/16/14 08:56:48 v1.34.3, nfs: commencing lattice sieving with 8 threads [34 lines snipped] 12/16/14 11:40:30 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/16/14 11:45:01 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/16/14 11:49:36 v1.34.3, nfs: commencing msieve filtering 12/16/14 11:51:26 v1.34.3, nfs: commencing msieve linear algebra 12/16/14 11:58:08 v1.34.3, nfs: commencing msieve sqrt 12/16/14 11:59:26 v1.34.3, prp73 = 7077420257394526886699862503819680007120138928995743723023561459031374737 12/16/14 11:59:26 v1.34.3, prp74 = 71492302734501683208167210263998261933781412684453825797834508325358550209 12/16/14 11:59:26 v1.34.3, NFS elapsed time = 11462.8116 seconds. 12/16/14 11:59:26 v1.34.3, 12/16/14 11:59:26 v1.34.3, 12/16/14 11:59:26 v1.34.3, Total factoring time = 11462.8124 seconds -- Tue Dec 16 11:49:36 2014 Tue Dec 16 11:49:36 2014 commencing relation filtering Tue Dec 16 11:49:36 2014 estimated available RAM is 15987.3 MB Tue Dec 16 11:49:36 2014 commencing duplicate removal, pass 1 Tue Dec 16 11:50:04 2014 found 1286346 hash collisions in 10266114 relations Tue Dec 16 11:50:12 2014 added 366155 free relations Tue Dec 16 11:50:12 2014 commencing duplicate removal, pass 2 Tue Dec 16 11:50:20 2014 found 786032 duplicates and 9846237 unique relations Tue Dec 16 11:50:20 2014 memory use: 41.3 MB Tue Dec 16 11:50:20 2014 reading ideals above 100000 Tue Dec 16 11:50:20 2014 commencing singleton removal, initial pass Tue Dec 16 11:51:03 2014 memory use: 344.5 MB Tue Dec 16 11:51:03 2014 reading all ideals from disk Tue Dec 16 11:51:03 2014 memory use: 346.0 MB Tue Dec 16 11:51:03 2014 keeping 10320292 ideals with weight <= 200, target excess is 51481 Tue Dec 16 11:51:04 2014 commencing in-memory singleton removal Tue Dec 16 11:51:04 2014 begin with 9846237 relations and 10320292 unique ideals Tue Dec 16 11:51:07 2014 reduce to 4549113 relations and 3894603 ideals in 13 passes Tue Dec 16 11:51:07 2014 max relations containing the same ideal: 123 Tue Dec 16 11:51:08 2014 removing 1193106 relations and 895710 ideals in 297396 cliques Tue Dec 16 11:51:08 2014 commencing in-memory singleton removal Tue Dec 16 11:51:08 2014 begin with 3356007 relations and 3894603 unique ideals Tue Dec 16 11:51:10 2014 reduce to 3112080 relations and 2734664 ideals in 9 passes Tue Dec 16 11:51:10 2014 max relations containing the same ideal: 94 Tue Dec 16 11:51:10 2014 removing 978700 relations and 681304 ideals in 297396 cliques Tue Dec 16 11:51:11 2014 commencing in-memory singleton removal Tue Dec 16 11:51:11 2014 begin with 2133380 relations and 2734664 unique ideals Tue Dec 16 11:51:11 2014 reduce to 1912909 relations and 1811012 ideals in 11 passes Tue Dec 16 11:51:11 2014 max relations containing the same ideal: 68 Tue Dec 16 11:51:12 2014 removing 220324 relations and 178145 ideals in 42179 cliques Tue Dec 16 11:51:12 2014 commencing in-memory singleton removal Tue Dec 16 11:51:12 2014 begin with 1692585 relations and 1811012 unique ideals Tue Dec 16 11:51:12 2014 reduce to 1674304 relations and 1614232 ideals in 7 passes Tue Dec 16 11:51:12 2014 max relations containing the same ideal: 63 Tue Dec 16 11:51:13 2014 relations with 0 large ideals: 1137 Tue Dec 16 11:51:13 2014 relations with 1 large ideals: 460 Tue Dec 16 11:51:13 2014 relations with 2 large ideals: 7429 Tue Dec 16 11:51:13 2014 relations with 3 large ideals: 53709 Tue Dec 16 11:51:13 2014 relations with 4 large ideals: 196608 Tue Dec 16 11:51:13 2014 relations with 5 large ideals: 403665 Tue Dec 16 11:51:13 2014 relations with 6 large ideals: 498648 Tue Dec 16 11:51:13 2014 relations with 7+ large ideals: 512648 Tue Dec 16 11:51:13 2014 commencing 2-way merge Tue Dec 16 11:51:13 2014 reduce to 1001503 relation sets and 941431 unique ideals Tue Dec 16 11:51:13 2014 commencing full merge Tue Dec 16 11:51:22 2014 memory use: 119.6 MB Tue Dec 16 11:51:22 2014 found 507720 cycles, need 499631 Tue Dec 16 11:51:22 2014 weight of 499631 cycles is about 35313542 (70.68/cycle) Tue Dec 16 11:51:22 2014 distribution of cycle lengths: Tue Dec 16 11:51:22 2014 1 relations: 50472 Tue Dec 16 11:51:22 2014 2 relations: 48554 Tue Dec 16 11:51:22 2014 3 relations: 51103 Tue Dec 16 11:51:22 2014 4 relations: 50023 Tue Dec 16 11:51:22 2014 5 relations: 48047 Tue Dec 16 11:51:22 2014 6 relations: 44672 Tue Dec 16 11:51:22 2014 7 relations: 40978 Tue Dec 16 11:51:22 2014 8 relations: 35848 Tue Dec 16 11:51:22 2014 9 relations: 30086 Tue Dec 16 11:51:22 2014 10+ relations: 99848 Tue Dec 16 11:51:22 2014 heaviest cycle: 20 relations Tue Dec 16 11:51:23 2014 commencing cycle optimization Tue Dec 16 11:51:23 2014 start with 3084608 relations Tue Dec 16 11:51:25 2014 pruned 81624 relations Tue Dec 16 11:51:25 2014 memory use: 99.5 MB Tue Dec 16 11:51:25 2014 distribution of cycle lengths: Tue Dec 16 11:51:25 2014 1 relations: 50472 Tue Dec 16 11:51:25 2014 2 relations: 49503 Tue Dec 16 11:51:25 2014 3 relations: 52730 Tue Dec 16 11:51:25 2014 4 relations: 51402 Tue Dec 16 11:51:25 2014 5 relations: 49722 Tue Dec 16 11:51:25 2014 6 relations: 45995 Tue Dec 16 11:51:25 2014 7 relations: 41876 Tue Dec 16 11:51:25 2014 8 relations: 36122 Tue Dec 16 11:51:25 2014 9 relations: 30097 Tue Dec 16 11:51:25 2014 10+ relations: 91712 Tue Dec 16 11:51:25 2014 heaviest cycle: 20 relations Tue Dec 16 11:51:26 2014 RelProcTime: 110 Tue Dec 16 11:51:26 2014 Tue Dec 16 11:51:26 2014 commencing linear algebra Tue Dec 16 11:51:26 2014 read 499631 cycles Tue Dec 16 11:51:27 2014 cycles contain 1629813 unique relations Tue Dec 16 11:51:36 2014 read 1629813 relations Tue Dec 16 11:51:37 2014 using 20 quadratic characters above 134214894 Tue Dec 16 11:51:42 2014 building initial matrix Tue Dec 16 11:51:50 2014 memory use: 200.3 MB Tue Dec 16 11:51:51 2014 read 499631 cycles Tue Dec 16 11:51:51 2014 matrix is 499459 x 499631 (150.1 MB) with weight 45292947 (90.65/col) Tue Dec 16 11:51:51 2014 sparse part has weight 33842645 (67.74/col) Tue Dec 16 11:51:53 2014 filtering completed in 2 passes Tue Dec 16 11:51:53 2014 matrix is 499242 x 499418 (150.0 MB) with weight 45285967 (90.68/col) Tue Dec 16 11:51:53 2014 sparse part has weight 33840558 (67.76/col) Tue Dec 16 11:51:54 2014 matrix starts at (0, 0) Tue Dec 16 11:51:54 2014 matrix is 499242 x 499418 (150.0 MB) with weight 45285967 (90.68/col) Tue Dec 16 11:51:54 2014 sparse part has weight 33840558 (67.76/col) Tue Dec 16 11:51:54 2014 saving the first 48 matrix rows for later Tue Dec 16 11:51:54 2014 matrix includes 64 packed rows Tue Dec 16 11:51:54 2014 matrix is 499194 x 499418 (142.0 MB) with weight 35549467 (71.18/col) Tue Dec 16 11:51:54 2014 sparse part has weight 32239495 (64.55/col) Tue Dec 16 11:51:54 2014 using block size 65536 for processor cache size 8192 kB Tue Dec 16 11:51:55 2014 commencing Lanczos iteration (8 threads) Tue Dec 16 11:51:55 2014 memory use: 137.7 MB Tue Dec 16 11:52:04 2014 linear algebra at 2.4%, ETA 0h 6m Tue Dec 16 11:58:08 2014 lanczos halted after 7895 iterations (dim = 499194) Tue Dec 16 11:58:08 2014 recovered 38 nontrivial dependencies Tue Dec 16 11:58:08 2014 BLanczosTime: 402 Tue Dec 16 11:58:08 2014 Tue Dec 16 11:58:08 2014 commencing square root phase Tue Dec 16 11:58:08 2014 reading relations for dependency 1 Tue Dec 16 11:58:08 2014 read 249918 cycles Tue Dec 16 11:58:08 2014 cycles contain 816166 unique relations Tue Dec 16 11:58:16 2014 read 816166 relations Tue Dec 16 11:58:18 2014 multiplying 816166 relations Tue Dec 16 11:58:31 2014 multiply complete, coefficients have about 20.42 million bits Tue Dec 16 11:58:31 2014 initial square root is modulo 733741 Tue Dec 16 11:58:47 2014 GCD is N, no factor found Tue Dec 16 11:58:47 2014 reading relations for dependency 2 Tue Dec 16 11:58:47 2014 read 249754 cycles Tue Dec 16 11:58:47 2014 cycles contain 815904 unique relations Tue Dec 16 11:58:55 2014 read 815904 relations Tue Dec 16 11:58:57 2014 multiplying 815904 relations Tue Dec 16 11:59:10 2014 multiply complete, coefficients have about 20.42 million bits Tue Dec 16 11:59:10 2014 initial square root is modulo 730781 Tue Dec 16 11:59:26 2014 sqrtTime: 78 -- n: 505981071620944341158926377599079219737931476266611282912017110419693401374279138494138667794842124619524143550902476876736055116281229874508670033 m: 100000000000000000000000000000000 deg: 5 c5: 10 c0: 89 skew: 1.55 # Murphy_E = 5.716e-10 type: snfs lss: 1 rlim: 3400000 alim: 3400000 lpbr: 27 lpba: 27 mfbr: 51 mfba: 51 rlambda: 2.4 alambda: 2.4 |
software ソフトウェア | yafu v1.34.3 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:46 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 46 秒 (日本時間) |
name 名前 | Jo Yeong Uk |
---|---|
date 日付 | January 3, 2015 09:28:51 UTC 2015 年 1 月 3 日 (土) 18 時 28 分 51 秒 (日本時間) |
composite number 合成数 | 121735644101722652186733166426015135441205807481926067490189768714303175842368674984224246092216600340784079332907007631351754550978913727943<141> |
prime factors 素因数 | 1847432721526064641426435250289837949897<40> 65894493847204024329407413119514366333267280546275647392960939605788315629501580534436314562250216719<101> |
factorization results 素因数分解の結果 | Number: 11121_162 N=121735644101722652186733166426015135441205807481926067490189768714303175842368674984224246092216600340784079332907007631351754550978913727943 ( 141 digits) SNFS difficulty: 162 digits. Divisors found: r1=1847432721526064641426435250289837949897 r2=65894493847204024329407413119514366333267280546275647392960939605788315629501580534436314562250216719 Version: Total time: 7.31 hours. Scaled time: 38.35 units (timescale=5.249). Factorization parameters were as follows: n: 121735644101722652186733166426015135441205807481926067490189768714303175842368674984224246092216600340784079332907007631351754550978913727943 m: 100000000000000000000000000000000 deg: 5 c5: 100 c0: 89 skew: 0.98 # Murphy_E = 6.595e-10 type: snfs lss: 1 rlim: 3600000 alim: 3600000 lpbr: 27 lpba: 27 mfbr: 51 mfba: 51 rlambda: 2.4 alambda: 2.4 Factor base limits: 3600000/3600000 Large primes per side: 3 Large prime bits: 27/27 Max factor residue bits: 51/51 Sieved rational special-q in [1800000, 2775001) Primes: rational ideals reading, algebraic ideals reading, Relations: 8986424 Max relations in full relation-set: Initial matrix: Pruned matrix : 587971 x 588219 Total sieving time: 6.62 hours. Total relation processing time: 0.29 hours. Matrix solve time: 0.32 hours. Time per square root: 0.07 hours. Prototype def-par.txt line would be: snfs,162,5,0,0,0,0,0,0,0,0,3600000,3600000,27,27,51,51,2.4,2.4,75000 total time: 7.31 hours. --------- CPU info (if available) ---------- CPU0: Intel(R) Core(TM) i7-4930K CPU @ 3.40GHz stepping 04 Memory: 49373664k/51380224k available (5220k kernel code, 1086460k absent, 920100k reserved, 7121k data, 1264k init) Calibrating delay loop (skipped), value calculated using timer frequency.. 6799.88 BogoMIPS (lpj=3399941) Total of 12 processors activated (81598.58 BogoMIPS). |
software ソフトウェア | GGNFS / Msieve v1.39 |
execution environment 実行環境 | Core i7-4930K |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:47 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 47 秒 (日本時間) |
name 名前 | Robert Backstrom |
---|---|
date 日付 | January 7, 2015 16:59:09 UTC 2015 年 1 月 8 日 (木) 1 時 59 分 9 秒 (日本時間) |
composite number 合成数 | 239027770066034273454381884708793906912858127682541685207769421236369654922916041042067299583423927353944476687912128222142676876899<132> |
prime factors 素因数 | 19219961135878697885427553439064242535825735835150531<53> 12436433579453562488478768713590475091473127548781220435552134325488680011266529<80> |
factorization results 素因数分解の結果 | Number: n N=239027770066034273454381884708793906912858127682541685207769421236369654922916041042067299583423927353944476687912128222142676876899 ( 132 digits) SNFS difficulty: 165 digits. Divisors found: Thu Jan 8 03:55:46 2015 prp53 factor: 19219961135878697885427553439064242535825735835150531 Thu Jan 8 03:55:46 2015 prp80 factor: 12436433579453562488478768713590475091473127548781220435552134325488680011266529 Thu Jan 8 03:55:46 2015 elapsed time 00:29:20 (Msieve 1.44 - dependency 7) Version: GGNFS-0.77.1-20060513-nocona Total time: 0.00 hours. Scaled time: 0.00 units (timescale=1.367). Factorization parameters were as follows: # # N = 10^165+89 1(163)21 # n: 239027770066034273454381884708793906912858127682541685207769421236369654922916041042067299583423927353944476687912128222142676876899 m: 1000000000000000000000000000000000 deg: 5 c5: 1 c0: 89 skew: 2.45 # Murphy_E = 5.509e-10 type: snfs lss: 1 rlim: 3900000 alim: 3900000 lpbr: 27 lpba: 27 mfbr: 51 mfba: 51 rlambda: 2.4 alambda: 2.4 Factor base limits: 3900000/3900000 Large primes per side: 3 Large prime bits: 27/27 Max factor residue bits: 51/51 Sieved special-q in [100000, 3550000) Primes: RFBsize:276611, AFBsize:276164, Relations: Max relations in full relation-set: 28 Initial matrix: Pruned matrix : Msieve: found 1315454 hash collisions in 12638265 relations (12083076 unique) Msieve: matrix is 437159 x 437385 (122.7 MB) Total sieving time: 0.00 hours. Total relation processing time: 0hrs 13min 9sec. Matrix solve time: 0.00 hours. Total square root time: 0hrs 12min 57sec. Prototype def-par.txt line would be: snfs,165,5,0,0,0,0,0,0,0,0,3900000,3900000,27,27,51,51,2.4,2.4,100000 total time: 0.00 hours. --------- CPU info (if available) ---------- CPU0: Intel(R) Core(TM) i7 CPU 950 @ 3.07GHz stepping 05 CPU1: Intel(R) Core(TM) i7 CPU 950 @ 3.07GHz stepping 05 CPU2: Intel(R) Core(TM) i7 CPU 950 @ 3.07GHz stepping 05 CPU3: Intel(R) Core(TM) i7 CPU 950 @ 3.07GHz stepping 05 CPU4: Intel(R) Core(TM) i7 CPU 950 @ 3.07GHz stepping 05 CPU5: Intel(R) Core(TM) i7 CPU 950 @ 3.07GHz stepping 05 CPU6: Intel(R) Core(TM) i7 CPU 950 @ 3.07GHz stepping 05 CPU7: Intel(R) Core(TM) i7 CPU 950 @ 3.07GHz stepping 05 Memory: 6059548k/6815744k available (3972k kernel code, 525892k absent, 230304k reserved, 2498k data, 1292k init) Calibrating delay loop (skipped), value calculated using timer frequency.. 6206.79 BogoMIPS (lpj=3103397) Calibrating delay using timer specific routine.. 6205.99 BogoMIPS (lpj=3102996) Calibrating delay using timer specific routine.. 6206.00 BogoMIPS (lpj=3103003) Calibrating delay using timer specific routine.. 6205.99 BogoMIPS (lpj=3102996) Calibrating delay using timer specific routine.. 6205.98 BogoMIPS (lpj=3102992) Calibrating delay using timer specific routine.. 6205.99 BogoMIPS (lpj=3102997) Calibrating delay using timer specific routine.. 6205.99 BogoMIPS (lpj=3102995) Calibrating delay using timer specific routine.. 6205.98 BogoMIPS (lpj=3102990) Total of 8 processors activated (49648.73 BogoMIPS). |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:47 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 47 秒 (日本時間) |
name 名前 | Serge Batalov |
---|---|
date 日付 | December 17, 2014 22:20:46 UTC 2014 年 12 月 18 日 (木) 7 時 20 分 46 秒 (日本時間) |
composite number 合成数 | 64845856885819108135383742709405022079496539234193621196690064506877470902498193345814830924594134071590042332416139343781657133721863622331<140> |
prime factors 素因数 | 178523619388660563657934436941514119<36> 363234047729249530871209594976807887639708993256958608976876703514683116846567725399019717782900298709549<105> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=11414255590, polynomial Dickson(12), sigma=1158463843 Step 1 took 9327ms Step 2 took 7478ms ********** Factor found in step 2: 178523619388660563657934436941514119 Found probable prime factor of 36 digits: 178523619388660563657934436941514119 Probable prime cofactor |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:48 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 48 秒 (日本時間) |
name 名前 | Serge Batalov |
---|---|
date 日付 | December 11, 2014 01:31:39 UTC 2014 年 12 月 11 日 (木) 10 時 31 分 39 秒 (日本時間) |
composite number 合成数 | 21166556864193771137177951816960397298020122783719944255511571926448791331714606417949226165226565370181567040037868759803159164928018445012270009680260434827<158> |
prime factors 素因数 | 6006958935223296693109181915607469<34> |
composite cofactor 合成数の残り | 3523672642421176579680748266090062595457893514962820825040116687202868090858254028940984384022492076573999037664599928572183<124> |
factorization results 素因数分解の結果 | Input number is 21166556864193771137177951816960397298020122783719944255511571926448791331714606417949226165226565370181567040037868759803159164928018445012270009680260434827 (158 digits) Using B1=3000000, B2=11414255590, polynomial Dickson(12), sigma=1784802931 Step 1 took 11005ms ********** Factor found in step 1: 6006958935223296693109181915607469 Found probable prime factor of 34 digits: 6006958935223296693109181915607469 Composite cofactor 3523672642421176579680748266090062595457893514962820825040116687202868090858254028940984384022492076573999037664599928572183 has 124 digits |
name 名前 | Jo Yeong Uk |
---|---|
date 日付 | April 9, 2015 13:39:47 UTC 2015 年 4 月 9 日 (木) 22 時 39 分 47 秒 (日本時間) |
composite number 合成数 | 3523672642421176579680748266090062595457893514962820825040116687202868090858254028940984384022492076573999037664599928572183<124> |
prime factors 素因数 | 2461956012521471705078882374257495241534109039424859767325549<61> 1431249228052747436470139456413891366816930888995990086213019667<64> |
factorization results 素因数分解の結果 | Number: 11121_170 N=3523672642421176579680748266090062595457893514962820825040116687202868090858254028940984384022492076573999037664599928572183 ( 124 digits) SNFS difficulty: 170 digits. Divisors found: r1=2461956012521471705078882374257495241534109039424859767325549 r2=1431249228052747436470139456413891366816930888995990086213019667 Version: Total time: 13.82 hours. Scaled time: 72.50 units (timescale=5.246). Factorization parameters were as follows: n: 3523672642421176579680748266090062595457893514962820825040116687202868090858254028940984384022492076573999037664599928572183 m: 10000000000000000000000000000000000 deg: 5 c5: 1 c0: 89 skew: 2.45 # Murphy_E = 3.499e-10 type: snfs lss: 1 rlim: 5600000 alim: 5600000 lpbr: 27 lpba: 27 mfbr: 52 mfba: 52 rlambda: 2.4 alambda: 2.4 Factor base limits: 5600000/5600000 Large primes per side: 3 Large prime bits: 27/27 Max factor residue bits: 52/52 Sieved rational special-q in [2800000, 4500001) Primes: rational ideals reading, algebraic ideals reading, Relations: 10401933 Max relations in full relation-set: Initial matrix: Pruned matrix : 880774 x 881022 Total sieving time: 12.47 hours. Total relation processing time: 0.44 hours. Matrix solve time: 0.75 hours. Time per square root: 0.16 hours. Prototype def-par.txt line would be: snfs,170,5,0,0,0,0,0,0,0,0,5600000,5600000,27,27,52,52,2.4,2.4,100000 total time: 13.82 hours. --------- CPU info (if available) ---------- CPU0: Intel(R) Core(TM) i7-4930K CPU @ 3.40GHz stepping 04 Memory: 49373664k/51380224k available (5220k kernel code, 1086460k absent, 920100k reserved, 7121k data, 1264k init) Calibrating delay loop (skipped), value calculated using timer frequency.. 6800.24 BogoMIPS (lpj=3400120) Total of 12 processors activated (81602.88 BogoMIPS). |
software ソフトウェア | GGNFS / Msieve v1.39 |
execution environment 実行環境 | Core i7-4930K |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:48 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 48 秒 (日本時間) | |
45 | 11e6 | 600 / 3918 | Pierre Jammes | January 5, 2015 20:55:19 UTC 2015 年 1 月 6 日 (火) 5 時 55 分 19 秒 (日本時間) | |
50 | 43e6 | 140 / 7407 | Pierre Jammes | February 18, 2015 06:47:41 UTC 2015 年 2 月 18 日 (水) 15 時 47 分 41 秒 (日本時間) |
name 名前 | Serge Batalov |
---|---|
date 日付 | December 11, 2014 01:31:42 UTC 2014 年 12 月 11 日 (木) 10 時 31 分 42 秒 (日本時間) |
composite number 合成数 | 26912733648693970287684202814911211766726109204955016553484343443628912074280586542619548193602058832125653545997778311427856253796980551077717423350045337<155> |
prime factors 素因数 | 124746754177523706301896936024194303<36> |
composite cofactor 合成数の残り | 215738949090372262924653430817585114742468402245762145151833713705971863792686454954547968100474388604970223217464651879<120> |
factorization results 素因数分解の結果 | Input number is 26912733648693970287684202814911211766726109204955016553484343443628912074280586542619548193602058832125653545997778311427856253796980551077717423350045337 (155 digits) Using B1=3000000, B2=11414255590, polynomial Dickson(12), sigma=3096814170 Step 1 took 11887ms Step 2 took 2017ms ********** Factor found in step 2: 124746754177523706301896936024194303 Found probable prime factor of 36 digits: 124746754177523706301896936024194303 Composite cofactor 215738949090372262924653430817585114742468402245762145151833713705971863792686454954547968100474388604970223217464651879 has 120 digits |
name 名前 | Cyp |
---|---|
date 日付 | December 13, 2014 03:05:53 UTC 2014 年 12 月 13 日 (土) 12 時 5 分 53 秒 (日本時間) |
composite number 合成数 | 215738949090372262924653430817585114742468402245762145151833713705971863792686454954547968100474388604970223217464651879<120> |
prime factors 素因数 | 20640938525289351614189443926938069902743413<44> 10451993199148775712996928394414115361139488491547927675903170728929146882283<77> |
factorization results 素因数分解の結果 | 12/12/14 23:12:29 v1.34.3, 12/12/14 23:12:29 v1.34.3, **************************** 12/12/14 23:12:29 v1.34.3, Starting factorization of 215738949090372262924653430817585114742468402245762145151833713705971863792686454954547968100474388604970223217464651879 12/12/14 23:12:29 v1.34.3, using pretesting plan: none 12/12/14 23:12:29 v1.34.3, no tune info: using qs/gnfs crossover of 95 digits 12/12/14 23:12:29 v1.34.3, **************************** 12/12/14 23:12:29 v1.34.3, rho: x^2 + 3, starting 1000 iterations on C120 12/12/14 23:12:29 v1.34.3, rho: x^2 + 2, starting 1000 iterations on C120 12/12/14 23:12:29 v1.34.3, rho: x^2 + 1, starting 1000 iterations on C120 12/12/14 23:12:29 v1.34.3, final ECM pretested depth: 0.00 12/12/14 23:12:29 v1.34.3, scheduler: switching to sieve method 12/12/14 23:12:29 v1.34.3, nfs: commencing nfs on c120: 215738949090372262924653430817585114742468402245762145151833713705971863792686454954547968100474388604970223217464651879 12/12/14 23:12:29 v1.34.3, nfs: commencing poly selection with 8 threads 12/12/14 23:12:29 v1.34.3, nfs: setting deadline of 1687 seconds 12/12/14 23:42:10 v1.34.3, nfs: completed 312 ranges of size 250 in 1780.5705 seconds 12/12/14 23:42:10 v1.34.3, nfs: best poly = # norm 2.141475e-11 alpha -6.045723 e 3.041e-10 rroots 5 12/12/14 23:42:10 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/12/14 23:47:19 v1.34.3, nfs: commencing lattice sieving with 8 threads [37 lines snipped] 12/13/14 03:20:55 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/13/14 03:26:49 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/13/14 03:32:28 v1.34.3, nfs: commencing msieve filtering 12/13/14 03:34:09 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/13/14 03:40:23 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/13/14 03:46:12 v1.34.3, nfs: commencing msieve filtering 12/13/14 03:48:13 v1.34.3, nfs: commencing msieve linear algebra 12/13/14 04:03:55 v1.34.3, nfs: commencing msieve sqrt 12/13/14 04:05:52 v1.34.3, prp77 = 10451993199148775712996928394414115361139488491547927675903170728929146882283 12/13/14 04:05:52 v1.34.3, prp44 = 20640938525289351614189443926938069902743413 12/13/14 04:05:52 v1.34.3, NFS elapsed time = 17603.3439 seconds. 12/13/14 04:05:52 v1.34.3, 12/13/14 04:05:52 v1.34.3, 12/13/14 04:05:52 v1.34.3, Total factoring time = 17603.3691 seconds -- Sat Dec 13 03:32:28 2014 Sat Dec 13 03:32:28 2014 commencing relation filtering Sat Dec 13 03:32:28 2014 estimated available RAM is 15987.3 MB Sat Dec 13 03:32:28 2014 commencing duplicate removal, pass 1 Sat Dec 13 03:32:59 2014 found 1114599 hash collisions in 10098547 relations Sat Dec 13 03:33:10 2014 added 62714 free relations Sat Dec 13 03:33:10 2014 commencing duplicate removal, pass 2 Sat Dec 13 03:33:19 2014 found 579061 duplicates and 9582200 unique relations Sat Dec 13 03:33:19 2014 memory use: 41.3 MB Sat Dec 13 03:33:19 2014 reading ideals above 100000 Sat Dec 13 03:33:19 2014 commencing singleton removal, initial pass Sat Dec 13 03:34:04 2014 memory use: 344.5 MB Sat Dec 13 03:34:04 2014 reading all ideals from disk Sat Dec 13 03:34:04 2014 memory use: 340.7 MB Sat Dec 13 03:34:04 2014 keeping 10797214 ideals with weight <= 200, target excess is 49369 Sat Dec 13 03:34:05 2014 commencing in-memory singleton removal Sat Dec 13 03:34:05 2014 begin with 9582200 relations and 10797214 unique ideals Sat Dec 13 03:34:09 2014 reduce to 3115064 relations and 3102548 ideals in 22 passes Sat Dec 13 03:34:09 2014 max relations containing the same ideal: 97 Sat Dec 13 03:46:12 2014 Sat Dec 13 03:46:12 2014 commencing relation filtering Sat Dec 13 03:46:12 2014 estimated available RAM is 15987.3 MB Sat Dec 13 03:46:12 2014 commencing duplicate removal, pass 1 Sat Dec 13 03:46:45 2014 found 1222381 hash collisions in 10673976 relations Sat Dec 13 03:46:56 2014 added 86 free relations Sat Dec 13 03:46:56 2014 commencing duplicate removal, pass 2 Sat Dec 13 03:47:04 2014 found 632230 duplicates and 10041832 unique relations Sat Dec 13 03:47:04 2014 memory use: 41.3 MB Sat Dec 13 03:47:04 2014 reading ideals above 720000 Sat Dec 13 03:47:04 2014 commencing singleton removal, initial pass Sat Dec 13 03:47:47 2014 memory use: 344.5 MB Sat Dec 13 03:47:47 2014 reading all ideals from disk Sat Dec 13 03:47:47 2014 memory use: 286.9 MB Sat Dec 13 03:47:47 2014 commencing in-memory singleton removal Sat Dec 13 03:47:47 2014 begin with 10041832 relations and 10931358 unique ideals Sat Dec 13 03:47:51 2014 reduce to 3747195 relations and 3511900 ideals in 17 passes Sat Dec 13 03:47:51 2014 max relations containing the same ideal: 79 Sat Dec 13 03:47:51 2014 removing 498388 relations and 448240 ideals in 50148 cliques Sat Dec 13 03:47:52 2014 commencing in-memory singleton removal Sat Dec 13 03:47:52 2014 begin with 3248807 relations and 3511900 unique ideals Sat Dec 13 03:47:53 2014 reduce to 3189950 relations and 3003689 ideals in 10 passes Sat Dec 13 03:47:53 2014 max relations containing the same ideal: 69 Sat Dec 13 03:47:54 2014 removing 368559 relations and 318411 ideals in 50148 cliques Sat Dec 13 03:47:54 2014 commencing in-memory singleton removal Sat Dec 13 03:47:54 2014 begin with 2821391 relations and 3003689 unique ideals Sat Dec 13 03:47:55 2014 reduce to 2783303 relations and 2646560 ideals in 10 passes Sat Dec 13 03:47:55 2014 max relations containing the same ideal: 66 Sat Dec 13 03:47:56 2014 relations with 0 large ideals: 499 Sat Dec 13 03:47:56 2014 relations with 1 large ideals: 3293 Sat Dec 13 03:47:56 2014 relations with 2 large ideals: 42347 Sat Dec 13 03:47:56 2014 relations with 3 large ideals: 218883 Sat Dec 13 03:47:56 2014 relations with 4 large ideals: 579501 Sat Dec 13 03:47:56 2014 relations with 5 large ideals: 837141 Sat Dec 13 03:47:56 2014 relations with 6 large ideals: 686948 Sat Dec 13 03:47:56 2014 relations with 7+ large ideals: 414691 Sat Dec 13 03:47:56 2014 commencing 2-way merge Sat Dec 13 03:47:57 2014 reduce to 1565140 relation sets and 1428397 unique ideals Sat Dec 13 03:47:57 2014 commencing full merge Sat Dec 13 03:48:08 2014 memory use: 152.3 MB Sat Dec 13 03:48:08 2014 found 770653 cycles, need 752597 Sat Dec 13 03:48:08 2014 weight of 752597 cycles is about 52963550 (70.37/cycle) Sat Dec 13 03:48:08 2014 distribution of cycle lengths: Sat Dec 13 03:48:08 2014 1 relations: 93681 Sat Dec 13 03:48:08 2014 2 relations: 87925 Sat Dec 13 03:48:08 2014 3 relations: 85061 Sat Dec 13 03:48:08 2014 4 relations: 75740 Sat Dec 13 03:48:08 2014 5 relations: 68522 Sat Dec 13 03:48:08 2014 6 relations: 57549 Sat Dec 13 03:48:08 2014 7 relations: 50831 Sat Dec 13 03:48:08 2014 8 relations: 43512 Sat Dec 13 03:48:08 2014 9 relations: 37459 Sat Dec 13 03:48:08 2014 10+ relations: 152317 Sat Dec 13 03:48:08 2014 heaviest cycle: 21 relations Sat Dec 13 03:48:09 2014 commencing cycle optimization Sat Dec 13 03:48:09 2014 start with 4508576 relations Sat Dec 13 03:48:13 2014 pruned 90514 relations Sat Dec 13 03:48:13 2014 memory use: 154.3 MB Sat Dec 13 03:48:13 2014 distribution of cycle lengths: Sat Dec 13 03:48:13 2014 1 relations: 93681 Sat Dec 13 03:48:13 2014 2 relations: 89732 Sat Dec 13 03:48:13 2014 3 relations: 87740 Sat Dec 13 03:48:13 2014 4 relations: 77210 Sat Dec 13 03:48:13 2014 5 relations: 69693 Sat Dec 13 03:48:13 2014 6 relations: 58119 Sat Dec 13 03:48:13 2014 7 relations: 51020 Sat Dec 13 03:48:13 2014 8 relations: 43446 Sat Dec 13 03:48:13 2014 9 relations: 37120 Sat Dec 13 03:48:13 2014 10+ relations: 144836 Sat Dec 13 03:48:13 2014 heaviest cycle: 21 relations Sat Dec 13 03:48:13 2014 RelProcTime: 121 Sat Dec 13 03:48:13 2014 Sat Dec 13 03:48:13 2014 commencing linear algebra Sat Dec 13 03:48:14 2014 read 752597 cycles Sat Dec 13 03:48:14 2014 cycles contain 2626631 unique relations Sat Dec 13 03:48:28 2014 read 2626631 relations Sat Dec 13 03:48:29 2014 using 20 quadratic characters above 134216738 Sat Dec 13 03:48:37 2014 building initial matrix Sat Dec 13 03:48:52 2014 memory use: 341.2 MB Sat Dec 13 03:48:52 2014 read 752597 cycles Sat Dec 13 03:48:52 2014 matrix is 752405 x 752597 (226.7 MB) with weight 72558592 (96.41/col) Sat Dec 13 03:48:52 2014 sparse part has weight 51148388 (67.96/col) Sat Dec 13 03:48:56 2014 filtering completed in 2 passes Sat Dec 13 03:48:56 2014 matrix is 749141 x 749334 (226.3 MB) with weight 72400086 (96.62/col) Sat Dec 13 03:48:56 2014 sparse part has weight 51089615 (68.18/col) Sat Dec 13 03:48:58 2014 matrix starts at (0, 0) Sat Dec 13 03:48:58 2014 matrix is 749141 x 749334 (226.3 MB) with weight 72400086 (96.62/col) Sat Dec 13 03:48:58 2014 sparse part has weight 51089615 (68.18/col) Sat Dec 13 03:48:58 2014 saving the first 48 matrix rows for later Sat Dec 13 03:48:58 2014 matrix includes 64 packed rows Sat Dec 13 03:48:58 2014 matrix is 749093 x 749334 (218.6 MB) with weight 57293462 (76.46/col) Sat Dec 13 03:48:58 2014 sparse part has weight 49808640 (66.47/col) Sat Dec 13 03:48:58 2014 using block size 65536 for processor cache size 8192 kB Sat Dec 13 03:49:00 2014 commencing Lanczos iteration (8 threads) Sat Dec 13 03:49:00 2014 memory use: 209.3 MB Sat Dec 13 03:49:03 2014 linear algebra at 0.4%, ETA 0h12m Sat Dec 13 04:03:55 2014 lanczos halted after 11848 iterations (dim = 749093) Sat Dec 13 04:03:55 2014 recovered 33 nontrivial dependencies Sat Dec 13 04:03:55 2014 BLanczosTime: 942 Sat Dec 13 04:03:55 2014 Sat Dec 13 04:03:55 2014 commencing square root phase Sat Dec 13 04:03:55 2014 reading relations for dependency 1 Sat Dec 13 04:03:55 2014 read 375472 cycles Sat Dec 13 04:03:55 2014 cycles contain 1315968 unique relations Sat Dec 13 04:04:06 2014 read 1315968 relations Sat Dec 13 04:04:09 2014 multiplying 1315968 relations Sat Dec 13 04:04:56 2014 multiply complete, coefficients have about 58.70 million bits Sat Dec 13 04:04:56 2014 initial square root is modulo 267421421 Sat Dec 13 04:05:52 2014 sqrtTime: 117 -- n: 215738949090372262924653430817585114742468402245762145151833713705971863792686454954547968100474388604970223217464651879 skew: 94079.89 c0: 41857010884900295708195811120 c1: 1410884984039095957557994 c2: -30624593324140195325 c3: -408880725851172 c4: 4075821412 c5: 14520 Y0: -108241058674153521228151 Y1: 1585697087771 rlim: 5500000 alim: 5500000 lpbr: 27 lpba: 27 mfbr: 54 mfba: 54 rlambda: 2.5 alambda: 2.5 |
