Table of contents 目次

67×10153+239

c119

name 名前Tyler Cadigan
date 日付February 2, 2007 14:56:40 UTC 2007 年 2 月 2 日 (金) 23 時 56 分 40 秒 (日本時間)
composite number 合成数
41991209877419369037432001482964525746811820171841723098290931984019537579033702205003427059699691239093343828828120821<119>
prime factors 素因数
5154315594748468038755725836892835668230311<43>
8146806128868512010643223189999358487179665174602492096290584650206693233411<76>
factorization results 素因数分解の結果
Number: trial
N=41991209877419369037432001482964525746811820171841723098290931984019537579033702205003427059699691239093343828828120821
  ( 119 digits)
SNFS difficulty: 154 digits.
Divisors found:
 r1=5154315594748468038755725836892835668230311 (pp43)
 r2=8146806128868512010643223189999358487179665174602492096290584650206693233411 (pp76)
Version: GGNFS-0.77.1-20060722-pentium4
Total time: 67.72 hours.
Scaled time: 34.88 units (timescale=0.515).
Factorization parameters were as follows:
n: 41991209877419369037432001482964525746811820171841723098290931984019537579033702205003427059699691239093343828828120821
m: 1000000000000000000000000000000
c5: 67000
c0: 23
skew: 1
type: snfsFactor base limits: 3000000/3000000
Large primes per side: 3
Large prime bits: 27/27
Max factor residue bits: 48/48
Sieved algebraic special-q in [1500000, 2700001)
Primes: RFBsize:216816, AFBsize:217321, largePrimes:5617548 encountered
Relations: rels:5590468, finalFF:508481
Max relations in full relation-set: 0
Initial matrix: 434204 x 508481 with sparse part having weight 32443032.
Pruned matrix : 382267 x 384502 with weight 23492975.
Total sieving time: 55.64 hours.
Total relation processing time: 0.56 hours.
Matrix solve time: 11.02 hours.
Time per square root: 0.50 hours.
Prototype def-par.txt line would be:
snfs,154,5,0,0,0,0,0,0,0,0,3000000,3000000,27,27,48,48,2.3,2.3,100000
total time: 67.72 hours.
 --------- CPU info (if available) ----------
software ソフトウェア
GGNFS-0.77.1-20060722-pentium4
execution environment 実行環境
Pentium 4 3.20 GHz, 1 Gig RAM, Windows XP and Cygwin

67×10154+239

c135

name 名前Tyler Cadigan
date 日付March 21, 2007 06:32:19 UTC 2007 年 3 月 21 日 (水) 15 時 32 分 19 秒 (日本時間)
composite number 合成数
319272638356460530808654765903576271179526029216138353262035954538553273441603920608246228075825386906312739402331673810547706147712959<135>
prime factors 素因数
11379813213676719854455664457933030998149<41>
1587248342657233076523061352021858322701023<43>
17675906074957204594524237615101714309