software ソフトウェア | yafu v1.34.3 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:48 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 48 秒 (日本時間) |
name 名前 | Serge Batalov |
---|---|
date 日付 | December 11, 2014 01:31:46 UTC 2014 年 12 月 11 日 (木) 10 時 31 分 46 秒 (日本時間) |
composite number 合成数 | 13998514755271265325523458117291771560149064316778726745163628708909589349473022810170564045280668000651186706475229929650727781109776734638977<143> |
prime factors 素因数 | 120072911009134695809982832504201001<36> |
composite cofactor 合成数の残り | 116583454482970858700548535413893963163368772847489827219555997900759407164670982064223789542134354669261977<108> |
factorization results 素因数分解の結果 | Input number is 13998514755271265325523458117291771560149064316778726745163628708909589349473022810170564045280668000651186706475229929650727781109776734638977 (143 digits) Using B1=3000000, B2=11414255590, polynomial Dickson(12), sigma=3546495694 Step 1 took 8678ms Step 2 took 6652ms ********** Factor found in step 2: 120072911009134695809982832504201001 Found probable prime factor of 36 digits: 120072911009134695809982832504201001 Composite cofactor 116583454482970858700548535413893963163368772847489827219555997900759407164670982064223789542134354669261977 has 108 digits |
name 名前 | Cyp |
---|---|
date 日付 | December 11, 2014 23:52:01 UTC 2014 年 12 月 12 日 (金) 8 時 52 分 1 秒 (日本時間) |
composite number 合成数 | 116583454482970858700548535413893963163368772847489827219555997900759407164670982064223789542134354669261977<108> |
prime factors 素因数 | 17321916450790820346303567327049095679<38> 6730401616597586126987048421046264999216464576893844699174560475029863<70> |
factorization results 素因数分解の結果 | 12/11/14 23:46:52 v1.34.3, 12/11/14 23:46:52 v1.34.3, **************************** 12/11/14 23:46:52 v1.34.3, Starting factorization of 116583454482970858700548535413893963163368772847489827219555997900759407164670982064223789542134354669261977 12/11/14 23:46:52 v1.34.3, using pretesting plan: none 12/11/14 23:46:52 v1.34.3, no tune info: using qs/gnfs crossover of 95 digits 12/11/14 23:46:52 v1.34.3, **************************** 12/11/14 23:46:52 v1.34.3, rho: x^2 + 3, starting 1000 iterations on C108 12/11/14 23:46:52 v1.34.3, rho: x^2 + 2, starting 1000 iterations on C108 12/11/14 23:46:52 v1.34.3, rho: x^2 + 1, starting 1000 iterations on C108 12/11/14 23:46:52 v1.34.3, final ECM pretested depth: 0.00 12/11/14 23:46:52 v1.34.3, scheduler: switching to sieve method 12/11/14 23:46:52 v1.34.3, nfs: commencing nfs on c108: 116583454482970858700548535413893963163368772847489827219555997900759407164670982064223789542134354669261977 12/11/14 23:46:52 v1.34.3, nfs: commencing poly selection with 8 threads 12/11/14 23:46:52 v1.34.3, nfs: setting deadline of 330 seconds 12/11/14 23:52:53 v1.34.3, nfs: completed 65 ranges of size 250 in 360.8969 seconds 12/11/14 23:52:53 v1.34.3, nfs: best poly = # norm 1.084286e-14 alpha -5.244144 e 4.094e-09 rroots 4 12/11/14 23:52:53 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/11/14 23:58:01 v1.34.3, nfs: commencing lattice sieving with 8 threads [5 lines snipped] 12/12/14 00:29:43 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/12/14 00:34:52 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/12/14 00:40:06 v1.34.3, nfs: commencing msieve filtering 12/12/14 00:40:51 v1.34.3, nfs: commencing lattice sieving with 8 threads 12/12/14 00:45:56 v1.34.3, nfs: commencing msieve filtering 12/12/14 00:46:59 v1.34.3, nfs: commencing msieve linear algebra 12/12/14 00:51:23 v1.34.3, nfs: commencing msieve sqrt 12/12/14 00:52:00 v1.34.3, prp70 = 6730401616597586126987048421046264999216464576893844699174560475029863 12/12/14 00:52:00 v1.34.3, prp38 = 17321916450790820346303567327049095679 12/12/14 00:52:00 v1.34.3, NFS elapsed time = 3908.3146 seconds. 12/12/14 00:52:00 v1.34.3, 12/12/14 00:52:00 v1.34.3, 12/12/14 00:52:00 v1.34.3, Total factoring time = 3908.3366 seconds -- Fri Dec 12 00:40:06 2014 Fri Dec 12 00:40:06 2014 commencing relation filtering Fri Dec 12 00:40:06 2014 estimated available RAM is 15987.3 MB Fri Dec 12 00:40:06 2014 commencing duplicate removal, pass 1 Fri Dec 12 00:40:21 2014 found 432714 hash collisions in 4943725 relations Fri Dec 12 00:40:25 2014 added 160610 free relations Fri Dec 12 00:40:25 2014 commencing duplicate removal, pass 2 Fri Dec 12 00:40:28 2014 found 137703 duplicates and 4966632 unique relations Fri Dec 12 00:40:28 2014 memory use: 20.6 MB Fri Dec 12 00:40:28 2014 reading ideals above 100000 Fri Dec 12 00:40:28 2014 commencing singleton removal, initial pass Fri Dec 12 00:40:49 2014 memory use: 172.2 MB Fri Dec 12 00:40:49 2014 reading all ideals from disk Fri Dec 12 00:40:49 2014 memory use: 164.0 MB Fri Dec 12 00:40:49 2014 keeping 5760751 ideals with weight <= 200, target excess is 44552 Fri Dec 12 00:40:49 2014 commencing in-memory singleton removal Fri Dec 12 00:40:49 2014 begin with 4966632 relations and 5760751 unique ideals Fri Dec 12 00:40:51 2014 reduce to 1402949 relations and 1452190 ideals in 25 passes Fri Dec 12 00:40:51 2014 max relations containing the same ideal: 87 Fri Dec 12 00:45:56 2014 Fri Dec 12 00:45:56 2014 commencing relation filtering Fri Dec 12 00:45:56 2014 estimated available RAM is 15987.3 MB Fri Dec 12 00:45:56 2014 commencing duplicate removal, pass 1 Fri Dec 12 00:46:14 2014 found 549364 hash collisions in 5669242 relations Fri Dec 12 00:46:17 2014 added 1137 free relations Fri Dec 12 00:46:17 2014 commencing duplicate removal, pass 2 Fri Dec 12 00:46:22 2014 found 169110 duplicates and 5501269 unique relations Fri Dec 12 00:46:22 2014 memory use: 20.6 MB Fri Dec 12 00:46:22 2014 reading ideals above 100000 Fri Dec 12 00:46:22 2014 commencing singleton removal, initial pass Fri Dec 12 00:46:44 2014 memory use: 172.2 MB Fri Dec 12 00:46:45 2014 reading all ideals from disk Fri Dec 12 00:46:45 2014 memory use: 181.7 MB Fri Dec 12 00:46:45 2014 keeping 5972035 ideals with weight <= 200, target excess is 49653 Fri Dec 12 00:46:46 2014 commencing in-memory singleton removal Fri Dec 12 00:46:46 2014 begin with 5501269 relations and 5972035 unique ideals Fri Dec 12 00:46:48 2014 reduce to 2188330 relations and 2048779 ideals in 19 passes Fri Dec 12 00:46:48 2014 max relations containing the same ideal: 108 Fri Dec 12 00:46:48 2014 removing 352525 relations and 311548 ideals in 40977 cliques Fri Dec 12 00:46:48 2014 commencing in-memory singleton removal Fri Dec 12 00:46:48 2014 begin with 1835805 relations and 2048779 unique ideals Fri Dec 12 00:46:49 2014 reduce to 1785143 relations and 1685162 ideals in 9 passes Fri Dec 12 00:46:49 2014 max relations containing the same ideal: 94 Fri Dec 12 00:46:49 2014 removing 262730 relations and 221753 ideals in 40977 cliques Fri Dec 12 00:46:49 2014 commencing in-memory singleton removal Fri Dec 12 00:46:49 2014 begin with 1522413 relations and 1685162 unique ideals Fri Dec 12 00:46:49 2014 reduce to 1487540 relations and 1427694 ideals in 11 passes Fri Dec 12 00:46:49 2014 max relations containing the same ideal: 85 Fri Dec 12 00:46:50 2014 relations with 0 large ideals: 681 Fri Dec 12 00:46:50 2014 relations with 1 large ideals: 4274 Fri Dec 12 00:46:50 2014 relations with 2 large ideals: 28017 Fri Dec 12 00:46:50 2014 relations with 3 large ideals: 125633 Fri Dec 12 00:46:50 2014 relations with 4 large ideals: 313951 Fri Dec 12 00:46:50 2014 relations with 5 large ideals: 460499 Fri Dec 12 00:46:50 2014 relations with 6 large ideals: 357831 Fri Dec 12 00:46:50 2014 relations with 7+ large ideals: 196654 Fri Dec 12 00:46:50 2014 commencing 2-way merge Fri Dec 12 00:46:50 2014 reduce to 849905 relation sets and 790059 unique ideals Fri Dec 12 00:46:50 2014 commencing full merge Fri Dec 12 00:46:56 2014 memory use: 81.0 MB Fri Dec 12 00:46:56 2014 found 406663 cycles, need 398259 Fri Dec 12 00:46:56 2014 weight of 398259 cycles is about 27895173 (70.04/cycle) Fri Dec 12 00:46:56 2014 distribution of cycle lengths: Fri Dec 12 00:46:56 2014 1 relations: 41899 Fri Dec 12 00:46:56 2014 2 relations: 42804 Fri Dec 12 00:46:56 2014 3 relations: 42974 Fri Dec 12 00:46:56 2014 4 relations: 39284 Fri Dec 12 00:46:56 2014 5 relations: 35628 Fri Dec 12 00:46:56 2014 6 relations: 30957 Fri Dec 12 00:46:56 2014 7 relations: 27796 Fri Dec 12 00:46:56 2014 8 relations: 24244 Fri Dec 12 00:46:56 2014 9 relations: 20985 Fri Dec 12 00:46:56 2014 10+ relations: 91688 Fri Dec 12 00:46:56 2014 heaviest cycle: 23 relations Fri Dec 12 00:46:56 2014 commencing cycle optimization Fri Dec 12 00:46:57 2014 start with 2553291 relations Fri Dec 12 00:46:59 2014 pruned 56579 relations Fri Dec 12 00:46:59 2014 memory use: 84.5 MB Fri Dec 12 00:46:59 2014 distribution of cycle lengths: Fri Dec 12 00:46:59 2014 1 relations: 41899 Fri Dec 12 00:46:59 2014 2 relations: 43733 Fri Dec 12 00:46:59 2014 3 relations: 44429 Fri Dec 12 00:46:59 2014 4 relations: 40012 Fri Dec 12 00:46:59 2014 5 relations: 36409 Fri Dec 12 00:46:59 2014 6 relations: 31545 Fri Dec 12 00:46:59 2014 7 relations: 27980 Fri Dec 12 00:46:59 2014 8 relations: 24337 Fri Dec 12 00:46:59 2014 9 relations: 20952 Fri Dec 12 00:46:59 2014 10+ relations: 86963 Fri Dec 12 00:46:59 2014 heaviest cycle: 22 relations Fri Dec 12 00:46:59 2014 RelProcTime: 63 Fri Dec 12 00:46:59 2014 Fri Dec 12 00:46:59 2014 commencing linear algebra Fri Dec 12 00:46:59 2014 read 398259 cycles Fri Dec 12 00:47:00 2014 cycles contain 1410044 unique relations Fri Dec 12 00:47:06 2014 read 1410044 relations Fri Dec 12 00:47:07 2014 using 20 quadratic characters above 67107644 Fri Dec 12 00:47:11 2014 building initial matrix Fri Dec 12 00:47:18 2014 memory use: 173.3 MB Fri Dec 12 00:47:18 2014 read 398259 cycles Fri Dec 12 00:47:18 2014 matrix is 398077 x 398259 (119.2 MB) with weight 37586133 (94.38/col) Fri Dec 12 00:47:18 2014 sparse part has weight 26874811 (67.48/col) Fri Dec 12 00:47:20 2014 filtering completed in 2 passes Fri Dec 12 00:47:20 2014 matrix is 396601 x 396789 (119.1 MB) with weight 37516910 (94.55/col) Fri Dec 12 00:47:20 2014 sparse part has weight 26847572 (67.66/col) Fri Dec 12 00:47:21 2014 matrix starts at (0, 0) Fri Dec 12 00:47:21 2014 matrix is 396601 x 396789 (119.1 MB) with weight 37516910 (94.55/col) Fri Dec 12 00:47:21 2014 sparse part has weight 26847572 (67.66/col) Fri Dec 12 00:47:21 2014 saving the first 48 matrix rows for later Fri Dec 12 00:47:21 2014 matrix includes 64 packed rows Fri Dec 12 00:47:21 2014 matrix is 396553 x 396789 (114.5 MB) with weight 29732279 (74.93/col) Fri Dec 12 00:47:21 2014 sparse part has weight 26047314 (65.65/col) Fri Dec 12 00:47:21 2014 using block size 65536 for processor cache size 8192 kB Fri Dec 12 00:47:22 2014 commencing Lanczos iteration (8 threads) Fri Dec 12 00:47:22 2014 memory use: 109.0 MB Fri Dec 12 00:47:29 2014 linear algebra at 3.1%, ETA 0h 3m Fri Dec 12 00:51:22 2014 lanczos halted after 6273 iterations (dim = 396553) Fri Dec 12 00:51:23 2014 recovered 30 nontrivial dependencies Fri Dec 12 00:51:23 2014 BLanczosTime: 264 Fri Dec 12 00:51:23 2014 Fri Dec 12 00:51:23 2014 commencing square root phase Fri Dec 12 00:51:23 2014 reading relations for dependency 1 Fri Dec 12 00:51:23 2014 read 198922 cycles Fri Dec 12 00:51:23 2014 cycles contain 706660 unique relations Fri Dec 12 00:51:28 2014 read 706660 relations Fri Dec 12 00:51:29 2014 multiplying 706660 relations Fri Dec 12 00:51:42 2014 multiply complete, coefficients have about 32.22 million bits Fri Dec 12 00:51:42 2014 initial square root is modulo 1791321971 Fri Dec 12 00:52:00 2014 sqrtTime: 37 -- n: 116583454482970858700548535413893963163368772847489827219555997900759407164670982064223789542134354669261977 skew: 2601295.29 c0: 93891204599157898286255318620 c1: -50411525729017059781804 c2: -221706309331396949 c3: 19525423194 c4: 12144 Y0: -55663204423384540764873453 Y1: 186889050818939 rlim: 2920000 alim: 2920000 lpbr: 26 lpba: 26 mfbr: 52 mfba: 52 rlambda: 2.5 alambda: 2.5 |
software ソフトウェア | yafu v1.34.3 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:49 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 49 秒 (日本時間) |
name 名前 | Ignacio Santos |
---|---|
date 日付 | March 6, 2015 20:24:49 UTC 2015 年 3 月 7 日 (土) 5 時 24 分 49 秒 (日本時間) |
composite number 合成数 | 2162091145547806744726780117860144080270845310863181560755646234058951098827188431750314418916214800872998392726658483646039507181395801025807<142> |
prime factors 素因数 | 26482079338107948371933073270613334045411<41> 81643556683879362211430051652138464827665173349199850245021390304379100754583721347034980462731409637<101> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=1:4278826587 Step 1 took 10109ms Step 2 took 6406ms ********** Factor found in step 2: 26482079338107948371933073270613334045411 Found probable prime factor of 41 digits: 26482079338107948371933073270613334045411 Probable prime cofactor 81643556683879362211430051652138464827665173349199850245021390304379100754583721347034980462731409637 has 101 digits |
software ソフトウェア | GMP-ECM 7.0 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 / 2318 | Cyp | December 9, 2014 20:36:12 UTC 2014 年 12 月 10 日 (水) 5 時 36 分 12 秒 (日本時間) |
name 名前 | Jo Yeong Uk |
---|---|
date 日付 | August 16, 2015 07:47:28 UTC 2015 年 8 月 16 日 (日) 16 時 47 分 28 秒 (日本時間) |
composite number 合成数 | 13127690421929401328859923022135651626137570826244978384789828500837950307342445799404968204045924742845960419091575446863088907871511773<137> |
prime factors 素因数 | 1034469230222654121675816475112029492005493868141107647551<58> 12690266697544847364368885932331304409493235600967097968534601577587062577713123<80> |
factorization results 素因数分解の結果 | Number: 11121_175 N=13127690421929401328859923022135651626137570826244978384789828500837950307342445799404968204045924742845960419091575446863088907871511773 ( 137 digits) SNFS difficulty: 175 digits. Divisors found: r1=1034469230222654121675816475112029492005493868141107647551 r2=12690266697544847364368885932331304409493235600967097968534601577587062577713123 Version: Total time: 21.08 hours. Scaled time: 110.84 units (timescale=5.257). Factorization parameters were as follows: n: 13127690421929401328859923022135651626137570826244978384789828500837950307342445799404968204045924742845960419091575446863088907871511773 m: 100000000000000000000000000000000000 deg: 5 c5: 1 c0: 89 skew: 2.45 # Murphy_E = 2.212e-10 type: snfs lss: 1 rlim: 7200000 alim: 7200000 lpbr: 28 lpba: 28 mfbr: 52 mfba: 52 rlambda: 2.5 alambda: 2.5 Factor base limits: 7200000/7200000 Large primes per side: 3 Large prime bits: 28/28 Max factor residue bits: 52/52 Sieved rational special-q in [3600000, 6000001) Primes: rational ideals reading, algebraic ideals reading, Relations: 15527647 Max relations in full relation-set: Initial matrix: Pruned matrix : 1075527 x 1075775 Total sieving time: 18.94 hours. Total relation processing time: 0.92 hours. Matrix solve time: 1.17 hours. Time per square root: 0.05 hours. Prototype def-par.txt line would be: snfs,175,5,0,0,0,0,0,0,0,0,7200000,7200000,28,28,52,52,2.5,2.5,100000 total time: 21.08 hours. --------- CPU info (if available) ---------- CPU0: Intel(R) Core(TM) i7-4930K CPU @ 3.40GHz stepping 04 Memory: 49373664k/51380224k available (5220k kernel code, 1086460k absent, 920100k reserved, 7121k data, 1264k init) Calibrating delay loop (skipped), value calculated using timer frequency.. 6799.89 BogoMIPS (lpj=3399945) Total of 12 processors activated (81598.68 BogoMIPS). |
software ソフトウェア | GGNFS / Msieve v1.39 |
execution environment 実行環境 | Core i7-4930K |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 6, 2014 21:36:08 UTC 2014 年 12 月 7 日 (日) 6 時 36 分 8 秒 (日本時間) | |
45 | 11e6 | 822 / 4413 | 422 | Pierre Jammes | February 19, 2015 07:05:24 UTC 2015 年 2 月 19 日 (木) 16 時 5 分 24 秒 (日本時間) |
400 | Pierre Jammes | February 19, 2015 12:15:45 UTC 2015 年 2 月 19 日 (木) 21 時 15 分 45 秒 (日本時間) |
name 名前 | Jo Yeong Uk |
---|---|
date 日付 | May 29, 2015 14:57:30 UTC 2015 年 5 月 29 日 (金) 23 時 57 分 30 秒 (日本時間) |
composite number 合成数 | 1838411907975798944774704748375037651379562858056677596125631002274235322124494809486499522139771857770145223582131604078353101039247<133> |
prime factors 素因数 | 1891854807205664484876454717523406740669<40> 472032583857901648584882051037864630986157319<45> 2058652495410110206407372265012376488665023909677<49> |
factorization results 素因数分解の結果 | GMP-ECM 6.4.4 [configured with GMP 6.0.0, --enable-asm-redc] [ECM] Input number is 1838411907975798944774704748375037651379562858056677596125631002274235322124494809486499522139771857770145223582131604078353101039247 (133 digits) Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=1038039703 Step 1 took 19863ms ********** Factor found in step 1: 1891854807205664484876454717523406740669 Found probable prime factor of 40 digits: 1891854807205664484876454717523406740669 Composite cofactor 971751056673951334720849956324540887143644966595857505569065319815485531688606892347968475963 has 93 digits Fri May 29 22:46:43 2015 Fri May 29 22:46:43 2015 Fri May 29 22:46:43 2015 Msieve v. 1.39 Fri May 29 22:46:43 2015 random seeds: 2936010d ed3fe63a Fri May 29 22:46:43 2015 factoring 971751056673951334720849956324540887143644966595857505569065319815485531688606892347968475963 (93 digits) Fri May 29 22:46:43 2015 no P-1/P+1/ECM available, skipping Fri May 29 22:46:43 2015 commencing quadratic sieve (93-digit input) Fri May 29 22:46:43 2015 using multiplier of 3 Fri May 29 22:46:43 2015 using generic 32kb sieve core Fri May 29 22:46:43 2015 sieve interval: 36 blocks of size 32768 Fri May 29 22:46:43 2015 processing polynomials in batches of 6 Fri May 29 22:46:43 2015 using a sieve bound of 1955893 (72941 primes) Fri May 29 22:46:43 2015 using large prime bound of 244486625 (27 bits) Fri May 29 22:46:43 2015 using double large prime bound of 1255622673317000 (42-51 bits) Fri May 29 22:46:43 2015 using trial factoring cutoff of 51 bits Fri May 29 22:46:43 2015 polynomial 'A' values have 12 factors Fri May 29 23:58:18 2015 73379 relations (18493 full + 54886 combined from 996039 partial), need 73037 Fri May 29 23:58:18 2015 begin with 1014532 relations Fri May 29 23:58:19 2015 reduce to 187826 relations in 10 passes Fri May 29 23:58:19 2015 attempting to read 187826 relations Fri May 29 23:58:19 2015 recovered 187826 relations Fri May 29 23:58:19 2015 recovered 168411 polynomials Fri May 29 23:58:19 2015 attempting to build 73379 cycles Fri May 29 23:58:19 2015 found 73379 cycles in 5 passes Fri May 29 23:58:19 2015 distribution of cycle lengths: Fri May 29 23:58:19 2015 length 1 : 18493 Fri May 29 23:58:19 2015 length 2 : 13066 Fri May 29 23:58:19 2015 length 3 : 12465 Fri May 29 23:58:19 2015 length 4 : 9956 Fri May 29 23:58:19 2015 length 5 : 7398 Fri May 29 23:58:19 2015 length 6 : 4848 Fri May 29 23:58:19 2015 length 7 : 3077 Fri May 29 23:58:19 2015 length 9+: 4076 Fri May 29 23:58:19 2015 largest cycle: 20 relations Fri May 29 23:58:19 2015 matrix is 72941 x 73379 (19.7 MB) with weight 4582774 (62.45/col) Fri May 29 23:58:19 2015 sparse part has weight 4582774 (62.45/col) Fri May 29 23:58:20 2015 filtering completed in 3 passes Fri May 29 23:58:20 2015 matrix is 69030 x 69094 (18.6 MB) with weight 4323949 (62.58/col) Fri May 29 23:58:20 2015 sparse part has weight 4323949 (62.58/col) Fri May 29 23:58:20 2015 saving the first 48 matrix rows for later Fri May 29 23:58:20 2015 matrix is 68982 x 69094 (11.4 MB) with weight 3334732 (48.26/col) Fri May 29 23:58:20 2015 sparse part has weight 2302976 (33.33/col) Fri May 29 23:58:20 2015 matrix includes 64 packed rows Fri May 29 23:58:20 2015 using block size 10922 for processor cache size 256 kB Fri May 29 23:58:20 2015 commencing Lanczos iteration Fri May 29 23:58:20 2015 memory use: 10.5 MB Fri May 29 23:58:28 2015 lanczos halted after 1092 iterations (dim = 68980) Fri May 29 23:58:28 2015 recovered 16 nontrivial dependencies Fri May 29 23:58:28 2015 prp45 factor: 472032583857901648584882051037864630986157319 Fri May 29 23:58:28 2015 prp49 factor: 2058652495410110206407372265012376488665023909677 Fri May 29 23:58:28 2015 elapsed time 01:11:45 |
software ソフトウェア | GMP-ECM v6.4.4 / Msieve v1.39 |
execution environment 実行環境 | Core i7-4930K |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:49 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 49 秒 (日本時間) | |
45 | 11e6 | 605 / 4409 | Pierre Jammes | February 20, 2015 07:16:50 UTC 2015 年 2 月 20 日 (金) 16 時 16 分 50 秒 (日本時間) |
name 名前 | Jo Yeong Uk |
---|---|
date 日付 | October 17, 2015 14:46:30 UTC 2015 年 10 月 17 日 (土) 23 時 46 分 30 秒 (日本時間) |
composite number 合成数 | 10692048550144372001358002175768946556613552502753449568174048251425706940295780319260546717123470639140714006562089356649286316953318092742559620176527800738644642817<167> |
prime factors 素因数 | 3559001110612137755799512826783199352559580463<46> 3004227371062935970965197667234101475034361954686403140570442461976984845654968268022860577374818387933145082342327428559<121> |
factorization results 素因数分解の結果 | Number: 11121_177 N=10692048550144372001358002175768946556613552502753449568174048251425706940295780319260546717123470639140714006562089356649286316953318092742559620176527800738644642817 ( 167 digits) SNFS difficulty: 177 digits. Divisors found: r1=3559001110612137755799512826783199352559580463 r2=3004227371062935970965197667234101475034361954686403140570442461976984845654968268022860577374818387933145082342327428559 Version: Total time: 26.27 hours. Scaled time: 137.14 units (timescale=5.221). Factorization parameters were as follows: n: 10692048550144372001358002175768946556613552502753449568174048251425706940295780319260546717123470639140714006562089356649286316953318092742559620176527800738644642817 m: 100000000000000000000000000000000000 deg: 5 c5: 100 c0: 89 skew: 0.98 # Murphy_E = 1.685e-10 type: snfs lss: 1 rlim: 8400000 alim: 8400000 lpbr: 28 lpba: 28 mfbr: 53 mfba: 53 rlambda: 2.5 alambda: 2.5 Factor base limits: 8400000/8400000 Large primes per side: 3 Large prime bits: 28/28 Max factor residue bits: 53/53 Sieved rational special-q in [4200000, 6900001) Primes: rational ideals reading, algebraic ideals reading, Relations: 17483229 Max relations in full relation-set: Initial matrix: Pruned matrix : 1264066 x 1264313 Total sieving time: 22.84 hours. Total relation processing time: 1.22 hours. Matrix solve time: 2.12 hours. Time per square root: 0.09 hours. Prototype def-par.txt line would be: snfs,177,5,0,0,0,0,0,0,0,0,8400000,8400000,28,28,53,53,2.5,2.5,100000 total time: 26.27 hours. --------- CPU info (if available) ---------- CPU0: Intel(R) Core(TM) i7-4930K CPU @ 3.40GHz stepping 04 Memory: 49365480k/51380224k available (5395k kernel code, 1086460k absent, 928284k reserved, 7013k data, 1296k init) Calibrating delay loop (skipped), value calculated using timer frequency.. 6799.95 BogoMIPS (lpj=3399977) Total of 12 processors activated (81599.44 BogoMIPS). |
software ソフトウェア | GGNFS / Msieve v1.39 |
execution environment 実行環境 | Core i7-4930K |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 10, 2014 02:49:03 UTC 2014 年 12 月 10 日 (水) 11 時 49 分 3 秒 (日本時間) | |
45 | 11e6 | 1024 / 4413 | Cyp | May 2, 2015 21:32:30 UTC 2015 年 5 月 3 日 (日) 6 時 32 分 30 秒 (日本時間) |
name 名前 | KTakahashi |
---|---|
date 日付 | May 2, 2015 21:00:20 UTC 2015 年 5 月 3 日 (日) 6 時 0 分 20 秒 (日本時間) |
composite number 合成数 | 2743120031261461117277859365758570145565375500025640881484018833176508569121853782925537792565718245194356668707896319627858042533838667826951962872747<151> |
prime factors 素因数 | 16736050525545294107545990109116240348001<41> 163904860771928433366197721083940917878680873541023155900001397573820711767508737869998249121528241369654916747<111> |
factorization results 素因数分解の結果 | GMP-ECM 6.4.4 [configured with GMP 6.0.0] [ECM] Input number is 2743120031261461117277859365758570145565375500025640881484018833176508569121853782925537792565718245194356668707896319627858042533838667826951962872747 (151 digits) Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=1417510222 Step 1 took 41886ms Step 2 took 17846ms ********** Factor found in step 2: 16736050525545294107545990109116240348001 Found probable prime factor of 41 digits: 16736050525545294107545990109116240348001 Probable prime cofactor 163904860771928433366197721083940917878680873541023155900001397573820711767508737869998249121528241369654916747 has 111 digits |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:50 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 50 秒 (日本時間) |
name 名前 | KTakahashi |
---|---|
date 日付 | May 10, 2015 23:31:39 UTC 2015 年 5 月 11 日 (月) 8 時 31 分 39 秒 (日本時間) |
composite number 合成数 | 202877531129677724945917354012404164328223503103296769227384720108399372477611939815736946898139799966479303661938080743895824861715801420580116430892148399929709<162> |
prime factors 素因数 | 332725534101326348053343862082552771<36> |
composite cofactor 合成数の残り | 609744399923014479723520992097340950249741729087726503984946151832792434989083323978875453440174340829296843128820827989764879<126> |
factorization results 素因数分解の結果 | GMP-ECM 6.4.4 [configured with GMP 6.0.0] [ECM] Input number is 202877531129677724945917354012404164328223503103296769227384720108399372477611939815736946898139799966479303661938080743895824861715801420580116430892148399929709 (162 digits) Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=2682295084 Step 1 took 47939ms Step 2 took 19625ms ********** Factor found in step 2: 332725534101326348053343862082552771 Found probable prime factor of 36 digits: 332725534101326348053343862082552771 Composite cofactor 609744399923014479723520992097340950249741729087726503984946151832792434989083323978875453440174340829296843128820827989764879 has 126 digits |
name 名前 | Erik Branger |
---|---|
date 日付 | May 24, 2015 09:49:03 UTC 2015 年 5 月 24 日 (日) 18 時 49 分 3 秒 (日本時間) |
composite number 合成数 | 609744399923014479723520992097340950249741729087726503984946151832792434989083323978875453440174340829296843128820827989764879<126> |
prime factors 素因数 | 289481280247761294572842666593472684762603231282699<51> 2106334473169202249788701035845833949495905802539933562523281717658557031821<76> |
factorization results 素因数分解の結果 | Number: 11121_180 N = 609744399923014479723520992097340950249741729087726503984946151832792434989083323978875453440174340829296843128820827989764879 (126 digits) Divisors found: r1=289481280247761294572842666593472684762603231282699 (pp51) r2=2106334473169202249788701035845833949495905802539933562523281717658557031821 (pp76) Version: Msieve v. 1.51 (SVN 845) Total time: 43.93 hours. Factorization parameters were as follows: n: 609744399923014479723520992097340950249741729087726503984946151832792434989083323978875453440174340829296843128820827989764879 Y0: -2383887119574263516758465 Y1: 10941424975249 c0: -128171299742074878615958669246944 c1: 662872013790929885358402204 c2: 6272947135700597858483 c3: -2325702315210244 c4: -23032186524 c5: 7920 skew: 532607.70 type: gnfs Factor base limits: 5800000/5800000 Large primes per side: 3 Large prime bits: 28/28 Sieved algebraic special-q in [0, 0) Total raw relations: 18540055 Relations: 1911044 relations Pruned matrix : 1067657 x 1067890 Polynomial selection time: 0.00 hours. Total sieving time: 42.77 hours. Total relation processing time: 0.12 hours. Matrix solve time: 0.89 hours. time per square root: 0.15 hours. Prototype def-par.txt line would be: gnfs,125,5,65,2000,1e-05,0.28,250,20,50000,3600,5800000,5800000,28,28,55,55,2.5,2.5,100000 total time: 43.93 hours. Intel64 Family 6 Model 58 Stepping 9, GenuineIntel Windows-7-6.1.7601-SP1 processors: 8, speed: 2.29GHz |
software ソフトウェア | GGNFS, Msieve |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 7, 2014 14:26:40 UTC 2014 年 12 月 7 日 (日) 23 時 26 分 40 秒 (日本時間) | |
45 | 11e6 | 600 / 4413 | KTakahashi | May 11, 2015 18:15:55 UTC 2015 年 5 月 12 日 (火) 3 時 15 分 55 秒 (日本時間) |
name 名前 | Ignacio Santos |
---|---|
date 日付 | December 8, 2014 18:19:50 UTC 2014 年 12 月 9 日 (火) 3 時 19 分 50 秒 (日本時間) |
composite number 合成数 | 4648810923565686204895567107587664721896170456742004863913751112809081580752392418198494418719105553846369851<109> |
prime factors 素因数 | 19530883398902102995548739334922519154434998233<47> 238023586983628789061002598290676774407676770705832867413751347<63> |
factorization results 素因数分解の結果 | Using B1=43000000, B2=240490660426, polynomial Dickson(12), sigma=1:2202575875 Step 1 took 62500ms Step 2 took 41734ms ********** Factor found in step 2: 19530883398902102995548739334922519154434998233 Found probable prime factor of 47 digits: 19530883398902102995548739334922519154434998233 Probable prime cofactor 238023586983628789061002598290676774407676770705832867413751347 has 63 digits |
software ソフトウェア | GMP-ECM 7.0 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 418 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) |
300 | Ignacio Santos | December 8, 2014 17:16:57 UTC 2014 年 12 月 9 日 (火) 2 時 16 分 57 秒 (日本時間) | |||
40 | 3e6 | 110 / 2126 | Ignacio Santos | December 8, 2014 17:16:57 UTC 2014 年 12 月 9 日 (火) 2 時 16 分 57 秒 (日本時間) | |
45 | 11e6 | 32 / 4437 | Ignacio Santos | December 8, 2014 17:16:57 UTC 2014 年 12 月 9 日 (火) 2 時 16 分 57 秒 (日本時間) |
name 名前 | Robert Backstrom |
---|---|
date 日付 | December 26, 2014 07:01:52 UTC 2014 年 12 月 26 日 (金) 16 時 1 分 52 秒 (日本時間) |
composite number 合成数 | 529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529101<180> |
prime factors 素因数 | 133519455899634228889319338401540474783611<42> 3962722327884939724925062852731018725669295831804154991861456063006997737737530612197367469098529024812378754223486149883971092786131765591<139> |
factorization results 素因数分解の結果 | Number: n N=529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529101 ( 180 digits) SNFS difficulty: 182 digits. Divisors found: Fri Dec 26 17:57:25 2014 prp42 factor: 133519455899634228889319338401540474783611 Fri Dec 26 17:57:25 2014 prp139 factor: 3962722327884939724925062852731018725669295831804154991861456063006997737737530612197367469098529024812378754223486149883971092786131765591 Fri Dec 26 17:57:25 2014 elapsed time 00:27:34 (Msieve 1.44 - dependency 4) Version: GGNFS-0.77.1-20060513-nocona Total time: 0.00 hours. Scaled time: 0.00 units (timescale=2.272). Factorization parameters were as follows: # # N = 10^182+89 1(180)21 # n: 529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529100529101 m: 1000000000000000000000000000000000000 deg: 5 c5: 100 c0: 89 skew: 0.98 # Murphy_E = 1.059e-10 type: snfs lss: 1 rlim: 7600000 alim: 7600000 lpbr: 28 lpba: 28 mfbr: 53 mfba: 53 rlambda: 2.5 alambda: 2.5 Factor base limits: 7600000/7600000 Large primes per side: 3 Large prime bits: 28/28 Max factor residue bits: 53/53 Sieved special-q in [100000, 6600000) Primes: RFBsize:514565, AFBsize:514102, Relations: Max relations in full relation-set: 28 Initial matrix: Pruned matrix : Msieve: found 3012458 hash collisions in 31851402 relations (30156853 unique) Msieve: matrix is 712405 x 712635 (201.9 MB) Total sieving time: 0.00 hours. Total relation processing time: 0hrs 14min 46sec. Matrix solve time: 0.00 hours. Total square root time: 0hrs 5min 53sec. Prototype def-par.txt line would be: snfs,182,5,0,0,0,0,0,0,0,0,7600000,7600000,28,28,53,53,2.5,2.5,100000 total time: 0.00 hours. --------- CPU info (if available) ---------- [ 0.038914] smpboot: CPU0: Intel(R) Core(TM) i7-4790 CPU @ 3.60GHz (fam: 06, model: 3c, stepping: 03) [ 0.000000] Memory: 16059668K/16661464K available (7375K kernel code, 1160K rwdata, 3228K rodata, 1468K init, 1504K bss, 601796K reserved) [ 1.131637] [drm] Memory usable by graphics device = 2048M [ 0.000027] Calibrating delay loop (skipped), value calculated using timer frequency.. 7200.29 BogoMIPS (lpj=3600149) [ 0.136791] smpboot: Total of 8 processors activated (57602.38 BogoMIPS) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 2600 | 280 | Cyp | December 7, 2014 10:25:42 UTC 2014 年 12 月 7 日 (日) 19 時 25 分 42 秒 (日本時間) |
2320 | Serge Batalov | December 8, 2014 19:27:34 UTC 2014 年 12 月 9 日 (火) 4 時 27 分 34 秒 (日本時間) |
name 名前 | KTakahashi |
---|---|
date 日付 | May 21, 2015 22:25:48 UTC 2015 年 5 月 22 日 (金) 7 時 25 分 48 秒 (日本時間) |
composite number 合成数 | 300227565777176482358130752511478272309582232842258656008858696977937233812950260024959020280193351436550216875406059442785628405441835177017187570547<150> |
prime factors 素因数 | 422731422569212038211017340471584031<36> 710208775000683762714572302749196289477020487268179163574114819835012728654727565690178302897511215073466269979437<114> |
factorization results 素因数分解の結果 | GMP-ECM 6.4.4 [configured with GMP 6.0.0] [ECM] Input number is 300227565777176482358130752511478272309582232842258656008858696977937233812950260024959020280193351436550216875406059442785628405441835177017187570547 (150 digits) Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=1959991925 Step 1 took 43368ms Step 2 took 18097ms ********** Factor found in step 2: 422731422569212038211017340471584031 Found probable prime factor of 36 digits: 422731422569212038211017340471584031 Probable prime cofactor 710208775000683762714572302749196289477020487268179163574114819835012728654727565690178302897511215073466269979437 has 114 digits |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 / 2318 | Cyp | December 6, 2014 19:12:58 UTC 2014 年 12 月 7 日 (日) 4 時 12 分 58 秒 (日本時間) |
name 名前 | LegionMammal978 |
---|---|
date 日付 | February 17, 2017 02:24:45 UTC 2017 年 2 月 17 日 (金) 11 時 24 分 45 秒 (日本時間) |
composite number 合成数 | 7315907691321080251683348841996832318781910265538792784528308464759719287070911579590673896548062627040599886521346300226633578484205775041894600263657850969366584768811175249747<178> |
prime factors 素因数 | 41396350837043267972042408777508930628774442735703473<53> 176728323714332945455749117240825263427079664743672902555661965017682636639194610488749138234478831635761516368636661059779139<126> |
factorization results 素因数分解の結果 | Thu Feb 16 19:39:38 2017 Msieve v. 1.53 (SVN Unversioned directory) Thu Feb 16 19:39:38 2017 random seeds: ab048302 6bdf825a Thu Feb 16 19:39:38 2017 factoring 7315907691321080251683348841996832318781910265538792784528308464759719287070911579590673896548062627040599886521346300226633578484205775041894600263657850969366584768811175249747 (178 digits) Thu Feb 16 19:39:39 2017 no P-1/P+1/ECM available, skipping Thu Feb 16 19:39:39 2017 commencing number field sieve (178-digit input) Thu Feb 16 19:39:39 2017 R0: -10000000000000000000000000000000000000 Thu Feb 16 19:39:39 2017 R1: 1 Thu Feb 16 19:39:39 2017 A0: 89 Thu Feb 16 19:39:39 2017 A1: 0 Thu Feb 16 19:39:39 2017 A2: 0 Thu Feb 16 19:39:39 2017 A3: 0 Thu Feb 16 19:39:39 2017 A4: 0 Thu Feb 16 19:39:39 2017 A5: 100 Thu Feb 16 19:39:39 2017 skew 0.98, size 7.252e-13, alpha -1.530, combined = 6.632e-11 rroots = 1 Thu Feb 16 19:39:39 2017 Thu Feb 16 19:39:39 2017 commencing relation filtering Thu Feb 16 19:39:39 2017 estimated available RAM is 15929.4 MB Thu Feb 16 19:39:39 2017 commencing duplicate removal, pass 1 Thu Feb 16 19:42:07 2017 skipped 1 relations with composite factors Thu Feb 16 19:42:07 2017 found 2354328 hash collisions in 20584903 relations Thu Feb 16 19:42:26 2017 added 787 free relations Thu Feb 16 19:42:26 2017 commencing duplicate removal, pass 2 Thu Feb 16 19:42:31 2017 found 1922122 duplicates and 18663568 unique relations Thu Feb 16 19:42:31 2017 memory use: 98.6 MB Thu Feb 16 19:42:31 2017 reading ideals above 720000 Thu Feb 16 19:42:31 2017 commencing singleton removal, initial pass Thu Feb 16 19:44:28 2017 memory use: 689.0 MB Thu Feb 16 19:44:28 2017 reading all ideals from disk Thu Feb 16 19:44:28 2017 memory use: 583.0 MB Thu Feb 16 19:44:29 2017 keeping 20951727 ideals with weight <= 200, target excess is 116128 Thu Feb 16 19:44:30 2017 commencing in-memory singleton removal Thu Feb 16 19:44:31 2017 begin with 18663568 relations and 20951727 unique ideals Thu Feb 16 19:44:39 2017 reduce to 7043305 relations and 6819723 ideals in 21 passes Thu Feb 16 19:44:39 2017 max relations containing the same ideal: 101 Thu Feb 16 19:44:41 2017 removing 566483 relations and 522046 ideals in 44437 cliques Thu Feb 16 19:44:41 2017 commencing in-memory singleton removal Thu Feb 16 19:44:41 2017 begin with 6476822 relations and 6819723 unique ideals Thu Feb 16 19:44:44 2017 reduce to 6434950 relations and 6255367 ideals in 10 passes Thu Feb 16 19:44:44 2017 max relations containing the same ideal: 93 Thu Feb 16 19:44:45 2017 removing 410984 relations and 366547 ideals in 44437 cliques Thu Feb 16 19:44:46 2017 commencing in-memory singleton removal Thu Feb 16 19:44:46 2017 begin with 6023966 relations and 6255367 unique ideals Thu Feb 16 19:44:48 2017 reduce to 6000083 relations and 5864732 ideals in 8 passes Thu Feb 16 19:44:48 2017 max relations containing the same ideal: 90 Thu Feb 16 19:44:50 2017 relations with 0 large ideals: 2897 Thu Feb 16 19:44:50 2017 relations with 1 large ideals: 1160 Thu Feb 16 19:44:50 2017 relations with 2 large ideals: 20376 Thu Feb 16 19:44:50 2017 relations with 3 large ideals: 149061 Thu Feb 16 19:44:50 2017 relations with 4 large ideals: 583929 Thu Feb 16 19:44:50 2017 relations with 5 large ideals: 1313533 Thu Feb 16 19:44:50 2017 relations with 6 large ideals: 1803184 Thu Feb 16 19:44:50 2017 relations with 7+ large ideals: 2125943 Thu Feb 16 19:44:50 2017 commencing 2-way merge Thu Feb 16 19:44:53 2017 reduce to 3430189 relation sets and 3294839 unique ideals Thu Feb 16 19:44:53 2017 ignored 1 oversize relation sets Thu Feb 16 19:44:53 2017 commencing full merge Thu Feb 16 19:45:26 2017 memory use: 390.6 MB Thu Feb 16 19:45:27 2017 found 1731921 cycles, need 1717039 Thu Feb 16 19:45:27 2017 weight of 1717039 cycles is about 120415129 (70.13/cycle) Thu Feb 16 19:45:27 2017 distribution of cycle lengths: Thu Feb 16 19:45:27 2017 1 relations: 244682 Thu Feb 16 19:45:27 2017 2 relations: 213818 Thu Feb 16 19:45:27 2017 3 relations: 200494 Thu Feb 16 19:45:27 2017 4 relations: 175391 Thu Feb 16 19:45:27 2017 5 relations: 152246 Thu Feb 16 19:45:27 2017 6 relations: 126528 Thu Feb 16 19:45:27 2017 7 relations: 109567 Thu Feb 16 19:45:27 2017 8 relations: 90669 Thu Feb 16 19:45:27 2017 9 relations: 75000 Thu Feb 16 19:45:27 2017 10+ relations: 328644 Thu Feb 16 19:45:27 2017 heaviest cycle: 26 relations Thu Feb 16 19:45:27 2017 commencing cycle optimization Thu Feb 16 19:45:29 2017 start with 10097171 relations Thu Feb 16 19:45:38 2017 pruned 201684 relations Thu Feb 16 19:45:38 2017 memory use: 342.7 MB Thu Feb 16 19:45:38 2017 distribution of cycle lengths: Thu Feb 16 19:45:38 2017 1 relations: 244682 Thu Feb 16 19:45:38 2017 2 relations: 218123 Thu Feb 16 19:45:38 2017 3 relations: 206631 Thu Feb 16 19:45:38 2017 4 relations: 178473 Thu Feb 16 19:45:38 2017 5 relations: 154496 Thu Feb 16 19:45:38 2017 6 relations: 127536 Thu Feb 16 19:45:38 2017 7 relations: 109676 Thu Feb 16 19:45:38 2017 8 relations: 89922 Thu Feb 16 19:45:38 2017 9 relations: 73998 Thu Feb 16 19:45:38 2017 10+ relations: 313502 Thu Feb 16 19:45:38 2017 heaviest cycle: 26 relations Thu Feb 16 19:45:40 2017 RelProcTime: 361 Thu Feb 16 19:45:40 2017 elapsed time 00:06:02 Thu Feb 16 19:45:40 2017 LatSieveTime: 1162.08 Thu Feb 16 19:45:40 2017 -> Running matrix solving step ... Thu Feb 16 19:45:40 2017 -> ./msieve -s 11121_187/11121_187.dat -l 11121_187/11121_187.log -i 11121_187/11121_187.ini -nf 11121_187/11121_187.fb -t 6 -nc2 Thu Feb 16 19:45:40 2017 Thu Feb 16 19:45:40 2017 Thu Feb 16 19:45:40 2017 Msieve v. 1.53 (SVN Unversioned directory) Thu Feb 16 19:45:40 2017 random seeds: af31a936 cad2308c Thu Feb 16 19:45:40 2017 factoring 7315907691321080251683348841996832318781910265538792784528308464759719287070911579590673896548062627040599886521346300226633578484205775041894600263657850969366584768811175249747 (178 digits) Thu Feb 16 19:45:41 2017 no P-1/P+1/ECM available, skipping Thu Feb 16 19:45:41 2017 commencing number field sieve (178-digit input) Thu Feb 16 19:45:41 2017 R0: -10000000000000000000000000000000000000 Thu Feb 16 19:45:41 2017 R1: 1 Thu Feb 16 19:45:41 2017 A0: 89 Thu Feb 16 19:45:41 2017 A1: 0 Thu Feb 16 19:45:41 2017 A2: 0 Thu Feb 16 19:45:41 2017 A3: 0 Thu Feb 16 19:45:41 2017 A4: 0 Thu Feb 16 19:45:41 2017 A5: 100 Thu Feb 16 19:45:41 2017 skew 0.98, size 7.252e-13, alpha -1.530, combined = 6.632e-11 rroots = 1 Thu Feb 16 19:45:41 2017 Thu Feb 16 19:45:41 2017 commencing linear algebra Thu Feb 16 19:45:41 2017 read 1717039 cycles Thu Feb 16 19:45:43 2017 cycles contain 5832362 unique relations Thu Feb 16 19:46:11 2017 read 5832362 relations Thu Feb 16 19:46:14 2017 using 20 quadratic characters above 4294917295 Thu Feb 16 19:46:37 2017 building initial matrix Thu Feb 16 19:47:10 2017 memory use: 723.6 MB Thu Feb 16 19:47:10 2017 read 1717039 cycles Thu Feb 16 19:47:11 2017 matrix is 1716856 x 1717039 (516.3 MB) with weight 156789547 (91.31/col) Thu Feb 16 19:47:11 2017 sparse part has weight 116467493 (67.83/col) Thu Feb 16 19:47:19 2017 filtering completed in 2 passes Thu Feb 16 19:47:19 2017 matrix is 1713643 x 1713826 (516.1 MB) with weight 156670987 (91.42/col) Thu Feb 16 19:47:19 2017 sparse part has weight 116428478 (67.93/col) Thu Feb 16 19:47:22 2017 matrix starts at (0, 0) Thu Feb 16 19:47:23 2017 matrix is 1713643 x 1713826 (516.1 MB) with weight 156670987 (91.42/col) Thu Feb 16 19:47:23 2017 sparse part has weight 116428478 (67.93/col) Thu Feb 16 19:47:23 2017 saving the first 48 matrix rows for later Thu Feb 16 19:47:23 2017 matrix includes 64 packed rows Thu Feb 16 19:47:23 2017 matrix is 1713595 x 1713826 (496.0 MB) with weight 125649196 (73.32/col) Thu Feb 16 19:47:23 2017 sparse part has weight 112884329 (65.87/col) Thu Feb 16 19:47:23 2017 using block size 8192 and superblock size 786432 for processor cache size 8192 kB Thu Feb 16 19:47:27 2017 commencing Lanczos iteration (6 threads) Thu Feb 16 19:47:27 2017 memory use: 395.4 MB Thu Feb 16 19:47:32 2017 linear algebra at 0.1%, ETA 1h34m Thu Feb 16 19:47:34 2017 checkpointing every 1040000 dimensions Thu Feb 16 21:12:06 2017 lanczos halted after 27099 iterations (dim = 1713591) Thu Feb 16 21:12:07 2017 recovered 36 nontrivial dependencies Thu Feb 16 21:12:07 2017 BLanczosTime: 5186 Thu Feb 16 21:12:07 2017 elapsed time 01:26:27 Thu Feb 16 21:12:07 2017 -> Running square root step ... Thu Feb 16 21:12:07 2017 -> ./msieve -s 11121_187/11121_187.dat -l 11121_187/11121_187.log -i 11121_187/11121_187.ini -nf 11121_187/11121_187.fb -t 6 -nc3 Thu Feb 16 21:12:07 2017 Thu Feb 16 21:12:07 2017 Thu Feb 16 21:12:07 2017 Msieve v. 1.53 (SVN Unversioned directory) Thu Feb 16 21:12:07 2017 random seeds: 0e3fdb95 5cc3c7b9 Thu Feb 16 21:12:07 2017 factoring 7315907691321080251683348841996832318781910265538792784528308464759719287070911579590673896548062627040599886521346300226633578484205775041894600263657850969366584768811175249747 (178 digits) Thu Feb 16 21:12:08 2017 no P-1/P+1/ECM available, skipping Thu Feb 16 21:12:08 2017 commencing number field sieve (178-digit input) Thu Feb 16 21:12:08 2017 R0: -10000000000000000000000000000000000000 Thu Feb 16 21:12:08 2017 R1: 1 Thu Feb 16 21:12:08 2017 A0: 89 Thu Feb 16 21:12:08 2017 A1: 0 Thu Feb 16 21:12:08 2017 A2: 0 Thu Feb 16 21:12:08 2017 A3: 0 Thu Feb 16 21:12:08 2017 A4: 0 Thu Feb 16 21:12:08 2017 A5: 100 Thu Feb 16 21:12:08 2017 skew 0.98, size 7.252e-13, alpha -1.530, combined = 6.632e-11 rroots = 1 Thu Feb 16 21:12:08 2017 Thu Feb 16 21:12:08 2017 commencing square root phase Thu Feb 16 21:12:08 2017 reading relations for dependency 1 Thu Feb 16 21:12:08 2017 read 856222 cycles Thu Feb 16 21:12:09 2017 cycles contain 2915032 unique relations Thu Feb 16 21:12:23 2017 read 2915032 relations Thu Feb 16 21:12:32 2017 multiplying 2915032 relations Thu Feb 16 21:13:49 2017 multiply complete, coefficients have about 84.51 million bits Thu Feb 16 21:13:49 2017 initial square root is modulo 1165201 Thu Feb 16 21:15:20 2017 sqrtTime: 192 Thu Feb 16 21:15:20 2017 p53 factor: 41396350837043267972042408777508930628774442735703473 Thu Feb 16 21:15:20 2017 p126 factor: 176728323714332945455749117240825263427079664743672902555661965017682636639194610488749138234478831635761516368636661059779139 Thu Feb 16 21:15:20 2017 elapsed time 00:03:13 |
software ソフトウェア | Msieve 1.53 snfs |
execution environment 実行環境 | 64-bit Ubuntu 16.04.1 LTS, Core i7-2600K 3.4GHz |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:50 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 50 秒 (日本時間) | |
45 | 11e6 | 600 / 4409 | Dmitry Domanov | November 17, 2015 21:49:43 UTC 2015 年 11 月 18 日 (水) 6 時 49 分 43 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 18, 2015 06:29:03 UTC 2015 年 11 月 18 日 (水) 15 時 29 分 3 秒 (日本時間) |
composite number 合成数 | 3051531591268141543040245229926593495885316131989713823921888476089721172240088512657850648496304009958155191878911998641888837536380550726690969608659079139980375503901<169> |
prime factors 素因数 | 3987085161217034024777834444334583987<37> |
composite cofactor 合成数の残り | 765354003709486776933016124648412757895292928713493217759816793830789058236614029871938020787642362525197566847430377165282294640623<132> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=1188644891 Step 1 took 78904ms Step 2 took 25759ms ********** Factor found in step 2: 3987085161217034024777834444334583987 Found probable prime factor of 37 digits: 3987085161217034024777834444334583987 Composite cofactor 765354003709486776933016124648412757895292928713493217759816793830789058236614029871938020787642362525197566847430377165282294640623 has 132 digits |
name 名前 | Erik Branger |
---|---|
date 日付 | November 22, 2015 12:29:34 UTC 2015 年 11 月 22 日 (日) 21 時 29 分 34 秒 (日本時間) |
composite number 合成数 | 765354003709486776933016124648412757895292928713493217759816793830789058236614029871938020787642362525197566847430377165282294640623<132> |
prime factors 素因数 | 462089201780190748710594757751701227323065088331037<51> 1656290605279183249118877320970990839209367303401890467883621542056509681438605179<82> |
factorization results 素因数分解の結果 | Number: 11211_189 N = 765354003709486776933016124648412757895292928713493217759816793830789058236614029871938020787642362525197566847430377165282294640623 (132 digits) Divisors found: r1=462089201780190748710594757751701227323065088331037 (pp51) r2=1656290605279183249118877320970990839209367303401890467883621542056509681438605179 (pp82) Version: Msieve v. 1.52 (SVN unknown) Total time: 67.91 hours. Factorization parameters were as follows: # Murphy_E = 5.72e-11, selected by Erik Branger # expecting poly E from 6.39e-011 to > 7.35e-011 n: 765354003709486776933016124648412757895292928713493217759816793830789058236614029871938020787642362525197566847430377165282294640623 Y0: -49255100454524709614546841 Y1: 102141548128517 c0: 11666617486540763372472396010479200 c1: -27368409546018803688264131916 c2: -16464230157228266131465 c3: 17165759363489826 c4: 6993756230 c5: 2640 skew: 1537191.08 type: gnfs # selected mechanically rlim: 11000000 alim: 11000000 lpbr: 28 lpba: 28 mfbr: 54 mfba: 54 rlambda: 2.6 alambda: 2.6 Factor base limits: 11000000/11000000 Large primes per side: 3 Large prime bits: 28/28 Sieved algebraic special-q in [0, 0) Total raw relations: 19683784 Relations: 2858746 relations Pruned matrix : 1668737 x 1668965 Polynomial selection time: 0.00 hours. Total sieving time: 66.37 hours. Total relation processing time: 0.13 hours. Matrix solve time: 1.31 hours. time per square root: 0.09 hours. Prototype def-par.txt line would be: gnfs,131,5,65,2000,1e-05,0.28,250,20,50000,3600,11000000,11000000,28,28,54,54,2.6,2.6,100000 total time: 67.91 hours. Intel64 Family 6 Model 60 Stepping 3, GenuineIntel Windows-8-6.2.9200 processors: 8, speed: 3.50GHz |
software ソフトウェア | GGNFS, Msieve |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 9, 2014 14:37:44 UTC 2014 年 12 月 9 日 (火) 23 時 37 分 44 秒 (日本時間) | |
45 | 11e6 | 600 / 4413 | Dmitry Domanov | November 17, 2015 21:49:59 UTC 2015 年 11 月 18 日 (水) 6 時 49 分 59 秒 (日本時間) |
name 名前 | Cyp |
---|---|
date 日付 | June 15, 2015 14:34:01 UTC 2015 年 6 月 15 日 (月) 23 時 34 分 1 秒 (日本時間) |
composite number 合成数 | 52995726811458729691686389158888868061568251985608120056137949445563740692565858544897706826674756782338796710506480744090106005709473429741781659841956461477228645065831000368696571<182> |
prime factors 素因数 | 586759204697873888485909646877967611997<39> 90319378694274719339010948051685010023531816737023029892430131025551547922512832558797925749316240320739623971384498790438047529658669025273143<143> |
factorization results 素因数分解の結果 | Run 229 out of 591: Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=4071394576 Step 1 took 59589ms Step 2 took 18583ms ********** Factor found in step 2: 586759204697873888485909646877967611997 Found probable prime factor of 39 digits: 586759204697873888485909646877967611997 Probable prime cofactor 90319378694274719339010948051685010023531816737023029892430131025551547922512832558797925749316240320739623971384498790438047529658669025273143 has 143 digits |
software ソフトウェア | GMP-ECM 6.4.4 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 / 1528 | Cyp | December 7, 2014 00:58:30 UTC 2014 年 12 月 7 日 (日) 9 時 58 分 30 秒 (日本時間) | |
45 | 11e6 | 229 / 4413 | Cyp | June 15, 2015 14:34:01 UTC 2015 年 6 月 15 日 (月) 23 時 34 分 1 秒 (日本時間) |
name 名前 | Jo Yeong Uk |
---|---|
date 日付 | September 29, 2018 12:30:21 UTC 2018 年 9 月 29 日 (土) 21 時 30 分 21 秒 (日本時間) |
composite number 合成数 | 64095503202620958234277642989022172491921720213375305982013076746008609430483105036739581978725935830057986579205158455225093933754911248331105174986682992985404935160225098768303<179> |
prime factors 素因数 | 79501357636576809989341536005274108715297768067<47> 806218976732694686870661747978938419703238790873944856669559855736987396121398655602857488027434318481123322516214683676705088747109<132> |
factorization results 素因数分解の結果 | GMP-ECM 6.4.4 [configured with GMP 6.0.0, --enable-asm-redc] [ECM] Input number is 64095503202620958234277642989022172491921720213375305982013076746008609430483105036739581978725935830057986579205158455225093933754911248331105174986682992985404935160225098768303 (179 digits) Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=4084324523 Step 1 took 34002ms Step 2 took 10914ms ********** Factor found in step 2: 79501357636576809989341536005274108715297768067 Found probable prime factor of 47 digits: 79501357636576809989341536005274108715297768067 Probable prime cofactor 806218976732694686870661747978938419703238790873944856669559855736987396121398655602857488027434318481123322516214683676705088747109 has 132 digits |
execution environment 実行環境 | Core i7-4930K |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 8, 2014 20:56:35 UTC 2014 年 12 月 9 日 (火) 5 時 56 分 35 秒 (日本時間) | |
45 | 11e6 | 1391 / 4413 | 591 | Cyp | January 27, 2015 09:24:45 UTC 2015 年 1 月 27 日 (火) 18 時 24 分 45 秒 (日本時間) |
800 | Dmitry Domanov | August 22, 2018 15:49:53 UTC 2018 年 8 月 23 日 (木) 0 時 49 分 53 秒 (日本時間) |
name 名前 | Serge Batalov |
---|---|
date 日付 | December 11, 2014 01:31:49 UTC 2014 年 12 月 11 日 (木) 10 時 31 分 49 秒 (日本時間) |
composite number 合成数 | 33546486173682511949723456308598504049892199487567382939453491873398036341392062635442925875682787123853431218753703236764057612871943833665626993<146> |
prime factors 素因数 | 57878559719724802609240438731361<32> 579601260572660578712721379273490121569183419092570241962119209893685935935857694182096719430052715826144035351313<114> |
factorization results 素因数分解の結果 | Input number is 33546486173682511949723456308598504049892199487567382939453491873398036341392062635442925875682787123853431218753703236764057612871943833665626993 (146 digits) Using B1=3000000, B2=11414255590, polynomial Dickson(12), sigma=2371660806 Step 1 took 8824ms Step 2 took 7095ms ********** Factor found in step 2: 57878559719724802609240438731361 Found probable prime factor of 32 digits: 57878559719724802609240438731361 Probable prime cofactor 579601260572660578712721379273490121569183419092570241962119209893685935935857694182096719430052715826144035351313 has 114 digits |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:51 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 51 秒 (日本時間) |
name 名前 | Jo Yeong Uk |
---|---|
date 日付 | February 14, 2019 06:51:07 UTC 2019 年 2 月 14 日 (木) 15 時 51 分 7 秒 (日本時間) |
composite number 合成数 | 99921856710091672474598873663822514923164162348499430042006951184952660800803410700368758273301206830877128182272811183174329482218474710538803339788331409780153<161> |
prime factors 素因数 | 10983077223000053981162470689091284175084038053570539298832358647014666491<74> 9097801525135573688453944801824209636434068363089483036082098915169698836717882713515483<88> |
factorization results 素因数分解の結果 | Number: 11121_196 N=99921856710091672474598873663822514923164162348499430042006951184952660800803410700368758273301206830877128182272811183174329482218474710538803339788331409780153 ( 161 digits) SNFS difficulty: 196 digits. Divisors found: r1=10983077223000053981162470689091284175084038053570539298832358647014666491 r2=9097801525135573688453944801824209636434068363089483036082098915169698836717882713515483 Version: Total time: 161.57 hours. Scaled time: 847.74 units (timescale=5.247). Factorization parameters were as follows: n: 99921856710091672474598873663822514923164162348499430042006951184952660800803410700368758273301206830877128182272811183174329482218474710538803339788331409780153 m: 1000000000000000000000000000000000000000 deg: 5 c5: 10 c0: 89 skew: 1.55 # Murphy_E = 2.231e-11 type: snfs lss: 1 rlim: 13000000 alim: 13000000 lpbr: 29 lpba: 29 mfbr: 55 mfba: 55 rlambda: 2.5 alambda: 2.5 Factor base limits: 13000000/13000000 Large primes per side: 3 Large prime bits: 29/29 Max factor residue bits: 55/55 Sieved rational special-q in [6500000, 12800001) Primes: rational ideals reading, algebraic ideals reading, Relations: 34176485 Max relations in full relation-set: Initial matrix: Pruned matrix : 2577070 x 2577317 Total sieving time: 144.19 hours. Total relation processing time: 5.51 hours. Matrix solve time: 11.12 hours. Time per square root: 0.75 hours. Prototype def-par.txt line would be: snfs,196,5,0,0,0,0,0,0,0,0,13000000,13000000,29,29,55,55,2.5,2.5,100000 total time: 161.57 hours. --------- CPU info (if available) ---------- |
software ソフトウェア | GGNFS / Msieve v1.39 |
execution environment 実行環境 | Core i7-4930K |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 9, 2014 14:59:25 UTC 2014 年 12 月 9 日 (火) 23 時 59 分 25 秒 (日本時間) | |
45 | 11e6 | 1391 / 4413 | 591 | Cyp | July 4, 2015 20:33:06 UTC 2015 年 7 月 5 日 (日) 5 時 33 分 6 秒 (日本時間) |
800 | Dmitry Domanov | August 22, 2018 09:30:05 UTC 2018 年 8 月 22 日 (水) 18 時 30 分 5 秒 (日本時間) |
name 名前 | Jo Yeong Uk |
---|---|
date 日付 | March 13, 2019 02:48:43 UTC 2019 年 3 月 13 日 (水) 11 時 48 分 43 秒 (日本時間) |
composite number 合成数 | 1646499459789423102448369743459173903599059294725478574050701110289462296844694874873956395274124742947907212006805039367845091201220728135081534117987521924332781654359476624178824467<184> |
prime factors 素因数 | 131542315553238370840376737079075234247833984302308968281278566716894727<72> 12516880616435893364107858359932360461752942770249861029490338411963610816874245626878723843309628871966364937621<113> |
factorization results 素因数分解の結果 | Number: 11121_197 N=1646499459789423102448369743459173903599059294725478574050701110289462296844694874873956395274124742947907212006805039367845091201220728135081534117987521924332781654359476624178824467 ( 184 digits) SNFS difficulty: 197 digits. Divisors found: r1=131542315553238370840376737079075234247833984302308968281278566716894727 r2=12516880616435893364107858359932360461752942770249861029490338411963610816874245626878723843309628871966364937621 Version: Total time: 130.99 hours. Scaled time: 687.96 units (timescale=5.252). Factorization parameters were as follows: n: 1646499459789423102448369743459173903599059294725478574050701110289462296844694874873956395274124742947907212006805039367845091201220728135081534117987521924332781654359476624178824467 m: 1000000000000000000000000000000000000000 deg: 5 c5: 100 c0: 89 skew: 0.98 # Murphy_E = 2.566e-11 type: snfs lss: 1 rlim: 14000000 alim: 14000000 lpbr: 29 lpba: 29 mfbr: 55 mfba: 55 rlambda: 2.5 alambda: 2.5 Factor base limits: 14000000/14000000 Large primes per side: 3 Large prime bits: 29/29 Max factor residue bits: 55/55 Sieved rational special-q in [7000000, 11900001) Primes: rational ideals reading, algebraic ideals reading, Relations: 33217040 Max relations in full relation-set: Initial matrix: Pruned matrix : 2423902 x 2424150 Total sieving time: 116.47 hours. Total relation processing time: 4.28 hours. Matrix solve time: 9.65 hours. Time per square root: 0.59 hours. Prototype def-par.txt line would be: snfs,197,5,0,0,0,0,0,0,0,0,14000000,14000000,29,29,55,55,2.5,2.5,100000 total time: 130.99 hours. --------- CPU info (if available) ---------- |
software ソフトウェア | GGNFS / Msieve v1.39 |
execution environment 実行環境 | Core i7-4930K |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:51 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 51 秒 (日本時間) | |
45 | 11e6 | 1385 / 4409 | 585 | Cyp | July 7, 2015 19:24:40 UTC 2015 年 7 月 8 日 (水) 4 時 24 分 40 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 14:06:48 UTC 2018 年 8 月 7 日 (火) 23 時 6 分 48 秒 (日本時間) |
name 名前 | Jo Yeong Uk |
---|---|
date 日付 | November 28, 2018 06:39:31 UTC 2018 年 11 月 28 日 (水) 15 時 39 分 31 秒 (日本時間) |
composite number 合成数 | 575463303176042699214109887755069869677372823024643377887250523892730713322058624016391451312647813409801651310355171641654672680159112520018044731341108424389991809868856324756071<180> |
prime factors 素因数 | 5498288626594842755068640259852599756041789<43> |
composite cofactor 合成数の残り | 104662258069277484537872611018957585316405308494584801595385515407384950514725660952606323240738212979880212109322201123343858184846266739<138> |
factorization results 素因数分解の結果 | GMP-ECM 6.4.4 [configured with GMP 6.0.0, --enable-asm-redc] [ECM] Input number is 575463303176042699214109887755069869677372823024643377887250523892730713322058624016391451312647813409801651310355171641654672680159112520018044731341108424389991809868856324756071 (180 digits) Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=210325999 Step 1 took 34353ms Step 2 took 11007ms ********** Factor found in step 2: 5498288626594842755068640259852599756041789 Found probable prime factor of 43 digits: 5498288626594842755068640259852599756041789 Composite cofactor 104662258069277484537872611018957585316405308494584801595385515407384950514725660952606323240738212979880212109322201123343858184846266739 has 138 digits |
execution environment 実行環境 | Core i7-4930K |
name 名前 | Eric Jeancolas |
---|---|
date 日付 | February 24, 2019 20:28:37 UTC 2019 年 2 月 25 日 (月) 5 時 28 分 37 秒 (日本時間) |
composite number 合成数 | 104662258069277484537872611018957585316405308494584801595385515407384950514725660952606323240738212979880212109322201123343858184846266739<138> |
prime factors 素因数 | 2855336057440906017855244177752313051797944936945027341<55> 36654970190472430123691297140973938580614371863308799028599822906394837571584074879<83> |
factorization results 素因数分解の結果 | 193081140878796551*5498288626594842755068640259852599756041789*2855336057440906017855244177752313051797944936945027341*36654970190472430123691297140973938580614371863308799028599822906394837571584074879 [32;1mInfo[0m:root: Using default parameter file ./parameters/factor/params.c140 [32;1mInfo[0m:root: No database exists yet [32;1mInfo[0m:root: Created temporary directory /tmp/cado.ogwlet3g [32;1mInfo[0m:Database: Opened connection to database /tmp/cado.ogwlet3g/c140.db [32;1mInfo[0m:root: Set tasks.threads=12 based on detected logical cpus [32;1mInfo[0m:root: tasks.polyselect.threads = 2 [32;1mInfo[0m:root: tasks.sieve.las.threads = 2 [32;1mInfo[0m:root: slaves.scriptpath is /home/ng/cado-nfs-2.3.0 [32;1mInfo[0m:root: Command line parameters: ./cado-nfs.py 104662258069277484537872611018957585316405308494584801595385515407384950514725660952606323240738212979880212109322201123343858184846266739 [32;1mInfo[0m:root: If this computation gets interrupted, it can be resumed with ./cado-nfs.py /tmp/cado.ogwlet3g/c140.parameters_snapshot.0 [32;1mInfo[0m:Server Launcher: Adding ng-All-Series to whitelist to allow clients on localhost to connect [32;1mInfo[0m:HTTP server: Using non-threaded HTTPS server [32;1mInfo[0m:HTTP server: Using whitelist: localhost,ng-All-Series [32;1mInfo[0m:Complete Factorization: Factoring 104662258069277484537872611018957585316405308494584801595385515407384950514725660952606323240738212979880212109322201123343858184846266739 [32;1mInfo[0m:HTTP server: serving at https://ng-All-Series:43093 (0.0.0.0) [32;1mInfo[0m:HTTP server: For debugging purposes, the URL above can be accessed if the server.only_registered=False parameter is added [32;1mInfo[0m:HTTP server: You can start additional cado-nfs-client.py scripts with parameters: --server=https://ng-All-Series:43093 --certsha1=3831f8a6222495c692ac4f7494f6cdeba3234204 [32;1mInfo[0m:HTTP server: If you want to start additional clients, remember to add their hosts to server.whitelist [32;1mInfo[0m:Client Launcher: Starting client id localhost on host localhost [32;1mInfo[0m:Client Launcher: Starting client id localhost+2 on host localhost [32;1mInfo[0m:Client Launcher: Starting client id localhost+3 on host localhost [32;1mInfo[0m:Client Launcher: Starting client id localhost+4 on host localhost [32;1mInfo[0m:Client Launcher: Starting client id localhost+5 on host localhost [32;1mInfo[0m:Client Launcher: Starting client id localhost+6 on host localhost [32;1mInfo[0m:Client Launcher: Running clients: localhost (Host localhost, PID 21114), localhost+2 (Host localhost, PID 21117), localhost+3 (Host localhost, PID 21120), localhost+4 (Host localhost, PID 21123), localhost+5 (Host localhost, PID 21126), localhost+6 (Host localhost, PID 21129) [32;1mInfo[0m:Polynomial Selection (size optimized): Starting [32;1mInfo[0m:Polynomial Selection (size optimized): 0 polynomials in queue from previous run [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_0-4000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_4000-8000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_8000-12000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_12000-16000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_16000-20000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_20000-24000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_24000-28000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_28000-32000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_32000-36000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_36000-40000 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect1_0-4000 to client localhost [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect1_4000-8000 to client localhost+2 [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect1_8000-12000 to client localhost+3 [33;1mWarning[0m:HTTP server: 127.0.0.1 Connection error: [Errno 104] Connection reset by peer [33;1mWarning[0m:HTTP server: 127.0.0.1 Connection error: [Errno 104] Connection reset by peer [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect1_12000-16000 to client localhost+4 [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect1_16000-20000 to client localhost+5 [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect1_20000-24000 to client localhost+6 [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_40000-44000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_44000-48000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_48000-52000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_52000-56000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_56000-60000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_60000-64000 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect1_24000-28000 to client localhost+5 [32;1mInfo[0m:Polynomial Selection (size optimized): Adding workunit c140_polyselect1_64000-68000 to database [32;1mInfo[0m:Polynomial Selection (size optimized): Parsed 642 polynomials, added 294 to priority queue (has 100) [32;1mInfo[0m:Polynomial Selection (size optimized): Worst polynomial in queue now has lognorm 38.260000 ... EJ: many quasi-identical lines [32;1mInfo[0m:Polynomial Selection (size optimized): Marking workunit c140_polyselect1_392000-396000 as ok (99.0% => ETA Fri Feb 22 13:52:40 2019) [32;1mInfo[0m:Polynomial Selection (size optimized): Parsed 638 polynomials, added 0 to priority queue (has 100) [32;1mInfo[0m:Polynomial Selection (size optimized): Marking workunit c140_polyselect1_396000-400000 as ok (100.0% => ETA Fri Feb 22 13:52:12 2019) [32;1mInfo[0m:Polynomial Selection (size optimized): Finished [32;1mInfo[0m:Polynomial Selection (size optimized): Aggregate statistics: [32;1mInfo[0m:Polynomial Selection (size optimized): potential collisions: 65655.1 [32;1mInfo[0m:Polynomial Selection (size optimized): raw lognorm (nr/min/av/max/std): 66353/41.020/49.314/54.540/0.983 [32;1mInfo[0m:Polynomial Selection (size optimized): optimized lognorm (nr/min/av/max/std): 66353/40.060/43.983/50.040/1.109 [32;1mInfo[0m:Polynomial Selection (size optimized): Total time: 49896.2 [32;1mInfo[0m:Polynomial Selection (root optimized): Starting [32;1mInfo[0m:Polynomial Selection (root optimized): No polynomial was previously found [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_0 to database [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_6 to database [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_12 to database [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_18 to database [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_24 to database [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_30 to database [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_36 to database [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_42 to database [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_48 to database [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_54 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_0 to client localhost+6 [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_60 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_6 to client localhost [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_12 to client localhost+3 [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_66 to database [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_72 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_18 to client localhost+4 [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_78 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_24 to client localhost+2 [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_84 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_30 to client localhost+5 [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_90 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_36 to client localhost+4 [32;1mInfo[0m:Polynomial Selection (root optimized): Adding workunit c140_polyselect2_96 to database [32;1mInfo[0m:Polynomial Selection (root optimized): New best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.s4w4v_ps.opt_18: Murphy E = 8.98e-10 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_18 as ok (4.0% => ETA Unknown) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_42 to client localhost+2 [32;1mInfo[0m:Polynomial Selection (root optimized): New best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.r6zm79qt.opt_24: Murphy E = 9.42e-10 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_24 as ok (10.0% => ETA Fri Feb 22 14:39:04 2019) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_48 to client localhost+3 [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.8ct6a6nm.opt_12 with E=9.08e-10 is no better than current best with E=9.42e-10 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_12 as ok (16.0% => ETA Fri Feb 22 14:15:46 2019) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_54 to client localhost [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.4v272qcr.opt_6 with E=9.26e-10 is no better than current best with E=9.42e-10 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_6 as ok (22.0% => ETA Fri Feb 22 14:12:43 2019) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_60 to client localhost+5 [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.38912io5.opt_30 with E=8.79e-10 is no better than current best with E=9.42e-10 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_30 as ok (28.0% => ETA Fri Feb 22 14:07:52 2019) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_66 to client localhost+6 [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.z47nkdwz.opt_0 with E=8.57e-10 is no better than current best with E=9.42e-10 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_0 as ok (34.0% => ETA Fri Feb 22 14:04:47 2019) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_72 to client localhost+4 [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.d0esuapd.opt_36 with E=9.25e-10 is no better than current best with E=9.42e-10 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_36 as ok (40.0% => ETA Fri Feb 22 14:04:47 2019) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_78 to client localhost+6 [32;1mInfo[0m:Polynomial Selection (root optimized): New best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.tbngufev.opt_66: Murphy E = 1.16e-09 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_66 as ok (46.0% => ETA Fri Feb 22 14:05:18 2019) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_84 to client localhost+5 [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.ykl4vl4l.opt_60 with E=9.23e-10 is no better than current best with E=1.16e-09 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_60 as ok (52.0% => ETA Fri Feb 22 14:04:44 2019) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_90 to client localhost+3 [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2._qgd0irf.opt_48 with E=1.02e-09 is no better than current best with E=1.16e-09 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_48 as ok (58.0% => ETA Fri Feb 22 14:03:26 2019) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_polyselect2_96 to client localhost+2 [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.cdg3f0e8.opt_42 with E=9.28e-10 is no better than current best with E=1.16e-09 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_42 as ok (64.0% => ETA Fri Feb 22 14:02:59 2019) [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.aukkz2mq.opt_54 with E=9.06e-10 is no better than current best with E=1.16e-09 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_54 as ok (70.0% => ETA Fri Feb 22 14:02:07 2019) [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.4o6l7rrn.opt_72 with E=1.06e-09 is no better than current best with E=1.16e-09 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_72 as ok (76.0% => ETA Fri Feb 22 14:02:31 2019) [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.nlugxdej.opt_84 with E=9.4e-10 is no better than current best with E=1.16e-09 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_84 as ok (82.0% => ETA Fri Feb 22 14:02:23 2019) [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.l1co9s__.opt_96 with E=9.97e-10 is no better than current best with E=1.16e-09 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_96 as ok (88.0% => ETA Fri Feb 22 14:01:59 2019) [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.f5t7qerg.opt_90 with E=8.99e-10 is no better than current best with E=1.16e-09 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_90 as ok (94.0% => ETA Fri Feb 22 14:01:28 2019) [32;1mInfo[0m:Polynomial Selection (root optimized): Best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.i0wxqfq0.opt_78 with E=9.2e-10 is no better than current best with E=1.16e-09 [32;1mInfo[0m:Polynomial Selection (root optimized): Marking workunit c140_polyselect2_78 as ok (100.0% => ETA Fri Feb 22 14:01:16 2019) [32;1mInfo[0m:Polynomial Selection (root optimized): Finished, best polynomial from file /tmp/cado.ogwlet3g/c140.upload/c140.polyselect2.tbngufev.opt_66 has Murphy_E = 1.16e-09 [32;1mInfo[0m:Polynomial Selection (root optimized): Best overall polynomial was 0-th in list after size optimization [32;1mInfo[0m:Polynomial Selection (root optimized): Aggregate statistics: [32;1mInfo[0m:Polynomial Selection (root optimized): Total time: 5449.11 [32;1mInfo[0m:Polynomial Selection (root optimized): Rootsieve time: 5447.07 [32;1mInfo[0m:Generate Factor Base: Starting [32;1mInfo[0m:Generate Factor Base: Finished [32;1mInfo[0m:Generate Factor Base: Total cpu/real time for makefb: 23.17/2.5011 [32;1mInfo[0m:Generate Free Relations: Starting [32;1mInfo[0m:Generate Free Relations: Found 122281 free relations [32;1mInfo[0m:Generate Free Relations: Finished [32;1mInfo[0m:Generate Free Relations: Total cpu/real time for freerel: 296.48/26.4673 [32;1mInfo[0m:Lattice Sieving: Starting [32;1mInfo[0m:Lattice Sieving: We want 25172582 relations [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10122724-10130000 to database [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10130000-10140000 to database [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10140000-10150000 to database [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10150000-10160000 to database [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10160000-10170000 to database [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10170000-10180000 to database [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10180000-10190000 to database [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10190000-10200000 to database [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10200000-10210000 to database [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10210000-10220000 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_10122724-10130000 to client localhost+2 [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_10130000-10140000 to client localhost+6 [33;1mWarning[0m:HTTP server: 127.0.0.1 Connection error: [Errno 104] Connection reset by peer [33;1mWarning[0m:HTTP server: 127.0.0.1 Connection error: [Errno 104] Connection reset by peer [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_10140000-10150000 to client localhost+4 [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10220000-10230000 to database [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10230000-10240000 to database [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10240000-10250000 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_10150000-10160000 to client localhost+5 [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10250000-10260000 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_10160000-10170000 to client localhost [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10260000-10270000 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_10170000-10180000 to client localhost+3 [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10270000-10280000 to database [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_10180000-10190000 to client localhost+2 [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10280000-10290000 to database [32;1mInfo[0m:Lattice Sieving: Found 23015 relations in '/tmp/cado.ogwlet3g/c140.upload/c140.10122724-10130000.zmq80jhl.gz', total is now 23015/25172582 [32;1mInfo[0m:Lattice Sieving: Marking workunit c140_sieving_10122724-10130000 as ok (0.1% => ETA Unknown) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_10190000-10200000 to client localhost+4 [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_10290000-10300000 to database [32;1mInfo[0m:Lattice Sieving: Found 27488 relations in '/tmp/cado.ogwlet3g/c140.upload/c140.10140000-10150000.q35dg3xx.gz', total is now 50503/25172582 ... EJ: many quasi-identical lines [32;1mInfo[0m:Lattice Sieving: Marking workunit c140_sieving_20280000-20290000 as ok (100.0% => ETA Sat Feb 23 18:46:13 2019) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_20350000-20360000 to client localhost+4 [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_20450000-20460000 to database [32;1mInfo[0m:Lattice Sieving: Found 21055 relations in '/tmp/cado.ogwlet3g/c140.upload/c140.20290000-20300000.8zd8r39y.gz', total is now 25186865/25172582 [32;1mInfo[0m:Lattice Sieving: Marking workunit c140_sieving_20290000-20300000 as ok (100.1% => ETA Sat Feb 23 18:44:47 2019) [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_20360000-20370000 to client localhost+3 [32;1mInfo[0m:Lattice Sieving: Found 21014 relations in '/tmp/cado.ogwlet3g/c140.upload/c140.20300000-20310000.y01v67nw.gz', total is now 25207879/25172582 [32;1mInfo[0m:Lattice Sieving: Marking workunit c140_sieving_20300000-20310000 as ok (100.1% => ETA Sat Feb 23 18:44:37 2019) [32;1mInfo[0m:Lattice Sieving: Adding workunit c140_sieving_20460000-20470000 to database [32;1mInfo[0m:Lattice Sieving: Reached target of 25172582 relations, now have 25207879 [32;1mInfo[0m:Lattice Sieving: Aggregate statistics: [32;1mInfo[0m:Lattice Sieving: Total number of relations: 25207879 [32;1mInfo[0m:Lattice Sieving: Average J: 3774.22 for 617174 special-q, max bucket fill: 0.654479 [32;1mInfo[0m:Lattice Sieving: Total CPU time: 1.19443e+06s [32;1mInfo[0m:Filtering - Duplicate Removal, splitting pass: Starting [32;1mInfo[0m:Filtering - Duplicate Removal, splitting pass: Splitting 1019 new files [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_20370000-20380000 to client localhost+5 [32;1mInfo[0m:Filtering - Duplicate Removal, splitting pass: Relations per slice: 0: 12605642, 1: 12602237 [32;1mInfo[0m:Filtering - Duplicate Removal, splitting pass: Total cpu/real time for dup1: 127.75/233.326 [32;1mInfo[0m:Filtering - Duplicate Removal, splitting pass: Aggregate statistics: [32;1mInfo[0m:Filtering - Duplicate Removal, splitting pass: CPU time for dup1: 233.2s [32;1mInfo[0m:Filtering - Duplicate Removal, removal pass: Starting [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_20380000-20390000 to client localhost+2 [32;1mInfo[0m:Filtering - Duplicate Removal, removal pass: 10743652 unique relations remain on slice 0 [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_20390000-20400000 to client localhost [32;1mInfo[0m:Filtering - Duplicate Removal, removal pass: 10741449 unique relations remain on slice 1 [32;1mInfo[0m:Filtering - Duplicate Removal, removal pass: Of 25207879 newly added relations 21485101 were unique (ratio 0.852317) [32;1mInfo[0m:Filtering - Duplicate Removal, removal pass: 21485101 unique relations remain in total [32;1mInfo[0m:Filtering - Duplicate Removal, removal pass: Total cpu/real time for dup2: 539.58/359.074 [32;1mInfo[0m:Filtering - Singleton removal: Starting [32;1mInfo[0m:Filtering - Singleton removal: Reading 21485101 unique and 122281 free relations, total 21607382 [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_20400000-20410000 to client localhost+6 [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_20410000-20420000 to client localhost+4 [32;1mInfo[0m:HTTP server: 127.0.0.1 Sending workunit c140_sieving_20420000-20430000 to client localhost+3 [32;1mInfo[0m:Filtering - Singleton removal: After purge, 6731650 relations with 6731490 primes remain with weight 125680472 and excess 160 [32;1mInfo[0m:Filtering - Singleton removal: Have enough relations [32;1mInfo[0m:HTTP server: Got notification to stop serving Workunits [32;1mInfo[0m:Lattice Sieving: Cancelling remaining workunits [32;1mInfo[0m:Client Launcher: Stopped client localhost (Host localhost, PID 21114) [32;1mInfo[0m:Client Launcher: Stopped client localhost+2 (Host localhost, PID 21117) [32;1mInfo[0m:Client Launcher: Stopped client localhost+3 (Host localhost, PID 21120) [32;1mInfo[0m:Client Launcher: Stopped client localhost+4 (Host localhost, PID 21123) [32;1mInfo[0m:Client Launcher: Stopped client localhost+5 (Host localhost, PID 21126) [32;1mInfo[0m:Client Launcher: Stopped client localhost+6 (Host localhost, PID 21129) [32;1mInfo[0m:Filtering - Singleton removal: Total cpu/real time for purge: 314.44/254.98 [32;1mInfo[0m:Filtering - Merging: Starting [32;1mInfo[0m:Filtering - Merging: Merged matrix has 1652144 rows and total weight 280864770 (170.0 entries per row on average) [32;1mInfo[0m:Filtering - Merging: Total cpu/real time for merge: 806.24/712.998 [32;1mInfo[0m:Filtering - Merging: Total cpu/real time for replay: 57.76/44.7222 [32;1mInfo[0m:Linear Algebra: Starting [32;1mInfo[0m:Linear Algebra: krylov: N=1000 ; ETA (N=52000): Sat Feb 23 21:42:21 2019 [0.168 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=2000 ; ETA (N=52000): Sat Feb 23 21:44:38 2019 [0.171 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=3000 ; ETA (N=52000): Sat Feb 23 21:45:49 2019 [0.172 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=4000 ; ETA (N=52000): Sat Feb 23 21:46:34 2019 [0.173 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=5000 ; ETA (N=52000): Sat Feb 23 21:47:10 2019 [0.174 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=6000 ; ETA (N=52000): Sat Feb 23 21:47:37 2019 [0.174 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=7000 ; ETA (N=52000): Sat Feb 23 21:47:56 2019 [0.175 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=8000 ; ETA (N=52000): Sat Feb 23 21:48:07 2019 [0.175 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=9000 ; ETA (N=52000): Sat Feb 23 21:48:15 2019 [0.175 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=10000 ; ETA (N=52000): Sat Feb 23 21:48:24 2019 [0.175 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=11000 ; ETA (N=52000): Sat Feb 23 21:48:31 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=12000 ; ETA (N=52000): Sat Feb 23 21:48:37 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=13000 ; ETA (N=52000): Sat Feb 23 21:48:38 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=14000 ; ETA (N=52000): Sat Feb 23 21:48:42 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=15000 ; ETA (N=52000): Sat Feb 23 21:48:47 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=16000 ; ETA (N=52000): Sat Feb 23 21:48:49 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=17000 ; ETA (N=52000): Sat Feb 23 21:48:51 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=18000 ; ETA (N=52000): Sat Feb 23 21:48:53 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=19000 ; ETA (N=52000): Sat Feb 23 21:48:55 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=20000 ; ETA (N=52000): Sat Feb 23 21:48:55 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=21000 ; ETA (N=52000): Sat Feb 23 21:48:57 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=22000 ; ETA (N=52000): Sat Feb 23 21:48:59 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=23000 ; ETA (N=52000): Sat Feb 23 21:48:59 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=24000 ; ETA (N=52000): Sat Feb 23 21:49:00 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=25000 ; ETA (N=52000): Sat Feb 23 21:49:01 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=26000 ; ETA (N=52000): Sat Feb 23 21:49:03 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=27000 ; ETA (N=52000): Sat Feb 23 21:49:03 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=28000 ; ETA (N=52000): Sat Feb 23 21:49:03 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=29000 ; ETA (N=52000): Sat Feb 23 21:49:04 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=30000 ; ETA (N=52000): Sat Feb 23 21:49:05 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=31000 ; ETA (N=52000): Sat Feb 23 21:49:04 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=32000 ; ETA (N=52000): Sat Feb 23 21:49:05 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=33000 ; ETA (N=52000): Sat Feb 23 21:49:05 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=34000 ; ETA (N=52000): Sat Feb 23 21:49:04 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=35000 ; ETA (N=52000): Sat Feb 23 21:49:06 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=36000 ; ETA (N=52000): Sat Feb 23 21:49:06 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=37000 ; ETA (N=52000): Sat Feb 23 21:49:05 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=38000 ; ETA (N=52000): Sat Feb 23 21:49:05 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=39000 ; ETA (N=52000): Sat Feb 23 21:49:05 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=40000 ; ETA (N=52000): Sat Feb 23 21:49:05 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=41000 ; ETA (N=52000): Sat Feb 23 21:49:04 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=42000 ; ETA (N=52000): Sat Feb 23 21:49:04 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=43000 ; ETA (N=52000): Sat Feb 23 21:49:05 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=44000 ; ETA (N=52000): Sat Feb 23 21:49:06 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=45000 ; ETA (N=52000): Sat Feb 23 21:49:07 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=46000 ; ETA (N=52000): Sat Feb 23 21:49:08 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=47000 ; ETA (N=52000): Sat Feb 23 21:49:09 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=48000 ; ETA (N=52000): Sat Feb 23 21:49:10 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=49000 ; ETA (N=52000): Sat Feb 23 21:49:09 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=50000 ; ETA (N=52000): Sat Feb 23 21:49:10 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=51000 ; ETA (N=52000): Sat Feb 23 21:49:11 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: krylov: N=52000 ; ETA (N=52000): Sat Feb 23 21:49:11 2019 [0.176 s/iter] [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:49:26 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:52:00 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:22 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:22 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:22 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:22 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:23 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:25 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:25 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:25 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:21 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:25 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:26 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:26 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:27 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:28 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:24 2019 [32;1mInfo[0m:Linear Algebra: lingen ETA: Sat Feb 23 21:50:21 2019 [32;1mInfo[0m:Linear Algebra: mksol: N=1000 ; ETA (N=26000): Sat Feb 23 23:11:21 2019 [0.187 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=2000 ; ETA (N=26000): Sat Feb 23 23:12:04 2019 [0.189 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=3000 ; ETA (N=26000): Sat Feb 23 23:12:20 2019 [0.189 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=4000 ; ETA (N=26000): Sat Feb 23 23:12:27 2019 [0.190 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=5000 ; ETA (N=26000): Sat Feb 23 23:12:32 2019 [0.190 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=6000 ; ETA (N=26000): Sat Feb 23 23:12:39 2019 [0.190 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=7000 ; ETA (N=26000): Sat Feb 23 23:12:42 2019 [0.190 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=8000 ; ETA (N=26000): Sat Feb 23 23:12:45 2019 [0.190 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=9000 ; ETA (N=26000): Sat Feb 23 23:12:45 2019 [0.190 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=10000 ; ETA (N=26000): Sat Feb 23 23:12:46 2019 [0.190 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=11000 ; ETA (N=26000): Sat Feb 23 23:12:46 2019 [0.190 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=12000 ; ETA (N=26000): Sat Feb 23 23:12:47 2019 [0.190 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=13000 ; ETA (N=26000): Sat Feb 23 23:12:48 2019 [0.190 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=14000 ; ETA (N=26000): Sat Feb 23 23:12:50 2019 [0.190 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=15000 ; ETA (N=26000): Sat Feb 23 23:12:52 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=16000 ; ETA (N=26000): Sat Feb 23 23:12:52 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=17000 ; ETA (N=26000): Sat Feb 23 23:12:53 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=18000 ; ETA (N=26000): Sat Feb 23 23:12:53 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=19000 ; ETA (N=26000): Sat Feb 23 23:12:54 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=20000 ; ETA (N=26000): Sat Feb 23 23:12:55 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=21000 ; ETA (N=26000): Sat Feb 23 23:12:56 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=22000 ; ETA (N=26000): Sat Feb 23 23:12:56 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=23000 ; ETA (N=26000): Sat Feb 23 23:12:58 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=24000 ; ETA (N=26000): Sat Feb 23 23:12:58 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=25000 ; ETA (N=26000): Sat Feb 23 23:12:57 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: mksol: N=26000 ; ETA (N=26000): Sat Feb 23 23:12:54 2019 [0.191 s/iter] [32;1mInfo[0m:Linear Algebra: Total cpu/real time for bwc: 153118/0.00031209 [32;1mInfo[0m:Linear Algebra: Aggregate statistics: [32;1mInfo[0m:Linear Algebra: Krylov: WCT time 9168.53 [32;1mInfo[0m:Linear Algebra: Lingen CPU time 576.06, WCT time 65.95 [32;1mInfo[0m:Linear Algebra: Mksol: WCT time 4956.34 [32;1mInfo[0m:Quadratic Characters: Starting [32;1mInfo[0m:Quadratic Characters: Total cpu/real time for characters: 67.18/15.5205 [32;1mInfo[0m:Square Root: Starting [32;1mInfo[0m:Square Root: Creating file of (a,b) values [32;1mInfo[0m:Square Root: finished [32;1mInfo[0m:Square Root: Factors: 36654970190472430123691297140973938580614371863308799028599822906394837571584074879 2855336057440906017855244177752313051797944936945027341 [32;1mInfo[0m:Square Root: Total cpu/real time for sqrt: 3983.02/585.666 [32;1mInfo[0m:Polynomial Selection (size optimized): Aggregate statistics: [32;1mInfo[0m:Polynomial Selection (size optimized): potential collisions: 65655.1 [32;1mInfo[0m:Polynomial Selection (size optimized): raw lognorm (nr/min/av/max/std): 66353/41.020/49.314/54.540/0.983 [32;1mInfo[0m:Polynomial Selection (size optimized): optimized lognorm (nr/min/av/max/std): 66353/40.060/43.983/50.040/1.109 [32;1mInfo[0m:Polynomial Selection (size optimized): Total time: 49896.2 [32;1mInfo[0m:Polynomial Selection (root optimized): Aggregate statistics: [32;1mInfo[0m:Polynomial Selection (root optimized): Total time: 5449.11 [32;1mInfo[0m:Polynomial Selection (root optimized): Rootsieve time: 5447.07 [32;1mInfo[0m:Generate Factor Base: Total cpu/real time for makefb: 23.17/2.5011 [32;1mInfo[0m:Generate Free Relations: Total cpu/real time for freerel: 296.48/26.4673 [32;1mInfo[0m:Lattice Sieving: Aggregate statistics: [32;1mInfo[0m:Lattice Sieving: Total number of relations: 25207879 [32;1mInfo[0m:Lattice Sieving: Average J: 3774.22 for 617174 special-q, max bucket fill: 0.654479 [32;1mInfo[0m:Lattice Sieving: Total CPU time: 1.19443e+06s [32;1mInfo[0m:Filtering - Duplicate Removal, splitting pass: Total cpu/real time for dup1: 127.75/233.326 [32;1mInfo[0m:Filtering - Duplicate Removal, splitting pass: Aggregate statistics: [32;1mInfo[0m:Filtering - Duplicate Removal, splitting pass: CPU time for dup1: 233.2s [32;1mInfo[0m:Filtering - Duplicate Removal, removal pass: Total cpu/real time for dup2: 539.58/359.074 [32;1mInfo[0m:Filtering - Singleton removal: Total cpu/real time for purge: 314.44/254.98 [32;1mInfo[0m:Filtering - Merging: Total cpu/real time for merge: 806.24/712.998 [32;1mInfo[0m:Filtering - Merging: Total cpu/real time for replay: 57.76/44.7222 [32;1mInfo[0m:Linear Algebra: Total cpu/real time for bwc: 153118/0.00031209 [32;1mInfo[0m:Linear Algebra: Aggregate statistics: [32;1mInfo[0m:Linear Algebra: Krylov: WCT time 9168.53 [32;1mInfo[0m:Linear Algebra: Lingen CPU time 576.06, WCT time 65.95 [32;1mInfo[0m:Linear Algebra: Mksol: WCT time 4956.34 [32;1mInfo[0m:Quadratic Characters: Total cpu/real time for characters: 67.18/15.5205 [32;1mInfo[0m:Square Root: Total cpu/real time for sqrt: 3983.02/585.666 [32;1mInfo[0m:HTTP server: Shutting down HTTP server [32;1mInfo[0m:Complete Factorization: Total cpu/elapsed time for entire factorization: 1.4091e+06/124902 [32;1mInfo[0m:root: Cleaning up computation data in /tmp/cado.ogwlet3g 36654970190472430123691297140973938580614371863308799028599822906394837571584074879 2855336057440906017855244177752313051797944936945027341 |
software ソフトウェア | cado-nfs-2.3.0 |
execution environment 実行環境 | Linux Ubuntu 18.04 LTS GenuineIntel Intel(R) Core(TM) i7-5820K CPU @ 3.30GHz [Family 6 Model 63 Stepping 2] (12 processors) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 580 | 280 | Cyp | December 10, 2014 14:56:19 UTC 2014 年 12 月 10 日 (水) 23 時 56 分 19 秒 (日本時間) |
300 | Serge Batalov | December 10, 2014 19:45:52 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 52 秒 (日本時間) | |||
45 | 11e6 | 1304 / 4347 | 504 | Cyp | July 1, 2015 06:04:25 UTC 2015 年 7 月 1 日 (水) 15 時 4 分 25 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 11:58:53 UTC 2018 年 8 月 7 日 (火) 20 時 58 分 53 秒 (日本時間) |
name 名前 | Jo Yeong Uk |
---|---|
date 日付 | September 3, 2019 06:48:51 UTC 2019 年 9 月 3 日 (火) 15 時 48 分 51 秒 (日本時間) |
composite number 合成数 | 324812514692061049647448302455995296845944563403766027250619242367898431610663278054812909568838648391840504118484605070926562583059922416336511365968842902875005094091<168> |
prime factors 素因数 | 45597367780324401200085438960540146885725758418869111727846857420061152937706694961<83> 7123492659859634118550648089803019569917195587194975228245371719917050231480348742331<85> |
factorization results 素因数分解の結果 | Number: 11121_200 N=324812514692061049647448302455995296845944563403766027250619242367898431610663278054812909568838648391840504118484605070926562583059922416336511365968842902875005094091 ( 168 digits) SNFS difficulty: 200 digits. Divisors found: r1=45597367780324401200085438960540146885725758418869111727846857420061152937706694961 r2=7123492659859634118550648089803019569917195587194975228245371719917050231480348742331 Version: Total time: 161.14 hours. Scaled time: 845.35 units (timescale=5.246). Factorization parameters were as follows: n: 324812514692061049647448302455995296845944563403766027250619242367898431610663278054812909568838648391840504118484605070926562583059922416336511365968842902875005094091 m: 10000000000000000000000000000000000000000 deg: 5 c5: 1 c0: 89 skew: 2.45 # Murphy_E = 2.09e-11 type: snfs lss: 1 rlim: 16000000 alim: 16000000 lpbr: 29 lpba: 29 mfbr: 56 mfba: 56 rlambda: 2.6 alambda: 2.6 Factor base limits: 16000000/16000000 Large primes per side: 3 Large prime bits: 29/29 Max factor residue bits: 56/56 Sieved rational special-q in [8000000, 13700001) Primes: rational ideals reading, algebraic ideals reading, Relations: 36571415 Max relations in full relation-set: Initial matrix: Pruned matrix : 2909947 x 2910192 Total sieving time: 140.64 hours. Total relation processing time: 5.51 hours. Matrix solve time: 14.80 hours. Time per square root: 0.20 hours. Prototype def-par.txt line would be: snfs,200,5,0,0,0,0,0,0,0,0,16000000,16000000,29,29,56,56,2.6,2.6,100000 total time: 161.14 hours. --------- CPU info (if available) ---------- |
software ソフトウェア | GGNFS / Msieve v1.39 |
execution environment 実行環境 | Core i7-4930K |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 8, 2014 15:03:32 UTC 2014 年 12 月 9 日 (火) 0 時 3 分 32 秒 (日本時間) | |
45 | 11e6 | 1400 / 4413 | 600 | Dmitry Domanov | November 17, 2015 21:50:22 UTC 2015 年 11 月 18 日 (水) 6 時 50 分 22 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 11:59:15 UTC 2018 年 8 月 7 日 (火) 20 時 59 分 15 秒 (日本時間) |
name 名前 | Bob Backstrom |
---|---|
date 日付 | April 10, 2021 04:39:23 UTC 2021 年 4 月 10 日 (土) 13 時 39 分 23 秒 (日本時間) |
composite number 合成数 | 108311000111660447971001588346281822742759713095929826253883479371788015671753737852527423916737601218692288600738062835948886487182754680935520661157677476991456619488835229644735774087<186> |
prime factors 素因数 | 7751504932628771543010951028010830696991939422335440304950099240647502166673318529969<85> 13972899592147829176419558975015555306058102283924191104781515635380223129394409214151863445289239223<101> |
factorization results 素因数分解の結果 | Number: n N=108311000111660447971001588346281822742759713095929826253883479371788015671753737852527423916737601218692288600738062835948886487182754680935520661157677476991456619488835229644735774087 ( 186 digits) SNFS difficulty: 201 digits. Divisors found: Sat Apr 10 14:34:14 2021 p85 factor: 7751504932628771543010951028010830696991939422335440304950099240647502166673318529969 Sat Apr 10 14:34:14 2021 p101 factor: 13972899592147829176419558975015555306058102283924191104781515635380223129394409214151863445289239223 Sat Apr 10 14:34:14 2021 elapsed time 02:02:01 (Msieve 1.54 - dependency 9) Version: Total time: 0.00 hours. Scaled time: 0.00 units (timescale=2.330). Factorization parameters were as follows: # # N = 10^201+89 = 1(199)21 # n: 108311000111660447971001588346281822742759713095929826253883479371788015671753737852527423916737601218692288600738062835948886487182754680935520661157677476991456619488835229644735774087 m: 10000000000000000000000000000000000000000 deg: 5 c5: 10 c0: 89 skew: 1.55 # Murphy_E = 1.379e-11 type: snfs lss: 1 rlim: 15700000 alim: 15700000 lpbr: 29 lpba: 29 mfbr: 56 mfba: 56 rlambda: 2.6 alambda: 2.6 Factor base limits: 15700000/15700000 Large primes per side: 3 Large prime bits: 29/29 Max factor residue bits: 56/56 Sieved special-q in [100000, 20650000) Primes: , , Relations: Max relations in full relation-set: 28 Initial matrix: Pruned matrix : Msieve: found 5310832 hash collisions in 46297334 relations (42868626 unique) Msieve: matrix is 2113179 x 2113404 (739.9 MB) Sieving start time : 2021/04/10 07:06:25 Sieving end time : 2021/04/10 12:31:26 Total sieving time: 5hrs 25min 1secs. Total relation processing time: 1hrs 25min 35sec. Matrix solve time: 0.00 hours. Total square root time: 0hrs 23min 44sec. Prototype def-par.txt line would be: snfs,201,5,0,0,0,0,0,0,0,0,15700000,15700000,29,29,56,56,2.6,2.6,100000 total time: 0.00 hours. --------- CPU info (if available) ---------- [ 0.119768] smpboot: CPU0: AMD Ryzen 7 2700 Eight-Core Processor (family: 0x17, model: 0x8, stepping: 0x2) [ 0.000000] Memory: 16241112K/16727236K available (14339K kernel code, 2400K rwdata, 5008K rodata, 2732K init, 4972K bss, 486124K reserved, 0K cma-reserved) [ 0.153507] x86/mm: Memory block size: 128MB [ 0.000005] Calibrating delay loop (skipped), value calculated using timer frequency.. 6399.05 BogoMIPS (lpj=12798104) [ 0.152038] smpboot: Total of 16 processors activated (102384.83 BogoMIPS) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 580 | 280 | Cyp | December 10, 2014 14:58:25 UTC 2014 年 12 月 10 日 (水) 23 時 58 分 25 秒 (日本時間) |
300 | Serge Batalov | December 10, 2014 19:45:52 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 52 秒 (日本時間) | |||
45 | 11e6 | 1304 / 3294 | 504 | Cyp | June 22, 2015 16:53:44 UTC 2015 年 6 月 23 日 (火) 1 時 53 分 44 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 08:19:29 UTC 2018 年 8 月 6 日 (月) 17 時 19 分 29 秒 (日本時間) | |||
50 | 43e6 | 300 / 7238 | Dmitry Domanov | August 25, 2018 21:56:35 UTC 2018 年 8 月 26 日 (日) 6 時 56 分 35 秒 (日本時間) |
name 名前 | Bob Backstrom |
---|---|
date 日付 | July 11, 2021 02:56:34 UTC 2021 年 7 月 11 日 (日) 11 時 56 分 34 秒 (日本時間) |
composite number 合成数 | 3942419190067763502913493311626418880934667831677227845494867189504614436375917947290031377470794913655376695593662419033693117337931396933668812810534408282411808859745381570581<178> |
prime factors 素因数 | 1247609748982903120186790131501633025630200101319<49> 3159977864297523427473466843796471139759963854869082157153804903893582539708616018076609464461317246447388417663006823375579660099<130> |
factorization results 素因数分解の結果 | # # N = 10^204+89 = 1(202)21 # n: 3942419190067763502913493311626418880934667831677227845494867189504614436375917947290031377470794913655376695593662419033693117337931396933668812810534408282411808859745381570581 m: 50000000000000000000000000000000000000000 deg: 5 c5: 16 c0: 445 skew: 1.94 # Murphy_E = 1.027e-11 type: snfs lss: 1 rlim: 18100000 alim: 18100000 lpbr: 29 lpba: 29 mfbr: 56 mfba: 56 rlambda: 2.6 alambda: 2.6 GMP-ECM 7.0.4 [configured with GMP 6.2.0, --enable-asm-redc] [ECM] Input number is 3942419190067763502913493311626418880934667831677227845494867189504614436375917947290031377470794913655376695593662419033693117337931396933668812810534408282411808859745381570581 (178 digits) Using B1=44790000, B2=240492041806, polynomial Dickson(12), sigma=1:94165985 Step 1 took 120161ms Step 2 took 37961ms ********** Factor found in step 2: 1247609748982903120186790131501633025630200101319 Found prime factor of 49 digits: 1247609748982903120186790131501633025630200101319 Prime cofactor 3159977864297523427473466843796471139759963854869082157153804903893582539708616018076609464461317246447388417663006823375579660099 has 130 digits |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 9, 2014 07:29:52 UTC 2014 年 12 月 9 日 (火) 16 時 29 分 52 秒 (日本時間) | |
45 | 11e6 | 1391 / 3361 | 591 | Cyp | June 18, 2015 06:03:47 UTC 2015 年 6 月 18 日 (木) 15 時 3 分 47 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 14:56:57 UTC 2018 年 8 月 6 日 (月) 23 時 56 分 57 秒 (日本時間) | |||
50 | 43e6 | 300 / 7230 | Dmitry Domanov | August 25, 2018 09:24:57 UTC 2018 年 8 月 25 日 (土) 18 時 24 分 57 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 18, 2015 07:18:07 UTC 2015 年 11 月 18 日 (水) 16 時 18 分 7 秒 (日本時間) |
composite number 合成数 | 45004062483502787883042739280941211836661372023839300106975442937953741701933972725882323524600658137504943628172372017916018264254872508833481356552031640211<158> |
prime factors 素因数 | 290011537018234934924270587377708869<36> |
composite cofactor 合成数の残り | 155180248848765923900997693496205929794535830579240238603303551889674626824602157733685687062706445403494536520348946019319<123> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=71630586 Step 1 took 85196ms Step 2 took 28758ms ********** Factor found in step 2: 290011537018234934924270587377708869 Found probable prime factor of 36 digits: 290011537018234934924270587377708869 |
name 名前 | Serge Batalov |
---|---|
date 日付 | November 22, 2015 07:42:36 UTC 2015 年 11 月 22 日 (日) 16 時 42 分 36 秒 (日本時間) |
composite number 合成数 | 155180248848765923900997693496205929794535830579240238603303551889674626824602157733685687062706445403494536520348946019319<123> |
prime factors 素因数 | 907803298374783605891227186101525289058684070721<48> 170940388877834048764289047931931368353300173724855292679411871783575677239<75> |
factorization results 素因数分解の結果 | p48 factor: 907803298374783605891227186101525289058684070721 p75 factor: 170940388877834048764289047931931368353300173724855292679411871783575677239 Version: Msieve v. 1.53 (SVN 988) Total time: 47.69 hours. Scaled time: 0.00 units (timescale=0.000). Factorization parameters were as follows: n: 155180248848765923900997693496205929794535830579240238603303551889674626824602157733685687062706445403494536520348946019319 type: gnfs skew: 239897.25 Y0: -581197942719775423817306 Y1: 943515778019 c0: 513845091573511027279142280555 c1: 10559287363353998049433527 c2: -24358920434182248510 c3: -443731402111223 c4: 812593855 c5: 2340 Factor base limits: 4900000/4900000 Large primes per side: 3 Large prime bits: 27/27 Max factor residue bits: 53/53 Sieved algebraic special-q in [2450000, 4950001) Primes: , , Relations: relations Max relations in full relation-set: Initial matrix: Pruned matrix : 858178 x 858404 Total sieving time: 46.87 hours. Total relation processing time: 0.16 hours. Matrix solve time: 0.49 hours. Time per square root: 0.17 hours. Prototype def-par.txt line would be: gnfs,122,5,maxs1,maxskew,goodScore,efrac,j0,j1,eStepSize,maxTime,4900000,4900000,27,27,53,53,2.5,2.5,100000 total time: 47.69 hours. |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 10, 2014 13:13:32 UTC 2014 年 12 月 10 日 (水) 22 時 13 分 32 秒 (日本時間) | |
45 | 11e6 | 1200 / 4413 | 600 | Dmitry Domanov | November 17, 2015 21:50:44 UTC 2015 年 11 月 18 日 (水) 6 時 50 分 44 秒 (日本時間) |
600 | Serge Batalov | November 18, 2015 19:21:06 UTC 2015 年 11 月 19 日 (木) 4 時 21 分 6 秒 (日本時間) |
name 名前 | Thomas Kozlowski |
---|---|
date 日付 | August 2, 2024 23:32:27 UTC 2024 年 8 月 3 日 (土) 8 時 32 分 27 秒 (日本時間) |
composite number 合成数 | 3823679219764511554885486752166819576691152357672863822556001818290188250916900691090782180350204526059980160179073724111252687982688630866553521981<148> |
prime factors 素因数 | 54373388606795690701749714268151112143594510313054676816297702517<65> 70322621373033586703810780743319421888601962740854678540495142986291103834172378793<83> |
factorization results 素因数分解の結果 | 54373388606795690701749714268151112143594510313054676816297702517 70322621373033586703810780743319421888601962740854678540495142986291103834172378793 |
software ソフトウェア | cado-nfs |
execution environment 実行環境 | 2x Xeon E5-2698v4, 256GB DDR4, Ubuntu Server 22.04 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:52 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 52 秒 (日本時間) | |
45 | 11e6 | 5865 | 585 | Cyp | June 23, 2015 15:46:26 UTC 2015 年 6 月 24 日 (水) 0 時 46 分 26 秒 (日本時間) |
800 | Dmitry Domanov | August 5, 2018 22:27:19 UTC 2018 年 8 月 6 日 (月) 7 時 27 分 19 秒 (日本時間) | |||
4480 | Ignacio Santos | December 27, 2023 10:52:15 UTC 2023 年 12 月 27 日 (水) 19 時 52 分 15 秒 (日本時間) | |||
50 | 43e6 | 300 / 6225 | Dmitry Domanov | August 24, 2018 11:06:57 UTC 2018 年 8 月 24 日 (金) 20 時 6 分 57 秒 (日本時間) |
name 名前 | ebina |
---|---|
date 日付 | June 2, 2023 09:35:03 UTC 2023 年 6 月 2 日 (金) 18 時 35 分 3 秒 (日本時間) |
composite number 合成数 | 315090558612069264776450142763863549819708130840346654769547942026980866265009366239006837962968463698715167371312694719221224516188148264678605266632553917937999224005764429929<177> |
prime factors 素因数 | 333769196156042082218463021747157295754620962275095312259542291149791131105207314180601<87> 944037263596847099314036396288516889878678037991552897810522059000590646570081431387692529<90> |
factorization results 素因数分解の結果 | Number: 11121_207 N = 315090558612069264776450142763863549819708130840346654769547942026980866265009366239006837962968463698715167371312694719221224516188148264678605266632553917937999224005764429929 (177 digits) SNFS difficulty: 208 digits. Divisors found: r1=333769196156042082218463021747157295754620962275095312259542291149791131105207314180601 (pp87) r2=944037263596847099314036396288516889878678037991552897810522059000590646570081431387692529 (pp90) Version: Msieve v. 1.53 (SVN unknown) Total time: 103.96 hours. Factorization parameters were as follows: n: 315090558612069264776450142763863549819708130840346654769547942026980866265009366239006837962968463698715167371312694719221224516188148264678605266632553917937999224005764429929 m: 100000000000000000000000000000000000000000 deg: 5 c5: 100 c0: 89 skew: 0.98 # Murphy_E = 9.762e-12 type: snfs lss: 1 rlim: 19700000 alim: 19700000 lpbr: 29 lpba: 29 mfbr: 56 mfba: 56 rlambda: 2.6 alambda: 2.6 Factor base limits: 19700000/19700000 Large primes per side: 3 Large prime bits: 29/29 Sieved rational special-q in [0, 0) Total raw relations: 37621679 Relations: 6140368 relations Pruned matrix : 3644262 x 3644490 Total sieving time: 94.15 hours. Total relation processing time: 0.34 hours. Matrix solve time: 9.31 hours. time per square root: 0.16 hours. Prototype def-par.txt line would be: snfs,208,5,0,0,0,0,0,0,0,0,19700000,19700000,29,29,56,56,2.6,2.6,100000 total time: 103.96 hours. Intel64 Family 6 Model 60 Stepping 3, GenuineIntel processors: 8, speed: 2.19GHz Windows-post2008Server-6.2.9200 Running Python 3.2 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:53 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 53 秒 (日本時間) | |
45 | 11e6 | 3356 | 585 | Cyp | May 30, 2015 21:59:49 UTC 2015 年 5 月 31 日 (日) 6 時 59 分 49 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 14:57:26 UTC 2018 年 8 月 6 日 (月) 23 時 57 分 26 秒 (日本時間) | |||
1971 | Rytis Slatkevičius | February 14, 2023 05:24:56 UTC 2023 年 2 月 14 日 (火) 14 時 24 分 56 秒 (日本時間) | |||
50 | 43e6 | 6788 | 300 | Dmitry Domanov | August 25, 2018 09:25:13 UTC 2018 年 8 月 25 日 (土) 18 時 25 分 13 秒 (日本時間) |
3640 | Rytis Slatkevičius | February 15, 2023 09:09:25 UTC 2023 年 2 月 15 日 (水) 18 時 9 分 25 秒 (日本時間) | |||
2848 | Rytis Slatkevičius | February 15, 2023 21:03:14 UTC 2023 年 2 月 16 日 (木) 6 時 3 分 14 秒 (日本時間) |
name 名前 | Bob Backstrom |
---|---|
date 日付 | November 14, 2024 18:22:54 UTC 2024 年 11 月 15 日 (金) 3 時 22 分 54 秒 (日本時間) |
composite number 合成数 | 15458337400127107543354707572144731679252636562159722384986047709328727640817324761044951008774918627417412524503964601920181121263410871784999421334698311082081453<164> |
prime factors 素因数 | 897005259009019459496337158802095852407378814946512934342869025452534685962923<78> 17233273991286234729423164698575372844798619319055863571406727617063160978020179439111<86> |
factorization results 素因数分解の結果 | 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, **************************** 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, Starting factorization of 10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000089 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, using pretesting plan: normal 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, no tune info: using qs/gnfs crossover of 125 digits 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, **************************** 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, div: found prime factor = 3 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, div: found prime factor = 3 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, div: found prime factor = 43 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, div: found prime factor = 839 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, rho: x^2 + 3, starting 1000 iterations on C203 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, rho: x^2 + 2, starting 1000 iterations on C203 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, rho: x^2 + 1, starting 1000 iterations on C203 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, pm1: starting B1 = 150K, B2 = gmp-ecm default on C203 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, current ECM pretesting depth: 0.00 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, scheduled 30 curves at B1=2000 toward target pretesting depth of 62.46 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, prp13 = 1448693608907 (curve 1 stg2 B1=2000 sigma=3433490832 thread=0) 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, Finished 1 curves using Lenstra ECM method on C203 input, B1=2K, B2=gmp-ecm default 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, current ECM pretesting depth: 0.00 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, scheduled 29 curves at B1=2000 toward target pretesting depth of 58.77 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, Finished 29 curves using Lenstra ECM method on C191 input, B1=2K, B2=gmp-ecm default 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, current ECM pretesting depth: 15.18 11/13/24 12:04:30 v1.34.5 @ RYZEN-9, scheduled 74 curves at B1=11000 toward target pretesting depth of 58.77 11/13/24 12:04:33 v1.34.5 @ RYZEN-9, Finished 74 curves using Lenstra ECM method on C191 input, B1=11K, B2=gmp-ecm default 11/13/24 12:04:33 v1.34.5 @ RYZEN-9, current ECM pretesting depth: 20.24 11/13/24 12:04:33 v1.34.5 @ RYZEN-9, scheduled 214 curves at B1=50000 toward target pretesting depth of 58.77 11/13/24 12:05:00 v1.34.5 @ RYZEN-9, Finished 214 curves using Lenstra ECM method on C191 input, B1=50K, B2=gmp-ecm default 11/13/24 12:05:00 v1.34.5 @ RYZEN-9, pm1: starting B1 = 3750K, B2 = gmp-ecm default on C191 11/13/24 12:05:01 v1.34.5 @ RYZEN-9, current ECM pretesting depth: 25.33 11/13/24 12:05:01 v1.34.5 @ RYZEN-9, scheduled 430 curves at B1=250000 toward target pretesting depth of 58.77 11/13/24 12:06:13 v1.34.5 @ RYZEN-9, prp28 = 1375269298189769023293780763 (curve 123 stg2 B1=250000 sigma=3343381565 thread=0) 11/13/24 12:06:13 v1.34.5 @ RYZEN-9, Finished 123 curves using Lenstra ECM method on C191 input, B1=250K, B2=gmp-ecm default 11/13/24 12:06:13 v1.34.5 @ RYZEN-9, current ECM pretesting depth: 26.76 11/13/24 12:06:13 v1.34.5 @ RYZEN-9, scheduled 307 curves at B1=250000 toward target pretesting depth of 50.46 11/13/24 12:07:04 v1.34.5 @ RYZEN-9, nfs: commencing nfs on c209: 10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000089 11/13/24 12:07:04 v1.34.5 @ RYZEN-9, nfs: input divides 10^208 + 89 11/13/24 12:07:04 v1.34.5 @ RYZEN-9, nfs: using supplied cofactor: 15458337400127107543354707572144731679252636562159722384986047709328727640817324761044951008774918627417412524503964601920181121263410871784999421334698311082081453 11/13/24 12:07:04 v1.34.5 @ RYZEN-9, nfs: commencing snfs on c164: 15458337400127107543354707572144731679252636562159722384986047709328727640817324761044951008774918627417412524503964601920181121263410871784999421334698311082081453 11/13/24 12:07:04 v1.34.5 @ RYZEN-9, gen: best 3 polynomials: n: 15458337400127107543354707572144731679252636562159722384986047709328727640817324761044951008774918627417412524503964601920181121263410871784999421334698311082081453 # 10^208+89, difficulty: 211.00, anorm: 5.97e+032, rnorm: 1.27e+047 # scaled difficulty: 213.39, suggest sieving rational side # size = 1.862e-014, alpha = -1.136, combined = 6.981e-012, rroots = 1 type: snfs size: 211 skew: 0.6164 c5: 1000 c0: 89 Y1: -1 Y0: 100000000000000000000000000000000000000000 m: 100000000000000000000000000000000000000000 n: 15458337400127107543354707572144731679252636562159722384986047709328727640817324761044951008774918627417412524503964601920181121263410871784999421334698311082081453 # 10^208+89, difficulty: 208.60, anorm: 4.22e+032, rnorm: 1.80e+047 # scaled difficulty: 211.04, suggest sieving rational side # size = 1.724e-014, alpha = -0.905, combined = 6.628e-012, rroots = 1 type: snfs size: 208 skew: 1.2328 c5: 125 c0: 356 Y1: -1 Y0: 200000000000000000000000000000000000000000 m: 200000000000000000000000000000000000000000 n: 15458337400127107543354707572144731679252636562159722384986047709328727640817324761044951008774918627417412524503964601920181121263410871784999421334698311082081453 # 10^208+89, difficulty: 209.40, anorm: 3.77e+038, rnorm: 3.31e+040 # scaled difficulty: 209.40, suggest sieving algebraic side # size = 2.014e-010, alpha = -1.761, combined = 5.509e-012, rroots = 0 type: snfs size: 209 skew: 2.2762 c6: 16 c0: 2225 Y1: -1 Y0: 50000000000000000000000000000000000 m: 50000000000000000000000000000000000 11/13/24 12:07:06 v1.34.5 @ RYZEN-9, test: fb generation took 1.8918 seconds 11/13/24 12:07:06 v1.34.5 @ RYZEN-9, test: commencing test sieving of polynomial 0 on the rational side over range 22600000-22602000 skew: 0.6164 c5: 1000 c0: 89 Y1: -1 Y0: 100000000000000000000000000000000000000000 m: 100000000000000000000000000000000000000000 rlim: 22600000 alim: 22600000 mfbr: 58 mfba: 58 lpbr: 29 lpba: 29 rlambda: 2.60 alambda: 2.60 11/13/24 12:10:28 v1.34.5 @ RYZEN-9, nfs: parsing special-q from .dat file 11/13/24 12:10:30 v1.34.5 @ RYZEN-9, test: fb generation took 1.6250 seconds 11/13/24 12:10:30 v1.34.5 @ RYZEN-9, test: commencing test sieving of polynomial 1 on the rational side over range 20200000-20202000 skew: 1.2328 c5: 125 c0: 356 Y1: -1 Y0: 200000000000000000000000000000000000000000 m: 200000000000000000000000000000000000000000 rlim: 20200000 alim: 20200000 mfbr: 56 mfba: 56 lpbr: 28 lpba: 28 rlambda: 2.60 alambda: 2.60 11/13/24 12:14:06 v1.34.5 @ RYZEN-9, nfs: parsing special-q from .dat file 11/13/24 12:14:08 v1.34.5 @ RYZEN-9, test: fb generation took 2.4688 seconds 11/13/24 12:14:08 v1.34.5 @ RYZEN-9, test: commencing test sieving of polynomial 2 on the algebraic side over range 21400000-21402000 skew: 2.2762 c6: 16 c0: 2225 Y1: -1 Y0: 50000000000000000000000000000000000 m: 50000000000000000000000000000000000 rlim: 21400000 alim: 21400000 mfbr: 56 mfba: 56 lpbr: 28 lpba: 28 rlambda: 2.60 alambda: 2.60 11/13/24 12:17:49 v1.34.5 @ RYZEN-9, nfs: parsing special-q from .dat file 11/13/24 12:17:49 v1.34.5 @ RYZEN-9, gen: selected polynomial: n: 15458337400127107543354707572144731679252636562159722384986047709328727640817324761044951008774918627417412524503964601920181121263410871784999421334698311082081453 # 10^208+89, difficulty: 208.60, anorm: 4.22e+032, rnorm: 1.80e+047 # scaled difficulty: 211.04, suggest sieving rational side # size = 1.724e-014, alpha = -0.905, combined = 6.628e-012, rroots = 1 type: snfs size: 208 skew: 1.2328 c5: 125 c0: 356 Y1: -1 Y0: 200000000000000000000000000000000000000000 m: 200000000000000000000000000000000000000000 11/14/24 14:04:25 v1.34.5 @ RYZEN-9, nfs: commencing msieve filtering 11/14/24 14:06:34 v1.34.5 @ RYZEN-9, nfs: raising min_rels by 5.00 percent to 22115535 11/14/24 15:44:27 v1.34.5 @ RYZEN-9, nfs: commencing msieve filtering 11/14/24 15:46:43 v1.34.5 @ RYZEN-9, nfs: raising min_rels by 5.00 percent to 23319356 11/14/24 17:24:00 v1.34.5 @ RYZEN-9, nfs: commencing msieve filtering 11/14/24 17:26:20 v1.34.5 @ RYZEN-9, nfs: raising min_rels by 5.00 percent to 24509378 11/14/24 19:14:34 v1.34.5 @ RYZEN-9, nfs: commencing msieve filtering 11/14/24 19:17:01 v1.34.5 @ RYZEN-9, nfs: raising min_rels by 5.00 percent to 25828866 11/14/24 21:06:39 v1.34.5 @ RYZEN-9, nfs: commencing msieve filtering 11/14/24 21:11:09 v1.34.5 @ RYZEN-9, nfs: commencing msieve linear algebra 11/15/24 02:32:40 v1.34.5 @ RYZEN-9, nfs: commencing msieve sqrt 11/15/24 02:36:11 v1.34.5 @ RYZEN-9, prp86 = 17233273991286234729423164698575372844798619319055863571406727617063160978020179439111 11/15/24 02:36:11 v1.34.5 @ RYZEN-9, prp78 = 897005259009019459496337158802095852407378814946512934342869025452534685962923 11/15/24 02:36:12 v1.34.5 @ RYZEN-9, NFS elapsed time = 138547.7487 seconds. 11/15/24 02:36:12 v1.34.5 @ RYZEN-9, 11/15/24 02:36:12 v1.34.5 @ RYZEN-9, 11/13/24 12:17:49 v1.34.5 @ RYZEN-9, test: test sieving took 645.09 seconds |
software ソフトウェア | YAFU |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:53 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 53 秒 (日本時間) | |
45 | 11e6 | 5880 | 600 | Dmitry Domanov | November 17, 2015 21:51:06 UTC 2015 年 11 月 18 日 (水) 6 時 51 分 6 秒 (日本時間) |
800 | Dmitry Domanov | August 5, 2018 22:27:54 UTC 2018 年 8 月 6 日 (月) 7 時 27 分 54 秒 (日本時間) | |||
4480 | Ignacio Santos | August 17, 2024 06:14:34 UTC 2024 年 8 月 17 日 (土) 15 時 14 分 34 秒 (日本時間) | |||
50 | 43e6 | 300 / 6222 | Dmitry Domanov | August 24, 2018 11:07:11 UTC 2018 年 8 月 24 日 (金) 20 時 7 分 11 秒 (日本時間) |
name 名前 | Bob Backstrom |
---|---|
date 日付 | November 28, 2024 05:02:58 UTC 2024 年 11 月 28 日 (木) 14 時 2 分 58 秒 (日本時間) |
composite number 合成数 | 157536518133093666736476714099642224293516340771308500422184575790379349047557582690097937419373610607575274973956980718389423224357010566187148755719336267799349537506884999468147<180> |
prime factors 素因数 | 107761515980531145382965964006223820785521368343247476141744109<63> 1461899609518811685044383426532187051966856232795736053596570625832220751084068423826002294996074081499832691390101983<118> |
factorization results 素因数分解の結果 | Number: n N=157536518133093666736476714099642224293516340771308500422184575790379349047557582690097937419373610607575274973956980718389423224357010566187148755719336267799349537506884999468147 ( 180 digits) SNFS difficulty: 209 digits. Divisors found: Wed Nov 27 11:17:07 2024 prp63 factor: 107761515980531145382965964006223820785521368343247476141744109 Wed Nov 27 11:17:07 2024 prp118 factor: 1461899609518811685044383426532187051966856232795736053596570625832220751084068423826002294996074081499832691390101983 Wed Nov 27 11:17:07 2024 elapsed time 02:39:20 (Msieve 1.44 - dependency 1) Version: Total time: 0.00 hours. Scaled time: 0.00 units (timescale=2.084). Factorization parameters were as follows: # # N = 10^209+89 = 1(207)21 # n: 157536518133093666736476714099642224293516340771308500422184575790379349047557582690097937419373610607575274973956980718389423224357010566187148755719336267799349537506884999468147 m: 500000000000000000000000000000000000000000 deg: 5 c5: 16 c0: 445 skew: 1.94 # Murphy_E = 6.31e-12 type: snfs lss: 1 rlim: 22000000 alim: 22000000 lpbr: 27 lpba: 27 mfbr: 57 mfba: 57 rlambda: 2.6 alambda: 2.6 q0: 50000 qintsize: 50000 Factor base limits: 22000000/22000000 Large primes per side: 3 Large prime bits: 27/27 Max factor residue bits: 57/57 Sieved special-q in [50000, 48850000) Primes: , , Relations: Max relations in full relation-set: 28 Initial matrix: Pruned matrix : Msieve: found 8493646 hash collisions in 28472257 relations (18096703 unique) Msieve: matrix is 2254584 x 2254811 (632.8 MB) Sieving start time: 2024/11/26 04:55:41 Sieving end time : 2024/11/27 08:30:05 Total sieving time: 27hrs 34min 24secs. Total relation processing time: 2hrs 30min 34sec. Matrix solve time: 0.00 hours. Total square root time: 0hrs 2min 25sec. Prototype def-par.txt line would be: snfs,209,5,0,0,0,0,0,0,0,0,22000000,22000000,27,27,57,57,2.6,2.6,100000 total time: 0.00 hours. --------- CPU info (if available) ---------- |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 7, 2014 23:42:38 UTC 2014 年 12 月 8 日 (月) 8 時 42 分 38 秒 (日本時間) | |
45 | 11e6 | 3391 | 591 | Cyp | June 6, 2015 20:37:26 UTC 2015 年 6 月 7 日 (日) 5 時 37 分 26 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 14:57:53 UTC 2018 年 8 月 6 日 (月) 23 時 57 分 53 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 11, 2024 12:42:29 UTC 2024 年 10 月 11 日 (金) 21 時 42 分 29 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | August 25, 2018 09:25:30 UTC 2018 年 8 月 25 日 (土) 18 時 25 分 30 秒 (日本時間) |
composite cofactor 合成数の残り | 11352594536842845251514592318545362858363707828286052521606283023959385448808869694886143145604149790963855919102884879947097874242876129649388147712303716467<158> |
---|
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:53 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 53 秒 (日本時間) | |
45 | 11e6 | 3388 | 585 | Cyp | January 26, 2015 20:22:09 UTC 2015 年 1 月 27 日 (火) 5 時 22 分 9 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 15:02:56 UTC 2018 年 8 月 7 日 (火) 0 時 2 分 56 秒 (日本時間) | |||
2003 | Thomas Kozlowski | October 11, 2024 13:12:52 UTC 2024 年 10 月 11 日 (金) 22 時 12 分 52 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | August 24, 2018 11:07:26 UTC 2018 年 8 月 24 日 (金) 20 時 7 分 26 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:54 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 54 秒 (日本時間) | |
45 | 11e6 | 3388 | 585 | Cyp | June 21, 2015 07:28:53 UTC 2015 年 6 月 21 日 (日) 16 時 28 分 53 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 14:58:38 UTC 2018 年 8 月 6 日 (月) 23 時 58 分 38 秒 (日本時間) | |||
2003 | Thomas Kozlowski | October 11, 2024 13:48:04 UTC 2024 年 10 月 11 日 (金) 22 時 48 分 4 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | August 25, 2018 21:56:56 UTC 2018 年 8 月 26 日 (日) 6 時 56 分 56 秒 (日本時間) |
name 名前 | Cyp |
---|---|
date 日付 | May 22, 2015 18:13:35 UTC 2015 年 5 月 23 日 (土) 3 時 13 分 35 秒 (日本時間) |
composite number 合成数 | 364104806665276786401013770390228306247070074936701099334628834561977513383471683571823884619624814566945809409302784412310681192790251422686958576998752082315519946440543145391303466489316283343<195> |
prime factors 素因数 | 23642973775958589726740762343391491073<38> |
composite cofactor 合成数の残り | 15400127332354340546559239997276917875875070706010604906073125483688708620258236710730725972290792403535867927704344474373950204043026804987271461093892310991<158> |
factorization results 素因数分解の結果 | Run 150 out of 591: Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=3375552099 Step 1 took 69467ms Step 2 took 297ms ********** Factor found in step 2: 23642973775958589726740762343391491073 Found probable prime factor of 38 digits: 23642973775958589726740762343391491073 Composite cofactor 15400127332354340546559239997276917875875070706010604906073125483688708620258236710730725972290792403535867927704344474373950204043026804987271461093892310991 has 158 digits |
software ソフトウェア | GMP-ECM 6.4.4 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
name 名前 | Bob Backstrom |
---|---|
date 日付 | September 20, 2022 15:39:36 UTC 2022 年 9 月 21 日 (水) 0 時 39 分 36 秒 (日本時間) |
composite number 合成数 | 15400127332354340546559239997276917875875070706010604906073125483688708620258236710730725972290792403535867927704344474373950204043026804987271461093892310991<158> |
prime factors 素因数 | 4373072761529608371379469758845144841269126239<46> 252988168439956157526446421834506182249332189497387173<54> 13919941092299097478005555510455973129706272354142058377853<59> |
factorization results 素因数分解の結果 | # # N = 10^217+89 = 1(215)21 # GMP-ECM 7.0.4 [configured with GMP 6.2.1, --enable-asm-redc] [ECM] Input number is 15400127332354340546559239997276917875875070706010604906073125483688708620258236710730725972290792403535867927704344474373950204043026804987271461093892310991 (158 digits) Using B1=50690000, B2=288592384096, polynomial Dickson(12), sigma=1:2318476848 Step 1 took 124940ms Step 2 took 34030ms ********** Factor found in step 2: 4373072761529608371379469758845144841269126239 Found prime factor of 46 digits: 4373072761529608371379469758845144841269126239 Composite cofactor 3521580401732831374976442183592245140668269222054486085652161031568576175417132765673208146156650867178269479569 has 112 digits Number: n N=3521580401732831374976442183592245140668269222054486085652161031568576175417132765673208146156650867178269479569 ( 112 digits) Divisors found: Wed Sep 21 01:22:02 2022 p54 factor: 252988168439956157526446421834506182249332189497387173 Wed Sep 21 01:22:02 2022 p59 factor: 13919941092299097478005555510455973129706272354142058377853 Wed Sep 21 01:22:02 2022 elapsed time 00:06:32 (Msieve 1.54 - dependency 6) Version: Total time: 0.00 hours. Scaled time: 0.00 units (timescale=2.333). Factorization parameters were as follows: # # Msieve: Polynomial selection complete -- 1(215)21 # # n: (112 digits) n: 3521580401732831374976442183592245140668269222054486085652161031568576175417132765673208146156650867178269479569 Y0: -7826085818248591365308 Y1: 2352950977681 c0: -45830863376359585058202855075 c1: 690688825837307318576715 c2: 12297992006591623613 c3: 2602899594245 c4: -153143338 c5: 120 # skew 275246.22, size 1.258e-10, alpha -6.806, combined = 8.848e-10 rroots = 5 skew: 275246.22 type: gnfs rlim: 2600000 alim: 2600000 lpbr: 26 lpba: 26 mfbr: 49 mfba: 49 rlambda: 2.6 alambda: 2.6 qintsize: 100000 Factor base limits: 2600000/2600000 Large primes per side: 3 Large prime bits: 26/26 Max factor residue bits: 49/49 Sieved special-q in [100000, 6900000) Primes: , , Relations: Max relations in full relation-set: 28 Initial matrix: Pruned matrix : Msieve: found 445569 hash collisions in 5938388 relations (5732543 unique) Msieve: matrix is 323150 x 323375 (114.1 MB) Sieving start time : 2022/09/21 01:14:14 Sieving end time : 2022/09/21 01:15:17 Total sieving time: 0hrs 1min 3secs. Total relation processing time: 0hrs 2min 35sec. Matrix solve time: 0.00 hours. Total square root time: 0hrs 2min 27sec. Prototype def-par.txt line would be: gnfs,111,5,maxs1,maxskew,goodScore,efrac,j0,j1,eStepSize,maxTime,2600000,2600000,26,26,49,49,2.6,2.6,100000 total time: 0.00 hours. --------- CPU info (if available) ---------- |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 8, 2014 22:18:58 UTC 2014 年 12 月 9 日 (火) 7 時 18 分 58 秒 (日本時間) | |
45 | 11e6 | 1391 / 3361 | 591 | Cyp | May 22, 2015 18:13:34 UTC 2015 年 5 月 23 日 (土) 3 時 13 分 34 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 15:02:32 UTC 2018 年 8 月 7 日 (火) 0 時 2 分 32 秒 (日本時間) | |||
50 | 43e6 | 300 / 7230 | Dmitry Domanov | August 24, 2018 11:07:46 UTC 2018 年 8 月 24 日 (金) 20 時 7 分 46 秒 (日本時間) |
name 名前 | Cyp |
---|---|
date 日付 | January 30, 2015 10:12:07 UTC 2015 年 1 月 30 日 (金) 19 時 12 分 7 秒 (日本時間) |
composite number 合成数 | 80870115355954670506997092877248364188198310498621283461387121153509241244048842141933461758460524701582642809027619866424778298946034415939803555819396940393157348244029489307449222187491478013<194> |
prime factors 素因数 | 852512600423186602454053328962894039<36> |
composite cofactor 合成数の残り | 94860903306075249950765106533009298945463235397194522341081137910542224590513329032280893842903421410089378541623816840176013416488451432883449943535014286667<158> |
factorization results 素因数分解の結果 | Run 194 out of 591: Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=249816248 Step 1 took 69565ms Step 2 took 20833ms ********** Factor found in step 2: 852512600423186602454053328962894039 Found probable prime factor of 36 digits: 852512600423186602454053328962894039 Composite cofactor 94860903306075249950765106533009298945463235397194522341081137910542224590513329032280893842903421410089378541623816840176013416488451432883449943535014286667 has 158 digits |
software ソフトウェア | GMP-ECM 6.4.4 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
name 名前 | Erik Branger |
---|---|
date 日付 | October 22, 2019 15:13:31 UTC 2019 年 10 月 23 日 (水) 0 時 13 分 31 秒 (日本時間) |
composite number 合成数 | 94860903306075249950765106533009298945463235397194522341081137910542224590513329032280893842903421410089378541623816840176013416488451432883449943535014286667<158> |
prime factors 素因数 | 688638790147037432493259230327920742361228409574199274479676539465313<69> 137751321394225627822104531494500216289466223869320602914626158290388077087738163221916459<90> |
factorization results 素因数分解の結果 | Number: 11121_219 N = 94860903306075249950765106533009298945463235397194522341081137910542224590513329032280893842903421410089378541623816840176013416488451432883449943535014286667 (158 digits) SNFS difficulty: 221 digits. Divisors found: r1=688638790147037432493259230327920742361228409574199274479676539465313 (pp69) r2=137751321394225627822104531494500216289466223869320602914626158290388077087738163221916459 (pp90) Version: Msieve v. 1.52 (SVN unknown) Total time: 60.55 hours. Factorization parameters were as follows: n: 94860903306075249950765106533009298945463235397194522341081137910542224590513329032280893842903421410089378541623816840176013416488451432883449943535014286667 m: 10000000000000000000000000000000000000000000000000000000 deg: 4 c4: 1 c0: 890 skew: 1.00 type: snfs lss: 1 rlim: 536870912 alim: 44739242 lpbr: 29 lpba: 28 mfbr: 58 mfba: 56 rlambda: 2.8 alambda: 2.8 side: 1 Number of cores used: 6 Number of threads per core: 1 Factor base limits: 536870912/44739242 Large primes per side: 3 Large prime bits: 29/28 Total raw relations: 34631454 Relations: 8689110 relations Total pre-computation time approximately 1000 CPU-days. Pre-computation saved approximately 18 G rational relations. Total batch smoothness checking time: 30.50 hours. Total relation processing time: 0.36 hours. Pruned matrix : 7472045 x 7472270 Matrix solve time: 28.80 hours. time per square root: 0.89 hours. Prototype def-par.txt line would be: snfs,221,4,0,0,0,0,0,0,0,0,536870912,44739242,29,28,58,56,2.8,2.8,100000 total time: 60.55 hours. Intel64 Family 6 Model 158 Stepping 10, GenuineIntel Windows-10-10.0.18362-SP0 processors: 12, speed: 3.19GHz |
software ソフトウェア | GGNFS, NFS_factory, Msieve |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 9, 2014 23:09:12 UTC 2014 年 12 月 10 日 (水) 8 時 9 分 12 秒 (日本時間) | |
45 | 11e6 | 1391 / 3361 | 591 | Cyp | January 30, 2015 10:12:06 UTC 2015 年 1 月 30 日 (金) 19 時 12 分 6 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 15:02:15 UTC 2018 年 8 月 7 日 (火) 0 時 2 分 15 秒 (日本時間) | |||
50 | 43e6 | 300 / 7230 | Dmitry Domanov | August 24, 2018 11:08:01 UTC 2018 年 8 月 24 日 (金) 20 時 8 分 1 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | August 26, 2018 21:16:33 UTC 2018 年 8 月 27 日 (月) 6 時 16 分 33 秒 (日本時間) |
composite number 合成数 | 14220507752301979888160569941796215456738868322692859738435005334987019115239227812151660219180885073338948243937298760884253981732571801821564848535075318229615441449831617882909081478050167764236029081000923691659<215> |
prime factors 素因数 | 7910482458817057341555670122908704827197<40> |
composite cofactor 合成数の残り | 1797678943899526830767597904530242769680560341351709020794996520711612897119524036218314624153120071566116435117889243659454272328358442561752853724563397669919741222690342247<175> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=3:1257528662 Step 1 took 353302ms Step 2 took 90926ms ********** Factor found in step 2: 7910482458817057341555670122908704827197 Found prime factor of 40 digits: 7910482458817057341555670122908704827197 Composite cofactor 1797678943899526830767597904530242769680560341351709020794996520711612897119524036218314624153120071566116435117889243659454272328358442561752853724563397669919741222690342247 has 175 digits |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:54 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 54 秒 (日本時間) | |
45 | 11e6 | 4586 | 585 | Cyp | May 30, 2015 13:37:20 UTC 2015 年 5 月 30 日 (土) 22 時 37 分 20 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 23:04:35 UTC 2018 年 8 月 8 日 (水) 8 時 4 分 35 秒 (日本時間) | |||
1000 | Dmitry Domanov | August 26, 2018 08:24:51 UTC 2018 年 8 月 26 日 (日) 17 時 24 分 51 秒 (日本時間) | |||
2201 | Thomas Kozlowski | October 11, 2024 14:26:39 UTC 2024 年 10 月 11 日 (金) 23 時 26 分 39 秒 (日本時間) |
name 名前 | Serge Batalov |
---|---|
date 日付 | December 11, 2014 01:31:53 UTC 2014 年 12 月 11 日 (木) 10 時 31 分 53 秒 (日本時間) |
composite number 合成数 | 401424009927119423735280840311798713509107353388982663544727913621870569169589926627358183912177322184006255053150525963199750943698672897441693072237683670100580117506522166708091617371095755599028972982642734907239<216> |
prime factors 素因数 | 2285066053115868713411450624611<31> 175672825465918572931156548995539072344742709784742339558504398051025065660775389140761442433200331082378939936129621084069072647939485890092328047818050971858444750828843374006464738349<186> |
factorization results 素因数分解の結果 | Input number is 401424009927119423735280840311798713509107353388982663544727913621870569169589926627358183912177322184006255053150525963199750943698672897441693072237683670100580117506522166708091617371095755599028972982642734907239 (216 digits) Using B1=3000000, B2=11414255590, polynomial Dickson(12), sigma=1624296624 Step 1 took 18177ms Step 2 took 11290ms ********** Factor found in step 2: 2285066053115868713411450624611 Found probable prime factor of 31 digits: 2285066053115868713411450624611 Probable prime cofactor 175672825465918572931156548995539072344742709784742339558504398051025065660775389140761442433200331082378939936129621084069072647939485890092328047818050971858444750828843374006464738349 has 186 digits |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 / 2318 | Serge Batalov | December 10, 2014 19:45:55 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 55 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | August 27, 2018 11:52:28 UTC 2018 年 8 月 27 日 (月) 20 時 52 分 28 秒 (日本時間) |
composite number 合成数 | 793715412575426256759060887229931791587399439353031041821058648580862043274795661645424455460149506968260516231007947924539772573888814884710890458253087225817845352814444272332131228009417032202574326485317<207> |
prime factors 素因数 | 544771545568874455113920936396629734644297<42> |
composite cofactor 合成数の残り | 1456969291130273048952311131741109805082847328744965601444367727994164130837620069390576144720561187492030897272280271606045370188815591488247392224029347991340965661<166> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=3:1942528148 Step 1 took 298518ms Step 2 took 82709ms ********** Factor found in step 2: 544771545568874455113920936396629734644297 Found prime factor of 42 digits: 544771545568874455113920936396629734644297 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 7, 2014 23:08:39 UTC 2014 年 12 月 8 日 (月) 8 時 8 分 39 秒 (日本時間) | |
45 | 11e6 | 4591 | 246 | Cyp | December 29, 2014 09:41:20 UTC 2014 年 12 月 29 日 (月) 18 時 41 分 20 秒 (日本時間) |
345 | Cyp | June 24, 2015 18:11:41 UTC 2015 年 6 月 25 日 (木) 3 時 11 分 41 秒 (日本時間) | |||
800 | Dmitry Domanov | August 7, 2018 23:01:23 UTC 2018 年 8 月 8 日 (水) 8 時 1 分 23 秒 (日本時間) | |||
1000 | Dmitry Domanov | August 26, 2018 23:31:32 UTC 2018 年 8 月 27 日 (月) 8 時 31 分 32 秒 (日本時間) | |||
2200 | Thomas Kozlowski | October 11, 2024 15:00:21 UTC 2024 年 10 月 12 日 (土) 0 時 0 分 21 秒 (日本時間) |
composite cofactor 合成数の残り | 41323891211641592196627730312442687028459396668272240014685623569163201606190240978721512146428742061002789228907431401310222034225347253270836319134854165042071<161> |
---|
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 10, 2014 07:14:37 UTC 2014 年 12 月 10 日 (水) 16 時 14 分 37 秒 (日本時間) | |
45 | 11e6 | 3392 | 591 | Cyp | June 10, 2015 17:15:07 UTC 2015 年 6 月 11 日 (木) 2 時 15 分 7 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 15:01:54 UTC 2018 年 8 月 7 日 (火) 0 時 1 分 54 秒 (日本時間) | |||
2001 | Thomas Kozlowski | October 11, 2024 15:30:41 UTC 2024 年 10 月 12 日 (土) 0 時 30 分 41 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | August 24, 2018 11:08:20 UTC 2018 年 8 月 24 日 (金) 20 時 8 分 20 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | August 26, 2018 08:16:33 UTC 2018 年 8 月 26 日 (日) 17 時 16 分 33 秒 (日本時間) |
composite number 合成数 | 2249448129490854568342590621867919406194479541587906338112084775422223485732224679657050946863179296509520589137111618592486650199987579026631401902998646369306793244480252029861466717<184> |
prime factors 素因数 | 26242644061998742864134009184197746892146707219<47> |
composite cofactor 合成数の残り | 85717282304957184333452300567558120755312292553297883664150563367349249366098682781853568624963127221365213728380734314652110966251137743<137> |
factorization results 素因数分解の結果 | Using B1=43000000, B2=240490660426, polynomial Dickson(12), sigma=1845417956 Step 1 took 133590ms Step 2 took 34047ms ********** Factor found in step 2: 26242644061998742864134009184197746892146707219 Found probable prime factor of 47 digits: 26242644061998742864134009184197746892146707219 |
name 名前 | Kenji Ibusuki |
---|---|
date 日付 | September 20, 2018 06:55:02 UTC 2018 年 9 月 20 日 (木) 15 時 55 分 2 秒 (日本時間) |
composite number 合成数 | 85717282304957184333452300567558120755312292553297883664150563367349249366098682781853568624963127221365213728380734314652110966251137743<137> |
prime factors 素因数 | 145839782021954890406284994854782003347405508078183505138481321606549<69> 587749660048540150456034960988843337209671556995405662241218940913107<69> |
factorization results 素因数分解の結果 | Number: 11121_229 N=85717282304957184333452300567558120755312292553297883664150563367349249366098682781853568624963127221365213728380734314652110966251137743 ( 137 digits) Divisors found (Total dependency: 2): r1=145839782021954890406284994854782003347405508078183505138481321606549 (pp69) r2=587749660048540150456034960988843337209671556995405662241218940913107 (pp69) Msieve version (polynomial selection): Msieve v. 1.52 (SVN 958) Msieve version (other): Msieve v. 1.49 (SVN unknown) GGNFS version (latsieve): GGNFS-0.77.1-VC8(UTE) Total time: 517.52 hours (24.71 calendar hours). Scaled time: 2320.58 units (timescale=4.484). Factorization parameters were as follows: n: 85717282304957184333452300567558120755312292553297883664150563367349249366098682781853568624963127221365213728380734314652110966251137743 type: gnfs deg: 5 skew: 401468.17 c0: 345449709109981838513890594348480 c1: 1628200346163491909417820724 c2: -19374073865100823511872 c3: -38045989250842033 c4: 145479991734 c5: 47880 Y0: -282216443833596281379555087 Y1: 572315799493243 rlim: 15000000 alim: 15000000 lpbr: 28 lpba: 28 mfbr: 55 mfba: 55 rlambda: 2.6 alambda: 2.6 relslim: 31100000 #q0: 7500000 qintsize: 5000 #lss: 1 #Murphy_E: 3.247e-011 Polynomial score was as follows: skew 401468.17, size 3.873e-013, alpha -6.632, combined = 3.586e-011 rroots = 5 Factor base limits: 15000000/15000000 Large primes per side: 3 Large prime bits: 28/28 Sieved special-q in [7500000, 27340001) Relations: raw-rels:31258761, rels:26895173, finalFF:1620008 Pruned matrix : 1619540 x 1619765 Total polynomial selection time: 96.29 hours (4.69 calendar hours). Total sieving time: 410.11 hours (18.17 calendar hours). Total relation processing time: 0.13 hours. Total matrix build processing time: 0.03 hours. Matrix pruned processing time: (N/A) Matrix solve time: 10.82 hours (1.55 calendar hours). Total time of square root: 0.15 hours. Prototype def-par.txt line would be: gnfs,136,5,maxs1,maxskew,goodScore,efrac,j0,j1,eStepSize,maxTime,15000000,15000000,28,28,55,55,2.6,2.6,100000 total time: 517.52 hours (24.71 calendar hours). --------- CPU info (if available) ---------- |
software ソフトウェア | Msieve v. 1.52 (SVN 958) + Msieve v. 1.49 (SVN unknown) + GGNFS-0.77.1-VC8 with factMsieve.pl (decomposed + modified) snfs (without procrels.exe, matbuild.exe for "finalFF" calculation) |
execution environment 実行環境 | [Envilonment] PC #1 (Master) --- Intel Core i7 2600, 16GB RAM, Windows 7 64bit PC #2,3 (Slave) --- Intel Core i7 4770, 16GB RAM, Windows 7 64bit PC #4 (Slave) --- Intel Core 2 Quad Q6600, 4GB RAM, Windows Vista 32bit [Threads used] (Polyselection) PC #1 --- 7 threads used PC #2,3 --- 7 threads used x 2 (Sieving) PC #1 --- 7 threads used PC #2,3 --- 7 threads used x 2 PC #4 --- 4 threads used (Relation processing and Matrix build processing) PC #1 --- 1 thread used (Matrix solve) PC #1 --- 7 threads used (Square root processing) PC #1 --- 1 thread used |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 7, 2014 04:41:23 UTC 2014 年 12 月 7 日 (日) 13 時 41 分 23 秒 (日本時間) | |
45 | 11e6 | 1391 / 3361 | 591 | Cyp | May 16, 2015 13:33:19 UTC 2015 年 5 月 16 日 (土) 22 時 33 分 19 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 14:59:31 UTC 2018 年 8 月 6 日 (月) 23 時 59 分 31 秒 (日本時間) | |||
50 | 43e6 | 300 / 7230 | Dmitry Domanov | August 25, 2018 21:57:31 UTC 2018 年 8 月 26 日 (日) 6 時 57 分 31 秒 (日本時間) |
name 名前 | Cyp |
---|---|
date 日付 | December 7, 2014 17:52:17 UTC 2014 年 12 月 8 日 (月) 2 時 52 分 17 秒 (日本時間) |
composite number 合成数 | 28302152992891829369376238378393049602551450413170395574381015640307484778889854275327476429188678312379975875810831918862482131081931025332379777194696821818220309109888514706124169866012796365641288154380093556162976363089<224> |
prime factors 素因数 | 174835064432975383180154262165245453<36> |
composite cofactor 合成数の残り | 161879157849035013770519321390061476608487688830696196563521416156974940483115395792559933283280245826262182981878062817041554561698501781441737977049976489303967944119316672132234462947413<189> |
factorization results 素因数分解の結果 | Run 19 out of 280: Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=4048255840 Step 1 took 21544ms Step 2 took 7028ms ********** Factor found in step 2: 174835064432975383180154262165245453 Found probable prime factor of 36 digits: 174835064432975383180154262165245453 Composite cofactor 161879157849035013770519321390061476608487688830696196563521416156974940483115395792559933283280245826262182981878062817041554561698501781441737977049976489303967944119316672132234462947413 has 189 digits |
software ソフトウェア | GMP-ECM 6.4.4 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 7, 2014 17:52:16 UTC 2014 年 12 月 8 日 (月) 2 時 52 分 16 秒 (日本時間) | |
45 | 11e6 | 3391 | 591 | Cyp | June 30, 2015 02:31:59 UTC 2015 年 6 月 30 日 (火) 11 時 31 分 59 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 14:59:50 UTC 2018 年 8 月 6 日 (月) 23 時 59 分 50 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 11, 2024 16:05:43 UTC 2024 年 10 月 12 日 (土) 1 時 5 分 43 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | August 25, 2018 21:57:51 UTC 2018 年 8 月 26 日 (日) 6 時 57 分 51 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:55 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 55 秒 (日本時間) | |
45 | 11e6 | 4601 | 600 | Dmitry Domanov | November 17, 2015 21:51:55 UTC 2015 年 11 月 18 日 (水) 6 時 51 分 55 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 23:04:59 UTC 2018 年 8 月 8 日 (水) 8 時 4 分 59 秒 (日本時間) | |||
1000 | Dmitry Domanov | August 27, 2018 14:45:27 UTC 2018 年 8 月 27 日 (月) 23 時 45 分 27 秒 (日本時間) | |||
2201 | Thomas Kozlowski | October 11, 2024 16:50:19 UTC 2024 年 10 月 12 日 (土) 1 時 50 分 19 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 10, 2014 20:06:10 UTC 2014 年 12 月 11 日 (木) 5 時 6 分 10 秒 (日本時間) | |
45 | 11e6 | 4600 | 600 | Dmitry Domanov | November 17, 2015 21:52:11 UTC 2015 年 11 月 18 日 (水) 6 時 52 分 11 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 23:04:13 UTC 2018 年 8 月 8 日 (水) 8 時 4 分 13 秒 (日本時間) | |||
1000 | Dmitry Domanov | August 28, 2018 20:22:16 UTC 2018 年 8 月 29 日 (水) 5 時 22 分 16 秒 (日本時間) | |||
2200 | Thomas Kozlowski | October 11, 2024 17:34:25 UTC 2024 年 10 月 12 日 (土) 2 時 34 分 25 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:56 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 56 秒 (日本時間) | |
45 | 11e6 | 3400 | 600 | Dmitry Domanov | November 17, 2015 21:52:25 UTC 2015 年 11 月 18 日 (水) 6 時 52 分 25 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 15:00:11 UTC 2018 年 8 月 7 日 (火) 0 時 0 分 11 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 11, 2024 18:14:23 UTC 2024 年 10 月 12 日 (土) 3 時 14 分 23 秒 (日本時間) | |||
50 | 43e6 | 300 / 6778 | Dmitry Domanov | August 25, 2018 21:58:14 UTC 2018 年 8 月 26 日 (日) 6 時 58 分 14 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 10, 2014 05:48:35 UTC 2014 年 12 月 10 日 (水) 14 時 48 分 35 秒 (日本時間) | |
45 | 11e6 | 4591 | 335 | Cyp | January 8, 2015 00:27:15 UTC 2015 年 1 月 8 日 (木) 9 時 27 分 15 秒 (日本時間) |
256 | Cyp | May 26, 2015 13:56:43 UTC 2015 年 5 月 26 日 (火) 22 時 56 分 43 秒 (日本時間) | |||
800 | Dmitry Domanov | August 7, 2018 23:05:19 UTC 2018 年 8 月 8 日 (水) 8 時 5 分 19 秒 (日本時間) | |||
1000 | Dmitry Domanov | August 27, 2018 14:44:56 UTC 2018 年 8 月 27 日 (月) 23 時 44 分 56 秒 (日本時間) | |||
2200 | Thomas Kozlowski | October 11, 2024 19:04:17 UTC 2024 年 10 月 12 日 (土) 4 時 4 分 17 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:56 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 56 秒 (日本時間) | |
45 | 11e6 | 3389 | 585 | Cyp | February 1, 2015 19:02:54 UTC 2015 年 2 月 2 日 (月) 4 時 2 分 54 秒 (日本時間) |
800 | Dmitry Domanov | August 6, 2018 15:00:44 UTC 2018 年 8 月 7 日 (火) 0 時 0 分 44 秒 (日本時間) | |||
2004 | Thomas Kozlowski | October 11, 2024 19:39:52 UTC 2024 年 10 月 12 日 (土) 4 時 39 分 52 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | August 25, 2018 21:58:29 UTC 2018 年 8 月 26 日 (日) 6 時 58 分 29 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 9, 2014 02:32:56 UTC 2014 年 12 月 9 日 (火) 11 時 32 分 56 秒 (日本時間) | |
45 | 11e6 | 3401 | 600 | Dmitry Domanov | November 17, 2015 21:52:45 UTC 2015 年 11 月 18 日 (水) 6 時 52 分 45 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 23:02:55 UTC 2018 年 8 月 8 日 (水) 8 時 2 分 55 秒 (日本時間) | |||
2001 | Thomas Kozlowski | October 11, 2024 20:20:00 UTC 2024 年 10 月 12 日 (土) 5 時 20 分 0 秒 (日本時間) | |||
50 | 43e6 | 300 / 6779 | Dmitry Domanov | August 28, 2018 21:41:55 UTC 2018 年 8 月 29 日 (水) 6 時 41 分 55 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 18, 2015 06:27:58 UTC 2015 年 11 月 18 日 (水) 15 時 27 分 58 秒 (日本時間) |
composite number 合成数 | 349652427562943413308883672107219158228488413755874661404438700667886148886317313381389908914421996475830289657219375198421816891794852327348141072368318042927015706762816577676689554810233209028516628304673216038100389<219> |
prime factors 素因数 | 150809522851602895011896894771405789<36> |
composite cofactor 合成数の残り | 2318503639236380591668232839419931340125585616044047688459451288098067679827717060145695382943831560670852632368467804642101427421656858392987550136077040687008716541658273883936311401<184> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=2958640057 Step 1 took 85678ms ********** Factor found in step 1: 150809522851602895011896894771405789 Found probable prime factor of 36 digits: 150809522851602895011896894771405789 |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | August 7, 2018 20:54:20 UTC 2018 年 8 月 8 日 (水) 5 時 54 分 20 秒 (日本時間) |
composite number 合成数 | 2318503639236380591668232839419931340125585616044047688459451288098067679827717060145695382943831560670852632368467804642101427421656858392987550136077040687008716541658273883936311401<184> |
prime factors 素因数 | 173341126306455911384298606819260657309<39> 13375381184136394503237015772788218304410588588106946685013364956118116046771474983208043119734659354605911355517843876082195749740277939255120189<146> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=3494537738 Step 1 took 34059ms Step 2 took 11101ms ********** Factor found in step 2: 173341126306455911384298606819260657309 Found probable prime factor of 39 digits: 173341126306455911384298606819260657309 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 10, 2014 02:50:14 UTC 2014 年 12 月 10 日 (水) 11 時 50 分 14 秒 (日本時間) | |
45 | 11e6 | 1400 / 4413 | 600 | Dmitry Domanov | November 17, 2015 21:53:00 UTC 2015 年 11 月 18 日 (水) 6 時 53 分 0 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 11:55:54 UTC 2018 年 8 月 7 日 (火) 20 時 55 分 54 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 8, 2014 22:51:45 UTC 2014 年 12 月 9 日 (火) 7 時 51 分 45 秒 (日本時間) | |
45 | 11e6 | 3402 | 600 | Dmitry Domanov | November 17, 2015 21:53:14 UTC 2015 年 11 月 18 日 (水) 6 時 53 分 14 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 11:56:10 UTC 2018 年 8 月 7 日 (火) 20 時 56 分 10 秒 (日本時間) | |||
2002 | Thomas Kozlowski | October 11, 2024 20:54:58 UTC 2024 年 10 月 12 日 (土) 5 時 54 分 58 秒 (日本時間) | |||
50 | 43e6 | 300 / 6779 | Dmitry Domanov | August 25, 2018 09:26:21 UTC 2018 年 8 月 25 日 (土) 18 時 26 分 21 秒 (日本時間) |
name 名前 | Erik Branger |
---|---|
date 日付 | November 19, 2024 17:44:39 UTC 2024 年 11 月 20 日 (水) 2 時 44 分 39 秒 (日本時間) |
composite number 合成数 | 46141028441512471253151536952521071659987032314274536935594595634801958051325084294791063818735911015444749875583710574460366837634959054544338237676240957121737532756634849538951047728197051538936625749728372269621664992943<224> |
prime factors 素因数 | 129344977841103681775960673121503497329327070569617299521140739445713885710116180651682077<90> 356728411196570016024879449521344958010439969893546902480821612476847022858071350224712855266646116913195679747462745169647232646355259<135> |
factorization results 素因数分解の結果 | Number: 11121_240 N = 46141028441512471253151536952521071659987032314274536935594595634801958051325084294791063818735911015444749875583710574460366837634959054544338237676240957121737532756634849538951047728197051538936625749728372269621664992943 (224 digits) SNFS difficulty: 241 digits. Divisors found: r1=129344977841103681775960673121503497329327070569617299521140739445713885710116180651682077 (pp90) r2=356728411196570016024879449521344958010439969893546902480821612476847022858071350224712855266646116913195679747462745169647232646355259 (pp135) Version: Msieve v. 1.52 (SVN unknown) Total time: 67.02 hours. Factorization parameters were as follows: n: 46141028441512471253151536952521071659987032314274536935594595634801958051325084294791063818735911015444749875583710574460366837634959054544338237676240957121737532756634849538951047728197051538936625749728372269621664992943 m: 1000000000000000000000000000000000000000000000000000000000000 deg: 4 c4: 1 c0: 89 skew: 1.00 type: snfs lss: 1 rlim: 500000000 alim: 100000000 lpbr: 29 lpba: 29 mfbr: 58 mfba: 58 rlambda: 2.8 alambda: 2.8 side: 1 Number of cores used: 8 Number of threads per core: 1 Factor base limits: 500000000/100000000 Large primes per side: 3 Large prime bits: 29/29 Total raw relations: 71082610 Relations: 13829030 relations Total pre-computation time approximately 1000 CPU-days. Pre-computation saved approximately 18 G rational relations. Total batch smoothness checking time: 18.74 hours. Total relation processing time: 1.04 hours. Pruned matrix : 10275325 x 10275572 Matrix solve time: 47.01 hours. time per square root: 0.21 hours. Prototype def-par.txt line would be: snfs,241,4,0,0,0,0,0,0,0,0,500000000,100000000,29,29,58,58,2.8,2.8,100000 total time: 67.02 hours. Intel64 Family 6 Model 165 Stepping 5, GenuineIntel Windows-10-10.0.26100-SP0 processors: 16, speed: 3.79GHz |
software ソフトウェア | GGNFS, NFS_factory, Msieve |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 6, 2014 18:17:40 UTC 2014 年 12 月 7 日 (日) 3 時 17 分 40 秒 (日本時間) | |
45 | 11e6 | 3392 | 591 | Cyp | June 15, 2015 06:50:43 UTC 2015 年 6 月 15 日 (月) 15 時 50 分 43 秒 (日本時間) |
800 | Dmitry Domanov | August 10, 2018 21:49:15 UTC 2018 年 8 月 11 日 (土) 6 時 49 分 15 秒 (日本時間) | |||
2001 | Thomas Kozlowski | October 11, 2024 21:40:37 UTC 2024 年 10 月 12 日 (土) 6 時 40 分 37 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | September 1, 2018 08:59:30 UTC 2018 年 9 月 1 日 (土) 17 時 59 分 30 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:56 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 56 秒 (日本時間) | |
45 | 11e6 | 4586 | 585 | Cyp | May 24, 2015 02:09:54 UTC 2015 年 5 月 24 日 (日) 11 時 9 分 54 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 11:56:28 UTC 2018 年 8 月 7 日 (火) 20 時 56 分 28 秒 (日本時間) | |||
1200 | Dmitry Domanov | August 25, 2018 15:51:09 UTC 2018 年 8 月 26 日 (日) 0 時 51 分 9 秒 (日本時間) | |||
2001 | Thomas Kozlowski | October 11, 2024 22:15:41 UTC 2024 年 10 月 12 日 (土) 7 時 15 分 41 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 8, 2014 22:22:39 UTC 2014 年 12 月 9 日 (火) 7 時 22 分 39 秒 (日本時間) | |
45 | 11e6 | 3393 | 591 | Cyp | July 3, 2015 21:10:58 UTC 2015 年 7 月 4 日 (土) 6 時 10 分 58 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 23:02:31 UTC 2018 年 8 月 8 日 (水) 8 時 2 分 31 秒 (日本時間) | |||
2002 | Thomas Kozlowski | October 11, 2024 22:55:48 UTC 2024 年 10 月 12 日 (土) 7 時 55 分 48 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | August 28, 2018 21:42:15 UTC 2018 年 8 月 29 日 (水) 6 時 42 分 15 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:57 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 57 秒 (日本時間) | |
45 | 11e6 | 3387 | 585 | Cyp | June 26, 2015 06:05:08 UTC 2015 年 6 月 26 日 (金) 15 時 5 分 8 秒 (日本時間) |
800 | Dmitry Domanov | August 11, 2018 06:38:48 UTC 2018 年 8 月 11 日 (土) 15 時 38 分 48 秒 (日本時間) | |||
2002 | Thomas Kozlowski | October 11, 2024 23:41:34 UTC 2024 年 10 月 12 日 (土) 8 時 41 分 34 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | September 1, 2018 09:00:05 UTC 2018 年 9 月 1 日 (土) 18 時 0 分 5 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 10, 2014 08:16:18 UTC 2014 年 12 月 10 日 (水) 17 時 16 分 18 秒 (日本時間) | |
45 | 11e6 | 3392 | 591 | Cyp | May 20, 2015 10:35:29 UTC 2015 年 5 月 20 日 (水) 19 時 35 分 29 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 11:56:53 UTC 2018 年 8 月 7 日 (火) 20 時 56 分 53 秒 (日本時間) | |||
2001 | Thomas Kozlowski | October 12, 2024 00:21:34 UTC 2024 年 10 月 12 日 (土) 9 時 21 分 34 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | August 25, 2018 21:58:49 UTC 2018 年 8 月 26 日 (日) 6 時 58 分 49 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:57 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 57 秒 (日本時間) | |
45 | 11e6 | 3387 | 585 | Cyp | June 14, 2015 07:38:02 UTC 2015 年 6 月 14 日 (日) 16 時 38 分 2 秒 (日本時間) |
800 | Dmitry Domanov | August 11, 2018 20:49:18 UTC 2018 年 8 月 12 日 (日) 5 時 49 分 18 秒 (日本時間) | |||
2002 | Thomas Kozlowski | October 12, 2024 01:07:13 UTC 2024 年 10 月 12 日 (土) 10 時 7 分 13 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | September 1, 2018 09:00:34 UTC 2018 年 9 月 1 日 (土) 18 時 0 分 34 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 300 | Serge Batalov | December 10, 2014 19:45:58 UTC 2014 年 12 月 11 日 (木) 4 時 45 分 58 秒 (日本時間) | |
45 | 11e6 | 3385 | 585 | Cyp | June 27, 2015 07:17:07 UTC 2015 年 6 月 27 日 (土) 16 時 17 分 7 秒 (日本時間) |
800 | Dmitry Domanov | August 11, 2018 21:25:38 UTC 2018 年 8 月 12 日 (日) 6 時 25 分 38 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 12, 2024 01:58:48 UTC 2024 年 10 月 12 日 (土) 10 時 58 分 48 秒 (日本時間) | |||
50 | 43e6 | 300 / 6782 | Dmitry Domanov | September 1, 2018 09:01:52 UTC 2018 年 9 月 1 日 (土) 18 時 1 分 52 秒 (日本時間) |
name 名前 | Cyp |
---|---|
date 日付 | December 10, 2014 08:17:53 UTC 2014 年 12 月 10 日 (水) 17 時 17 分 53 秒 (日本時間) |
composite number 合成数 | 252703031002835752725836023611633486497527411790903013954614928787266333022303941015036160804422369695501082980660269379713173818155128294170936712784721923010777757258316930650614940015165244115499837527201693097632134964441021744630263<237> |
prime factors 素因数 | 18682322361871060219359193673<29> 13526317879975131604902227495604430978044142244836289724327705643307456251589704931679670220480721203631153470482832932831788448104962688680893883563243919662240978997021760369585858492446348335959383433056831<209> |
factorization results 素因数分解の結果 | Run 3 out of 280: Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=3202588647 Step 1 took 24987ms ********** Factor found in step 1: 18682322361871060219359193673 Found probable prime factor of 29 digits: 18682322361871060219359193673 Probable prime cofactor 13526317879975131604902227495604430978044142244836289724327705643307456251589704931679670220480721203631153470482832932831788448104962688680893883563243919662240978997021760369585858492446348335959383433056831 has 209 digits |
software ソフトウェア | GMP-ECM 6.4.4 |
execution environment 実行環境 | Gentoo Linux, Intel(R) Core(TM) i7-3770K CPU |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 0 | - | - | |
35 | 1e6 | 118 / 896 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 3 / 2318 | Cyp | December 10, 2014 08:17:53 UTC 2014 年 12 月 10 日 (水) 17 時 17 分 53 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
35 | 1e6 | 118 | Makoto Kamada | December 6, 2014 04:00:00 UTC 2014 年 12 月 6 日 (土) 13 時 0 分 0 秒 (日本時間) | |
40 | 3e6 | 280 | Cyp | December 10, 2014 02:17:32 UTC 2014 年 12 月 10 日 (水) 11 時 17 分 32 秒 (日本時間) | |
45 | 11e6 | 3391 | 591 | Cyp | February 8, 2015 19:11:15 UTC 2015 年 2 月 9 日 (月) 4 時 11 分 15 秒 (日本時間) |
800 | Dmitry Domanov | August 11, 2018 20:50:05 UTC 2018 年 8 月 12 日 (日) 5 時 50 分 5 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 12, 2024 02:44:20 UTC 2024 年 10 月 12 日 (土) 11 時 44 分 20 秒 (日本時間) | |||
50 | 43e6 | 300 / 6781 | Dmitry Domanov | September 1, 2018 09:00:59 UTC 2018 年 9 月 1 日 (土) 18 時 0 分 59 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 15:46:51 UTC 2015 年 11 月 17 日 (火) 0 時 46 分 51 秒 (日本時間) | |
45 | 11e6 | 3400 | 600 | Dmitry Domanov | November 17, 2015 21:54:51 UTC 2015 年 11 月 18 日 (水) 6 時 54 分 51 秒 (日本時間) |
800 | Dmitry Domanov | August 8, 2018 05:18:13 UTC 2018 年 8 月 8 日 (水) 14 時 18 分 13 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 12, 2024 03:29:49 UTC 2024 年 10 月 12 日 (土) 12 時 29 分 49 秒 (日本時間) | |||
50 | 43e6 | 300 / 6768 | Dmitry Domanov | August 28, 2018 21:42:37 UTC 2018 年 8 月 29 日 (水) 6 時 42 分 37 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 2340 | 600 | Dmitry Domanov | October 29, 2015 07:29:27 UTC 2015 年 10 月 29 日 (木) 16 時 29 分 27 秒 (日本時間) |
1200 | Rich Dickerson | November 26, 2015 21:34:16 UTC 2015 年 11 月 27 日 (金) 6 時 34 分 16 秒 (日本時間) | |||
540 | Serge Batalov | December 4, 2015 16:02:53 UTC 2015 年 12 月 5 日 (土) 1 時 2 分 53 秒 (日本時間) | |||
45 | 11e6 | 3000 | 1000 | Dmitry Domanov | August 13, 2018 21:38:06 UTC 2018 年 8 月 14 日 (火) 6 時 38 分 6 秒 (日本時間) |
2000 | Thomas Kozlowski | October 12, 2024 04:21:49 UTC 2024 年 10 月 12 日 (土) 13 時 21 分 49 秒 (日本時間) | |||
50 | 43e6 | 300 / 6792 | Dmitry Domanov | September 8, 2018 00:56:00 UTC 2018 年 9 月 8 日 (土) 9 時 56 分 0 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 18, 2015 06:27:24 UTC 2015 年 11 月 18 日 (水) 15 時 27 分 24 秒 (日本時間) |
composite number 合成数 | 23364824711251119580688838334171483631641034213120071243180438940649621046429450969395850962861713399191097654043565480828232395468018299617904928084823742670301399603872259733337912921549505581875476180410051325792531741<221> |
prime factors 素因数 | 60868468199453763715662056382209158547<38> 383857609734637556315983177778911731316915423711511939622198397108604319524465138951655024307573591990299675268910037000776116695145671718483475040269884943301902318789641324953436303<183> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=4192748816 Step 1 took 92544ms ********** Factor found in step 1: 60868468199453763715662056382209158547 Found probable prime factor of 38 digits: 60868468199453763715662056382209158547 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 15:47:12 UTC 2015 年 11 月 17 日 (火) 0 時 47 分 12 秒 (日本時間) | |
45 | 11e6 | 600 / 4346 | Dmitry Domanov | November 17, 2015 21:55:06 UTC 2015 年 11 月 18 日 (水) 6 時 55 分 6 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 16, 2015 20:12:08 UTC 2015 年 11 月 17 日 (火) 5 時 12 分 8 秒 (日本時間) |
composite number 合成数 | 11000393279618870640931996779700061818705485753325792186491778218007541918300721606897492867724208218796216630892686238738957299314322589858730628302559783372801359154358132145660636105898327566809924107537632649373289150110569442920633<236> |
prime factors 素因数 | 11275445379713114036606344122116489<35> |
composite cofactor 合成数の残り | 975606098842967242194320105700602422710045550838520045331091404198121039377417837301175860208414086330670548996601820351848137910534702865802989910807826561498474639555237943805181073625445714631870897<201> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=1267065146 Step 1 took 33920ms Step 2 took 11213ms ********** Factor found in step 2: 11275445379713114036606344122116489 Found probable prime factor of 35 digits: 11275445379713114036606344122116489 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 15:47:28 UTC 2015 年 11 月 17 日 (火) 0 時 47 分 28 秒 (日本時間) | |
45 | 11e6 | 3402 | 600 | Dmitry Domanov | November 17, 2015 21:55:18 UTC 2015 年 11 月 18 日 (水) 6 時 55 分 18 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 21:06:57 UTC 2018 年 8 月 8 日 (水) 6 時 6 分 57 秒 (日本時間) | |||
2002 | Thomas Kozlowski | October 12, 2024 05:01:50 UTC 2024 年 10 月 12 日 (土) 14 時 1 分 50 秒 (日本時間) | |||
50 | 43e6 | 300 / 6767 | Dmitry Domanov | August 28, 2018 21:42:52 UTC 2018 年 8 月 29 日 (水) 6 時 42 分 52 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 16, 2015 17:11:12 UTC 2015 年 11 月 17 日 (火) 2 時 11 分 12 秒 (日本時間) |
composite number 合成数 | 20075829898379239919121507158415496014402370548633413241174933868133697632957209514767793438472412924891736342502143634893227930406123937963032847705567286072072086846679001799557132012138869648080825503841449100743<215> |
prime factors 素因数 | 115219577945166844292367932245063<33> 174239745158009127544528520072644848404318966536045891385038029340638483714649761794191536482831412940176875339652317568245816164617233143036656782389275274018107593493685512303391361<183> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=1591721254 Step 1 took 40018ms Step 2 took 13860ms ********** Factor found in step 2: 115219577945166844292367932245063 Found probable prime factor of 33 digits: 115219577945166844292367932245063 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 / 2336 | Dmitry Domanov | November 16, 2015 15:47:59 UTC 2015 年 11 月 17 日 (火) 0 時 47 分 59 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 15:48:11 UTC 2015 年 11 月 17 日 (火) 0 時 48 分 11 秒 (日本時間) | |
45 | 11e6 | 3401 | 1000 | Dmitry Domanov | August 2, 2018 16:56:55 UTC 2018 年 8 月 3 日 (金) 1 時 56 分 55 秒 (日本時間) |
400 | Dmitry Domanov | August 14, 2018 13:17:17 UTC 2018 年 8 月 14 日 (火) 22 時 17 分 17 秒 (日本時間) | |||
2001 | Thomas Kozlowski | October 12, 2024 05:53:24 UTC 2024 年 10 月 12 日 (土) 14 時 53 分 24 秒 (日本時間) | |||
50 | 43e6 | 300 / 6767 | Dmitry Domanov | September 8, 2018 00:56:53 UTC 2018 年 9 月 8 日 (土) 9 時 56 分 53 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 15:48:25 UTC 2015 年 11 月 17 日 (火) 0 時 48 分 25 秒 (日本時間) | |
45 | 11e6 | 3400 | 1000 | Dmitry Domanov | August 2, 2018 16:57:23 UTC 2018 年 8 月 3 日 (金) 1 時 57 分 23 秒 (日本時間) |
400 | Dmitry Domanov | August 14, 2018 13:16:31 UTC 2018 年 8 月 14 日 (火) 22 時 16 分 31 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 12, 2024 06:45:57 UTC 2024 年 10 月 12 日 (土) 15 時 45 分 57 秒 (日本時間) | |||
50 | 43e6 | 300 / 6768 | Dmitry Domanov | September 8, 2018 00:56:28 UTC 2018 年 9 月 8 日 (土) 9 時 56 分 28 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 16, 2015 20:11:39 UTC 2015 年 11 月 17 日 (火) 5 時 11 分 39 秒 (日本時間) |
composite number 合成数 | 372653764450601893521980265477970143734121721754078408778687189987826434884287657657687641178110885815414818069828682444627832802675546615034256353998029530540104261896764038949204579470427655316951711377594334907754011773142981472950958574209492533<249> |
prime factors 素因数 | 411598769663899035655171197573675287<36> |
composite cofactor 合成数の残り | 905381142793262887336663007583876171676883554028909254721894804776394235226903435559139897526749887387960802375162559593411678582444326894229059199762692200308629155420965545962892376013029101445363682633112883859<213> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=606921574 Step 1 took 41863ms Step 2 took 14107ms ********** Factor found in step 2: 411598769663899035655171197573675287 Found probable prime factor of 36 digits: 411598769663899035655171197573675287 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 15:48:38 UTC 2015 年 11 月 17 日 (火) 0 時 48 分 38 秒 (日本時間) | |
45 | 11e6 | 3402 | 600 | Dmitry Domanov | November 17, 2015 21:55:34 UTC 2015 年 11 月 18 日 (水) 6 時 55 分 34 秒 (日本時間) |
800 | Dmitry Domanov | August 8, 2018 05:18:56 UTC 2018 年 8 月 8 日 (水) 14 時 18 分 56 秒 (日本時間) | |||
2002 | Thomas Kozlowski | October 12, 2024 07:31:23 UTC 2024 年 10 月 12 日 (土) 16 時 31 分 23 秒 (日本時間) | |||
50 | 43e6 | 300 / 6767 | Dmitry Domanov | August 28, 2018 21:43:13 UTC 2018 年 8 月 29 日 (水) 6 時 43 分 13 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 17, 2015 23:32:26 UTC 2015 年 11 月 18 日 (水) 8 時 32 分 26 秒 (日本時間) |
composite number 合成数 | 869949953891930234001607114588450742886043337511279617839403548827936275905239789464884978521487916941540075697753543985159982640561125928436684655631314861373634062681687058467104971094370783984735368776340506697109<216> |
prime factors 素因数 | 24652707502367055468065485949<29> |
composite cofactor 合成数の残り | 35288211398622284398265278839045748922675820085204847361804703815288368512961631796323873942976195112326088697023441888258229392410407071184143599191177424040671920777981487345957528686841<188> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=1410041256 Step 1 took 86375ms Step 2 took 29174ms ********** Factor found in step 2: 24652707502367055468065485949 Found probable prime factor of 29 digits: 24652707502367055468065485949 |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 18, 2015 14:23:25 UTC 2015 年 11 月 18 日 (水) 23 時 23 分 25 秒 (日本時間) |
composite number 合成数 | 35288211398622284398265278839045748922675820085204847361804703815288368512961631796323873942976195112326088697023441888258229392410407071184143599191177424040671920777981487345957528686841<188> |
prime factors 素因数 | 3095629489189637911452355815550853176771<40> |
composite cofactor 合成数の残り | 11399365305781441523732183588931322497553859792436268943681707326133856993312043683806983000042507989151815031364402812422134980571516655195992129171<149> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=3317962962 Step 1 took 69315ms Step 2 took 25229ms ********** Factor found in step 2: 3095629489189637911452355815550853176771 Found probable prime factor of 40 digits: 3095629489189637911452355815550853176771 |
name 名前 | Eric Jeancolas |
---|---|
date 日付 | January 5, 2022 10:23:51 UTC 2022 年 1 月 5 日 (水) 19 時 23 分 51 秒 (日本時間) |
composite number 合成数 | 11399365305781441523732183588931322497553859792436268943681707326133856993312043683806983000042507989151815031364402812422134980571516655195992129171<149> |
prime factors 素因数 | 509331924040003115028608479602202936643882129008097404294704593<63> 22381014752348669226822303896534509933895156040007526692191484669278161900035621178147<86> |
factorization results 素因数分解の結果 | 11399365305781441523732183588931322497553859792436268943681707326133856993312043683806983000042507989151815031364402812422134980571516655195992129171=509331924040003115028608479602202936643882129008097404294704593*22381014752348669226822303896534509933895156040007526692191484669278161900035621178147 cado polynomial n: 11399365305781441523732183588931322497553859792436268943681707326133856993312043683806983000042507989151815031364402812422134980571516655195992129171 skew: 459974.924 c0: -11688117607387540678688377072010280 c1: -177855904361085028713082929318 c2: -2436788441956372450810471 c3: 2037034251296808679 c4: 4493989535840 c5: -4174800 Y0: -35323010021802435169686510659 Y1: 226254508082352320369 # MurphyE (Bf=5.369e+08,Bg=5.369e+08,area=5.369e+14) = 1.064e-07 # f(x) = -4174800*x^5+4493989535840*x^4+2037034251296808679*x^3-2436788441956372450810471*x^2-177855904361085028713082929318*x-11688117607387540678688377072010280 # g(x) = 226254508082352320369*x-35323010021802435169686510659 cado parameters (extracts) tasks.lim0 = 16000000 tasks.lim1 = 32000000 tasks.lpb0 = 29 tasks.lpb1 = 29 tasks.sieve.mfb0 = 64 tasks.sieve.mfb1 = 87 tasks.I = 13 tasks.linalg.m = 64 tasks.linalg.n = 64 tasks.linalg.characters.nchar = 50 cado log (extracts) Info:Square Root: Factors: 509331924040003115028608479602202936643882129008097404294704593 22381014752348669226822303896534509933895156040007526692191484669278161900035621178147 Info:Square Root: Total cpu/real time for sqrt: 3729.01/1131.18 Info:Filtering - Duplicate Removal, removal pass: Total cpu/real time for dup2: 1095.44/1085.81 Info:Filtering - Duplicate Removal, removal pass: Aggregate statistics: Info:Filtering - Duplicate Removal, removal pass: CPU time for dup2: 913.9s Info:Quadratic Characters: Total cpu/real time for characters: 154.84/67.5728 Info:Generate Free Relations: Total cpu/real time for freerel: 503.07/126.64 Info:Filtering - Duplicate Removal, splitting pass: Total cpu/real time for dup1: 233.84/282.551 Info:Filtering - Duplicate Removal, splitting pass: Aggregate statistics: Info:Filtering - Duplicate Removal, splitting pass: CPU time for dup1: 282.0s Info:Linear Algebra: Total cpu/real time for bwc: 318222/81407.6 Info:Linear Algebra: Aggregate statistics: Info:Linear Algebra: Krylov: CPU time 205066.21, WCT time 52246.83, iteration CPU time 0.39, COMM 0.02, cpu-wait 0.0, comm-wait 0.0 (128512 iterations) Info:Linear Algebra: Lingen CPU time 919.71, WCT time 233.54 Info:Linear Algebra: Mksol: CPU time 110516.13, WCT time 28261.87, iteration CPU time 0.42, COMM 0.02, cpu-wait 0.0, comm-wait 0.0 (64512 iterations) Info:Filtering - Singleton removal: Total cpu/real time for purge: 878.62/990.958 Info:Generate Factor Base: Total cpu/real time for makefb: 29.51/7.82503 Info:Polynomial Selection (root optimized): Aggregate statistics: Info:Polynomial Selection (root optimized): Total time: 9829.97 Info:Polynomial Selection (root optimized): Rootsieve time: 9827.54 Info:Filtering - Merging: Merged matrix has 4109326 rows and total weight 703117920 (171.1 entries per row on average) Info:Filtering - Merging: Total cpu/real time for merge: 1203.69/334.713 Info:Filtering - Merging: Total cpu/real time for replay: 178.15/159.607 Info:Polynomial Selection (size optimized): Aggregate statistics: Info:Polynomial Selection (size optimized): potential collisions: 85397.5 Info:Polynomial Selection (size optimized): raw lognorm (nr/min/av/max/std): 87205/44.840/53.417/58.690/0.893 Info:Polynomial Selection (size optimized): optimized lognorm (nr/min/av/max/std): 72197/43.490/47.731/54.160/1.068 Info:Polynomial Selection (size optimized): Total time: 77372.4 Info:Lattice Sieving: Aggregate statistics: Info:Lattice Sieving: Total number of relations: 50349898 Info:Lattice Sieving: Average J: 3802.49 for 1622996 special-q, max bucket fill -bkmult 1.0,1s:1.166810 Info:Lattice Sieving: Total time: 1.65879e+06s Info:Square Root: Total cpu/real time for sqrt: 3729.01/1131.18 Info:HTTP server: Shutting down HTTP server Info:Complete Factorization / Discrete logarithm: Total cpu/elapsed time for entire factorization: 3.56718e+06/623.373 509331924040003115028608479602202936643882129008097404294704593 22381014752348669226822303896534509933895156040007526692191484669278161900035621178147 |
software ソフトウェア | cado-nfs-3.0.0 |
execution environment 実行環境 | Linux Ubuntu 20.04.1 LTS [5.4.0-90-generic|libc 2.31 (Ubuntu GLIBC 2.31-0ubuntu9.3)] GenuineIntel Intel(R) Core(TM) i5-3470S CPU @ 2.90GHz [Family 6 Model 58 Stepping 9] (4 processeurs) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 15:48:53 UTC 2015 年 11 月 17 日 (火) 0 時 48 分 53 秒 (日本時間) | |
45 | 11e6 | 1400 | 600 | Dmitry Domanov | November 17, 2015 21:55:46 UTC 2015 年 11 月 18 日 (水) 6 時 55 分 46 秒 (日本時間) |
800 | Dmitry Domanov | March 1, 2016 13:17:57 UTC 2016 年 3 月 1 日 (火) 22 時 17 分 57 秒 (日本時間) | |||
50 | 43e6 | 920 / 7216 | 600 | Rich Dickerson | October 13, 2016 12:48:37 UTC 2016 年 10 月 13 日 (木) 21 時 48 分 37 秒 (日本時間) |
320 | Lionel Debroux | September 6, 2018 05:13:58 UTC 2018 年 9 月 6 日 (木) 14 時 13 分 58 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 19:35:56 UTC 2015 年 11 月 17 日 (火) 4 時 35 分 56 秒 (日本時間) | |
45 | 11e6 | 3403 | 1000 | Dmitry Domanov | August 2, 2018 16:57:51 UTC 2018 年 8 月 3 日 (金) 1 時 57 分 51 秒 (日本時間) |
400 | Dmitry Domanov | August 14, 2018 13:18:56 UTC 2018 年 8 月 14 日 (火) 22 時 18 分 56 秒 (日本時間) | |||
2003 | Thomas Kozlowski | October 12, 2024 08:16:55 UTC 2024 年 10 月 12 日 (土) 17 時 16 分 55 秒 (日本時間) | |||
50 | 43e6 | 300 / 6767 | Dmitry Domanov | September 1, 2018 09:02:27 UTC 2018 年 9 月 1 日 (土) 18 時 2 分 27 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 18, 2015 16:38:16 UTC 2015 年 11 月 19 日 (木) 1 時 38 分 16 秒 (日本時間) |
composite number 合成数 | 23302296236000828042436287042224322364972788032850374835028189731499687759716470895104603972849963363081254428878114419759879298020283283358879291162417501103835598273418224577217526261926706509352212313130468528994104628573084099709155418828866344895977<254> |
prime factors 素因数 | 29596292933284916516534169485849<32> 787338342965052120651846204119976675933754707669512650259420510229815419375629461914100152073136360121392600163010622750763192240370466681311591773428115821011082699796827036923868786929825071895392267730206002341070421073<222> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=1681181098 Step 1 took 33579ms Step 2 took 11431ms ********** Factor found in step 2: 29596292933284916516534169485849 Found probable prime factor of 32 digits: 29596292933284916516534169485849 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 / 2336 | Dmitry Domanov | November 18, 2015 14:18:38 UTC 2015 年 11 月 18 日 (水) 23 時 18 分 38 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 17, 2015 07:39:32 UTC 2015 年 11 月 17 日 (火) 16 時 39 分 32 秒 (日本時間) |
composite number 合成数 | 1067808622512508717101594244192055634876453938843513471356001819200741393832056751299437012772796996287476393806349236527123994686224917660796352717297321685393790019437279685603206212474431679380773100942021276572008431661<223> |
prime factors 素因数 | 103622573921742462228260895597527378621<39> |
composite cofactor 合成数の残り | 10304787674150383754616725262389534551902932764842433430213278121883979484848995594136025314840321423461712097965565560020214254887224904405655675697235082210187118621225750591941704241<185> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=2738256003 Step 1 took 36966ms Step 2 took 13182ms ********** Factor found in step 2: 103622573921742462228260895597527378621 Found probable prime factor of 39 digits: 103622573921742462228260895597527378621 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 19:36:21 UTC 2015 年 11 月 17 日 (火) 4 時 36 分 21 秒 (日本時間) | |
45 | 11e6 | 3401 | 600 | Dmitry Domanov | November 17, 2015 21:53:44 UTC 2015 年 11 月 18 日 (水) 6 時 53 分 44 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 11:57:45 UTC 2018 年 8 月 7 日 (火) 20 時 57 分 45 秒 (日本時間) | |||
2001 | Thomas Kozlowski | October 12, 2024 08:52:05 UTC 2024 年 10 月 12 日 (土) 17 時 52 分 5 秒 (日本時間) | |||
50 | 43e6 | 300 / 6767 | Dmitry Domanov | August 25, 2018 21:59:19 UTC 2018 年 8 月 26 日 (日) 6 時 59 分 19 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | August 3, 2018 17:25:09 UTC 2018 年 8 月 4 日 (土) 2 時 25 分 9 秒 (日本時間) |
composite number 合成数 | 2973302404674078383380395015932648694727369017714071985602335687300520464884595506548606120912977277947474478813369523373070101768298275679780518754310485899575542615855291705037653914053750269017546492970536530114783596348942827<229> |
prime factors 素因数 | 3536388480249431198007118970795717989<37> 840773693636837996294934230250086974338744427035585673862803528397318568786722427528836988754961940829639250740785744088882344705959246387773246811635794354728723731105638079638797351967593743<192> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=1419449234 Step 1 took 46507ms Step 2 took 13605ms ********** Factor found in step 2: 3536388480249431198007118970795717989 Found probable prime factor of 37 digits: 3536388480249431198007118970795717989 Probable prime cofactor 840773693636837996294934230250086974338744427035585673862803528397318568786722427528836988754961940829639250740785744088882344705959246387773246811635794354728723731105638079638797351967593743 has 192 digits |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 19:37:23 UTC 2015 年 11 月 17 日 (火) 4 時 37 分 23 秒 (日本時間) | |
45 | 11e6 | 1000 / 4346 | Dmitry Domanov | August 2, 2018 16:58:12 UTC 2018 年 8 月 3 日 (金) 1 時 58 分 12 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 16, 2015 22:12:00 UTC 2015 年 11 月 17 日 (火) 7 時 12 分 0 秒 (日本時間) |
composite number 合成数 | 194563352321279688634285768222370167227671795003970905184943490362946576390815305840556170357436188598890329900467084438688275812966194863451687582840584764145387067421868896915084724436457443711557715482036150955638871338915447729<231> |
prime factors 素因数 | 4472893423104729212934310483824587149<37> 43498320643246890023061086314431348595738837436920602789129480155723091511918917060507553812015326538485980030207584233935266106226813873200840592563624537905138429810234429890155267780296042421<194> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=2801058267 Step 1 took 39942ms Step 2 took 12804ms ********** Factor found in step 2: 4472893423104729212934310483824587149 Found probable prime factor of 37 digits: 4472893423104729212934310483824587149 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 / 2336 | Dmitry Domanov | November 16, 2015 19:37:53 UTC 2015 年 11 月 17 日 (火) 4 時 37 分 53 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:19:06 UTC 2015 年 11 月 17 日 (火) 7 時 19 分 6 秒 (日本時間) | |
45 | 11e6 | 3320 | 1000 | Dmitry Domanov | August 2, 2018 16:58:27 UTC 2018 年 8 月 3 日 (金) 1 時 58 分 27 秒 (日本時間) |
320 | Dmitry Domanov | August 15, 2018 09:02:51 UTC 2018 年 8 月 15 日 (水) 18 時 2 分 51 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 12, 2024 09:37:53 UTC 2024 年 10 月 12 日 (土) 18 時 37 分 53 秒 (日本時間) | |||
50 | 43e6 | 300 / 6786 | Dmitry Domanov | September 1, 2018 09:02:54 UTC 2018 年 9 月 1 日 (土) 18 時 2 分 54 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:20:03 UTC 2015 年 11 月 17 日 (火) 7 時 20 分 3 秒 (日本時間) | |
45 | 11e6 | 3322 | 1000 | Dmitry Domanov | August 2, 2018 16:58:44 UTC 2018 年 8 月 3 日 (金) 1 時 58 分 44 秒 (日本時間) |
320 | Dmitry Domanov | August 15, 2018 20:13:25 UTC 2018 年 8 月 16 日 (木) 5 時 13 分 25 秒 (日本時間) | |||
2002 | Thomas Kozlowski | October 12, 2024 10:29:41 UTC 2024 年 10 月 12 日 (土) 19 時 29 分 41 秒 (日本時間) | |||
50 | 43e6 | 320 / 6785 | Dmitry Domanov | September 8, 2018 00:57:49 UTC 2018 年 9 月 8 日 (土) 9 時 57 分 49 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:20:17 UTC 2015 年 11 月 17 日 (火) 7 時 20 分 17 秒 (日本時間) | |
45 | 11e6 | 3400 | 600 | Dmitry Domanov | November 17, 2015 21:56:04 UTC 2015 年 11 月 18 日 (水) 6 時 56 分 4 秒 (日本時間) |
800 | Dmitry Domanov | August 11, 2018 20:50:42 UTC 2018 年 8 月 12 日 (日) 5 時 50 分 42 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 12, 2024 11:15:23 UTC 2024 年 10 月 12 日 (土) 20 時 15 分 23 秒 (日本時間) | |||
50 | 43e6 | 300 / 6768 | Dmitry Domanov | September 1, 2018 09:03:19 UTC 2018 年 9 月 1 日 (土) 18 時 3 分 19 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:20:29 UTC 2015 年 11 月 17 日 (火) 7 時 20 分 29 秒 (日本時間) | |
45 | 11e6 | 3401 | 1000 | Dmitry Domanov | August 2, 2018 16:59:05 UTC 2018 年 8 月 3 日 (金) 1 時 59 分 5 秒 (日本時間) |
400 | Dmitry Domanov | August 15, 2018 23:16:26 UTC 2018 年 8 月 16 日 (木) 8 時 16 分 26 秒 (日本時間) | |||
2001 | Thomas Kozlowski | October 12, 2024 12:07:17 UTC 2024 年 10 月 12 日 (土) 21 時 7 分 17 秒 (日本時間) | |||
50 | 43e6 | 300 / 6767 | Dmitry Domanov | September 9, 2018 08:52:35 UTC 2018 年 9 月 9 日 (日) 17 時 52 分 35 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | October 28, 2015 23:09:20 UTC 2015 年 10 月 29 日 (木) 8 時 9 分 20 秒 (日本時間) | |
45 | 11e6 | 3402 | 600 | Dmitry Domanov | November 18, 2015 14:17:52 UTC 2015 年 11 月 18 日 (水) 23 時 17 分 52 秒 (日本時間) |
800 | Dmitry Domanov | August 13, 2018 21:49:56 UTC 2018 年 8 月 14 日 (火) 6 時 49 分 56 秒 (日本時間) | |||
2002 | Thomas Kozlowski | October 12, 2024 13:05:29 UTC 2024 年 10 月 12 日 (土) 22 時 5 分 29 秒 (日本時間) | |||
50 | 43e6 | 320 / 6767 | Dmitry Domanov | September 10, 2018 06:57:01 UTC 2018 年 9 月 10 日 (月) 15 時 57 分 1 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | August 13, 2018 15:06:28 UTC 2018 年 8 月 14 日 (火) 0 時 6 分 28 秒 (日本時間) |
composite number 合成数 | 2905242852075877140016881268858443072106126383249185256139853645297085772971067022204430671284676621398766630034820453966083367836383362402639096142301684176089858308488160223868156912145081668584125572883221313680046797<220> |
prime factors 素因数 | 32967157267274500527353818230515123969<38> |
composite cofactor 合成数の残り | 88125367574832538264189810089194948774132588306014918257382301119792108568441595646738995531424798315267503597439093906797547970577808573829745777029392518991803328648316306389540813<182> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=3245941332 Step 1 took 98276ms Step 2 took 33752ms ********** Factor found in step 2: 32967157267274500527353818230515123969 Found probable prime factor of 38 digits: 32967157267274500527353818230515123969 Composite cofactor 88125367574832538264189810089194948774132588306014918257382301119792108568441595646738995531424798315267503597439093906797547970577808573829745777029392518991803328648316306389540813 has 182 digits |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:20:47 UTC 2015 年 11 月 17 日 (火) 7 時 20 分 47 秒 (日本時間) | |
45 | 11e6 | 1400 | 600 | Dmitry Domanov | November 17, 2015 21:56:18 UTC 2015 年 11 月 18 日 (水) 6 時 56 分 18 秒 (日本時間) |
800 | Dmitry Domanov | August 11, 2018 21:23:55 UTC 2018 年 8 月 12 日 (日) 6 時 23 分 55 秒 (日本時間) | |||
50 | 43e6 | 2632 / 7216 | 840 | Dmitry Domanov | August 14, 2018 16:11:15 UTC 2018 年 8 月 15 日 (水) 1 時 11 分 15 秒 (日本時間) |
1792 | Dmitry Domanov | April 23, 2024 07:20:32 UTC 2024 年 4 月 23 日 (火) 16 時 20 分 32 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 19, 2015 10:55:00 UTC 2015 年 11 月 19 日 (木) 19 時 55 分 0 秒 (日本時間) |
composite number 合成数 | 336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700336700337<273> |
prime factors 素因数 | 298467188984714466554710172151285522119<39> 1128098327476727383427467365232751168336323410348418453877233713487812758824042811678170926615958124273316651312643800783985500313215025319292444649270354814468401716902814334658768855376453838756757538861661466555851552930996424276423<235> |
factorization results 素因数分解の結果 | Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=726068195 Step 1 took 142042ms Step 2 took 40548ms ********** Factor found in step 2: 298467188984714466554710172151285522119 Found probable prime factor of 39 digits: 298467188984714466554710172151285522119 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | October 28, 2015 23:08:41 UTC 2015 年 10 月 29 日 (木) 8 時 8 分 41 秒 (日本時間) | |
45 | 11e6 | 600 / 4346 | Dmitry Domanov | November 18, 2015 14:17:37 UTC 2015 年 11 月 18 日 (水) 23 時 17 分 37 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | October 28, 2015 23:08:16 UTC 2015 年 10 月 29 日 (木) 8 時 8 分 16 秒 (日本時間) | |
45 | 11e6 | 600 | Dmitry Domanov | November 18, 2015 14:17:22 UTC 2015 年 11 月 18 日 (水) 23 時 17 分 22 秒 (日本時間) | |
50 | 43e6 | 5600 | 600 | Dmitry Domanov | February 6, 2016 22:45:37 UTC 2016 年 2 月 7 日 (日) 7 時 45 分 37 秒 (日本時間) |
3200 | Dmitry Domanov | October 7, 2016 14:29:34 UTC 2016 年 10 月 7 日 (金) 23 時 29 分 34 秒 (日本時間) | |||
1800 | Dmitry Domanov | October 10, 2016 14:38:38 UTC 2016 年 10 月 10 日 (月) 23 時 38 分 38 秒 (日本時間) | |||
55 | 11e7 | 750 / 15729 | 250 | Dmitry Domanov | February 12, 2016 20:15:22 UTC 2016 年 2 月 13 日 (土) 5 時 15 分 22 秒 (日本時間) |
500 | Dmitry Domanov | October 12, 2016 14:41:29 UTC 2016 年 10 月 12 日 (水) 23 時 41 分 29 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:21:05 UTC 2015 年 11 月 17 日 (火) 7 時 21 分 5 秒 (日本時間) | |
45 | 11e6 | 3400 | 600 | Dmitry Domanov | November 18, 2015 14:17:06 UTC 2015 年 11 月 18 日 (水) 23 時 17 分 6 秒 (日本時間) |
800 | Dmitry Domanov | August 16, 2018 06:33:41 UTC 2018 年 8 月 16 日 (木) 15 時 33 分 41 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 12, 2024 14:03:28 UTC 2024 年 10 月 12 日 (土) 23 時 3 分 28 秒 (日本時間) | |||
50 | 43e6 | 300 / 6768 | Dmitry Domanov | September 10, 2018 16:29:45 UTC 2018 年 9 月 11 日 (火) 1 時 29 分 45 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | September 11, 2018 12:34:58 UTC 2018 年 9 月 11 日 (火) 21 時 34 分 58 秒 (日本時間) |
composite number 合成数 | 1458207685375750404610050748459241084459825976480687082355782695232232957735756123798651728296150372835045138174699531976065018355015594638030093485482577090124372410710760416293014615516044709291789660248728391280845378340819138806607296576577652397579<253> |
prime factors 素因数 | 44250566838956391890227450099484732377927879<44> 32953423866471330946726297958106499330055310324083742267565448490662746092556328372740022792032663315191084966221338060921729724271685294111304767434802484130862571607854530135384122574034692025421432270214301<209> |
factorization results 素因数分解の結果 | Using B1=43000000, B2=240490660426, polynomial Dickson(12), sigma=2256158742 Step 1 took 323948ms Step 2 took 73880ms ********** Factor found in step 2: 44250566838956391890227450099484732377927879 Found probable prime factor of 44 digits: 44250566838956391890227450099484732377927879 Probable prime cofactor 32953423866471330946726297958106499330055310324083742267565448490662746092556328372740022792032663315191084966221338060921729724271685294111304767434802484130862571607854530135384122574034692025421432270214301 has 209 digits |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:21:20 UTC 2015 年 11 月 17 日 (火) 7 時 21 分 20 秒 (日本時間) | |
45 | 11e6 | 1360 / 3294 | 1000 | Dmitry Domanov | August 2, 2018 16:59:44 UTC 2018 年 8 月 3 日 (金) 1 時 59 分 44 秒 (日本時間) |
360 | Dmitry Domanov | August 21, 2018 17:39:12 UTC 2018 年 8 月 22 日 (水) 2 時 39 分 12 秒 (日本時間) | |||
50 | 43e6 | 300 / 7225 | Dmitry Domanov | September 10, 2018 21:11:09 UTC 2018 年 9 月 11 日 (火) 6 時 11 分 9 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:21:32 UTC 2015 年 11 月 17 日 (火) 7 時 21 分 32 秒 (日本時間) | |
45 | 11e6 | 3401 | 600 | Dmitry Domanov | November 18, 2015 14:16:49 UTC 2015 年 11 月 18 日 (水) 23 時 16 分 49 秒 (日本時間) |
800 | Dmitry Domanov | August 20, 2018 23:39:12 UTC 2018 年 8 月 21 日 (火) 8 時 39 分 12 秒 (日本時間) | |||
2001 | Thomas Kozlowski | October 12, 2024 15:01:39 UTC 2024 年 10 月 13 日 (日) 0 時 1 分 39 秒 (日本時間) | |||
50 | 43e6 | 300 / 6767 | Dmitry Domanov | September 10, 2018 19:17:23 UTC 2018 年 9 月 11 日 (火) 4 時 17 分 23 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:21:43 UTC 2015 年 11 月 17 日 (火) 7 時 21 分 43 秒 (日本時間) | |
45 | 11e6 | 3321 | 1000 | Dmitry Domanov | August 2, 2018 16:52:37 UTC 2018 年 8 月 3 日 (金) 1 時 52 分 37 秒 (日本時間) |
320 | Dmitry Domanov | August 21, 2018 17:40:24 UTC 2018 年 8 月 22 日 (水) 2 時 40 分 24 秒 (日本時間) | |||
2001 | Thomas Kozlowski | October 12, 2024 15:59:32 UTC 2024 年 10 月 13 日 (日) 0 時 59 分 32 秒 (日本時間) | |||
50 | 43e6 | 300 / 6785 | Dmitry Domanov | September 10, 2018 21:11:23 UTC 2018 年 9 月 11 日 (火) 6 時 11 分 23 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:21:58 UTC 2015 年 11 月 17 日 (火) 7 時 21 分 58 秒 (日本時間) | |
45 | 11e6 | 3400 | 1000 | Dmitry Domanov | August 2, 2018 16:53:11 UTC 2018 年 8 月 3 日 (金) 1 時 53 分 11 秒 (日本時間) |
400 | Dmitry Domanov | August 21, 2018 22:27:06 UTC 2018 年 8 月 22 日 (水) 7 時 27 分 6 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 12, 2024 16:57:20 UTC 2024 年 10 月 13 日 (日) 1 時 57 分 20 秒 (日本時間) | |||
50 | 43e6 | 300 / 6768 | Dmitry Domanov | September 10, 2018 21:11:38 UTC 2018 年 9 月 11 日 (火) 6 時 11 分 38 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 17, 2015 07:38:19 UTC 2015 年 11 月 17 日 (火) 16 時 38 分 19 秒 (日本時間) |
composite number 合成数 | 3287599183352406008357949902684603148806760509040684576333521334136390553541691792515495974958267133681869524268708853933689335607810904830521478579710829621237028262403189826261899779173691913358879096334946819690277832589655623204637<235> |
prime factors 素因数 | 638958690471170821150939705341101<33> 923405597190554619217023240534991<33> 5572031717265982557402901259689595429513146995260674925695035329218097640932149520435707057071582145377624068056556259648843414967354965304201442992495949522359096939007<169> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=3769494785 Step 1 took 39367ms Step 2 took 10534ms ********** Factor found in step 2: 638958690471170821150939705341101 Found probable prime factor of 33 digits: 638958690471170821150939705341101 Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=2499115407 Step 1 took 27534ms Step 2 took 11530ms ********** Factor found in step 2: 923405597190554619217023240534991 Found probable prime factor of 33 digits: 923405597190554619217023240534991 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 / 2336 | Dmitry Domanov | November 16, 2015 22:22:09 UTC 2015 年 11 月 17 日 (火) 7 時 22 分 9 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 16, 2015 23:04:47 UTC 2015 年 11 月 17 日 (火) 8 時 4 分 47 秒 (日本時間) |
composite number 合成数 | 23476065084673101559438823839817991238210103598648082976752776898550674247623274120951911268104768462619672580268490221343493991525393531004538336205920612912341806146647495376252826995370468222088857842198089335330005636811351591084188804160104794881604551<257> |
prime factors 素因数 | 5842590198367949957685821791783<31> |
composite cofactor 合成数の残り | 4018092025559285130039604208905552732156542898011087937674890539088107345872887205939340418953126446387936919886103391878033513394336372384190035295882205016607933053244319929155109442018660166431776336935415767946316616915297<226> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=3137034887 Step 1 took 34447ms Step 2 took 10147ms ********** Factor found in step 2: 5842590198367949957685821791783 Found probable prime factor of 31 digits: 5842590198367949957685821791783 |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 17, 2015 15:56:54 UTC 2015 年 11 月 18 日 (水) 0 時 56 分 54 秒 (日本時間) |
composite number 合成数 | 4018092025559285130039604208905552732156542898011087937674890539088107345872887205939340418953126446387936919886103391878033513394336372384190035295882205016607933053244319929155109442018660166431776336935415767946316616915297<226> |
prime factors 素因数 | 20029536435393470716139645108663161867<38> |
composite cofactor 合成数の残り | 200608338516465102774104533782593461486109113007230124974185903520684519894483226725790862702254392031948566581791619109430417913760023919849527938929904553707953356797308016883208148836291<189> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=2069914409 Step 1 took 24958ms ********** Factor found in step 1: 20029536435393470716139645108663161867 Found probable prime factor of 38 digits: 20029536435393470716139645108663161867 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:22:24 UTC 2015 年 11 月 17 日 (火) 7 時 22 分 24 秒 (日本時間) | |
45 | 11e6 | 600 | Dmitry Domanov | November 19, 2015 22:50:34 UTC 2015 年 11 月 20 日 (金) 7 時 50 分 34 秒 (日本時間) | |
50 | 43e6 | 3292 / 7396 | 1500 | Erik Branger | December 4, 2015 09:52:58 UTC 2015 年 12 月 4 日 (金) 18 時 52 分 58 秒 (日本時間) |
1792 | Dmitry Domanov | April 14, 2024 21:04:32 UTC 2024 年 4 月 15 日 (月) 6 時 4 分 32 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:22:54 UTC 2015 年 11 月 17 日 (火) 7 時 22 分 54 秒 (日本時間) | |
45 | 11e6 | 4403 | 600 | Dmitry Domanov | November 18, 2015 14:16:18 UTC 2015 年 11 月 18 日 (水) 23 時 16 分 18 秒 (日本時間) |
800 | Dmitry Domanov | August 21, 2018 23:21:29 UTC 2018 年 8 月 22 日 (水) 8 時 21 分 29 秒 (日本時間) | |||
3003 | Thomas Kozlowski | October 12, 2024 18:33:25 UTC 2024 年 10 月 13 日 (日) 3 時 33 分 25 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 17, 2015 16:18:48 UTC 2015 年 11 月 18 日 (水) 1 時 18 分 48 秒 (日本時間) | |
45 | 11e6 | 3400 | 600 | Dmitry Domanov | November 18, 2015 14:16:04 UTC 2015 年 11 月 18 日 (水) 23 時 16 分 4 秒 (日本時間) |
800 | Dmitry Domanov | August 22, 2018 08:29:30 UTC 2018 年 8 月 22 日 (水) 17 時 29 分 30 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 12, 2024 19:31:07 UTC 2024 年 10 月 13 日 (日) 4 時 31 分 7 秒 (日本時間) | |||
50 | 43e6 | 300 / 6768 | Dmitry Domanov | September 10, 2018 19:17:53 UTC 2018 年 9 月 11 日 (火) 4 時 17 分 53 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:23:12 UTC 2015 年 11 月 17 日 (火) 7 時 23 分 12 秒 (日本時間) | |
45 | 11e6 | 3400 | 600 | Dmitry Domanov | November 19, 2015 06:24:13 UTC 2015 年 11 月 19 日 (木) 15 時 24 分 13 秒 (日本時間) |
800 | Dmitry Domanov | August 11, 2018 20:51:24 UTC 2018 年 8 月 12 日 (日) 5 時 51 分 24 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 12, 2024 20:16:39 UTC 2024 年 10 月 13 日 (日) 5 時 16 分 39 秒 (日本時間) | |||
50 | 43e6 | 300 / 6768 | Dmitry Domanov | September 10, 2018 13:50:42 UTC 2018 年 9 月 10 日 (月) 22 時 50 分 42 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:23:28 UTC 2015 年 11 月 17 日 (火) 7 時 23 分 28 秒 (日本時間) | |
45 | 11e6 | 4400 | 600 | Dmitry Domanov | November 18, 2015 14:15:47 UTC 2015 年 11 月 18 日 (水) 23 時 15 分 47 秒 (日本時間) |
800 | Dmitry Domanov | August 22, 2018 21:08:24 UTC 2018 年 8 月 23 日 (木) 6 時 8 分 24 秒 (日本時間) | |||
3000 | Thomas Kozlowski | October 12, 2024 21:53:04 UTC 2024 年 10 月 13 日 (日) 6 時 53 分 4 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:23:40 UTC 2015 年 11 月 17 日 (火) 7 時 23 分 40 秒 (日本時間) | |
45 | 11e6 | 4402 | 600 | Dmitry Domanov | November 18, 2015 14:15:28 UTC 2015 年 11 月 18 日 (水) 23 時 15 分 28 秒 (日本時間) |
800 | Dmitry Domanov | August 11, 2018 21:27:13 UTC 2018 年 8 月 12 日 (日) 6 時 27 分 13 秒 (日本時間) | |||
3002 | Thomas Kozlowski | October 12, 2024 23:29:08 UTC 2024 年 10 月 13 日 (日) 8 時 29 分 8 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 17, 2015 07:43:13 UTC 2015 年 11 月 17 日 (火) 16 時 43 分 13 秒 (日本時間) |
composite number 合成数 | 285152464184149139913622311631827299875248995286163275242477965235808863481525189502326060106915277650753517018250654715084575409094662587135337130888190026229879602921027482980948429185720951775861512301727427816436643241735593695864836109701<243> |
prime factors 素因数 | 38413501807823709063497987748604387<35> |
composite cofactor 合成数の残り | 7423235340811128713530608393785835344945480132301077063937043799155386144016678314481541946175317921849918847762251642018312087713294007922753412213861403563941584996497546681584761270683848873391580680642423<208> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=1203309197 Step 1 took 29464ms Step 2 took 9335ms ********** Factor found in step 2: 38413501807823709063497987748604387 Found probable prime factor of 35 digits: 38413501807823709063497987748604387 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:23:52 UTC 2015 年 11 月 17 日 (火) 7 時 23 分 52 秒 (日本時間) | |
45 | 11e6 | 3400 | 600 | Dmitry Domanov | November 19, 2015 06:23:08 UTC 2015 年 11 月 19 日 (木) 15 時 23 分 8 秒 (日本時間) |
800 | Dmitry Domanov | August 7, 2018 23:03:39 UTC 2018 年 8 月 8 日 (水) 8 時 3 分 39 秒 (日本時間) | |||
2000 | Thomas Kozlowski | October 13, 2024 00:09:26 UTC 2024 年 10 月 13 日 (日) 9 時 9 分 26 秒 (日本時間) | |||
50 | 43e6 | 300 / 6768 | Dmitry Domanov | August 28, 2018 21:43:47 UTC 2018 年 8 月 29 日 (水) 6 時 43 分 47 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:24:04 UTC 2015 年 11 月 17 日 (火) 7 時 24 分 4 秒 (日本時間) | |
45 | 11e6 | 3401 | 600 | Dmitry Domanov | November 18, 2015 14:15:12 UTC 2015 年 11 月 18 日 (水) 23 時 15 分 12 秒 (日本時間) |
800 | Dmitry Domanov | August 22, 2018 21:09:19 UTC 2018 年 8 月 23 日 (木) 6 時 9 分 19 秒 (日本時間) | |||
2001 | Thomas Kozlowski | October 13, 2024 01:07:24 UTC 2024 年 10 月 13 日 (日) 10 時 7 分 24 秒 (日本時間) | |||
50 | 43e6 | 300 / 6767 | Dmitry Domanov | September 10, 2018 21:10:35 UTC 2018 年 9 月 11 日 (火) 6 時 10 分 35 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | November 16, 2015 23:05:33 UTC 2015 年 11 月 17 日 (火) 8 時 5 分 33 秒 (日本時間) |
composite number 合成数 | 9847877219143149881559022568931757548326488076966068832630777465392399367880420779245851104627407953772727668978176354737071314755959824628341072419671887813244418819431238122660610997123349233778529599035011022579764173011749399<229> |
prime factors 素因数 | 182819243135689666610711501631101<33> 53866743184326550665527790507902228974455210477525837121056010849238223497054089950208906476683859613349499597484281891505707864815400882156964126930696053721044422284160403611971219683627484830499<197> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=3715105323 Step 1 took 28202ms Step 2 took 9565ms ********** Factor found in step 2: 182819243135689666610711501631101 Found probable prime factor of 33 digits: 182819243135689666610711501631101 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 / 2336 | Dmitry Domanov | November 16, 2015 22:24:43 UTC 2015 年 11 月 17 日 (火) 7 時 24 分 43 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | November 16, 2015 22:24:59 UTC 2015 年 11 月 17 日 (火) 7 時 24 分 59 秒 (日本時間) | |
45 | 11e6 | 4400 | 600 | Dmitry Domanov | November 18, 2015 14:14:46 UTC 2015 年 11 月 18 日 (水) 23 時 14 分 46 秒 (日本時間) |
800 | Dmitry Domanov | August 22, 2018 23:37:25 UTC 2018 年 8 月 23 日 (木) 8 時 37 分 25 秒 (日本時間) | |||
3000 | Thomas Kozlowski | October 13, 2024 02:43:25 UTC 2024 年 10 月 13 日 (日) 11 時 43 分 25 秒 (日本時間) |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 600 | Dmitry Domanov | October 28, 2015 18:42:05 UTC 2015 年 10 月 29 日 (木) 3 時 42 分 5 秒 (日本時間) | |
45 | 11e6 | 0 | - | - | |
50 | 43e6 | 1500 / 7531 | Erik Branger | November 1, 2015 21:50:35 UTC 2015 年 11 月 2 日 (月) 6 時 50 分 35 秒 (日本時間) |
name 名前 | Dmitry Domanov |
---|---|
date 日付 | October 28, 2015 17:14:25 UTC 2015 年 10 月 29 日 (木) 2 時 14 分 25 秒 (日本時間) |
composite number 合成数 | 9486504741976351480009878283216300280975890206067970390455260458007700235980155755598508790689689591098178999888909686966725299794619205944397072966370624668026604918302538608154131403838209744600757696068087739844915680910918051203179556457910441427171608985740891793029<271> |
prime factors 素因数 | 16809706722757922743626257917135621381<38> |
composite cofactor 合成数の残り | 564346832365194680549219761778679911933219544090500098467751368680666751021454712351687866705355617639997183635669411592861381133201219526405229880254507296591976026515856495675238449845664591293706227336810091485961257904322477812609<234> |
factorization results 素因数分解の結果 | Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=3600411141 Step 1 took 39053ms Step 2 took 11096ms ********** Factor found in step 2: 16809706722757922743626257917135621381 Found probable prime factor of 38 digits: 16809706722757922743626257917135621381 |
level レベル | B1 | reported runs 報告された回数 | name 名前 | date 日付 | |
---|---|---|---|---|---|
30 | 25e4 | 430 | Makoto Kamada | October 27, 2015 09:00:00 UTC 2015 年 10 月 27 日 (火) 18 時 0 分 0 秒 (日本時間) | |
35 | 1e6 | 0 | - | - | |
40 | 3e6 | 1336 | 136 | KTakahashi | October 28, 2015 09:16:15 UTC 2015 年 10 月 28 日 (水) 18 時 16 分 15 秒 (日本時間) |
1200 | Dmitry Domanov | October 28, 2015 13:45:12 UTC 2015 年 10 月 28 日 (水) 22 時 45 分 12 秒 (日本時間) | |||
45 | 11e6 | 600 | Dmitry Domanov | October 30, 2015 23:36:38 UTC 2015 年 10 月 31 日 (土) 8 時 36 分 38 秒 (日本時間) | |
50 | 43e6 | 800 / 7102 | 400 | Dmitry Domanov | October 31, 2015 21:25:30 UTC 2015 年 11 月 1 日 (日) 6 時 25 分 30 秒 (日本時間) |
400 | Dmitry Domanov | November 1, 2015 21:04:53 UTC 2015 年 11 月 2 日 (月) 6 時 4 分 53 秒 (日本時間) | |||
55 | 11e7 | 100 / 17424 | Dmitry Domanov | November 2, 2015 21:59:13 UTC 2015 年 11 月 3 日 (火) 6 時 59 分 13 秒 (日本時間) | |
60 | 26e7 | 5 / 41875 | Dmitry Domanov | November 3, 2015 13:51:53 UTC 2015 年 11 月 3 日 (火) 22 時 51 分 53 秒 (日本時間) |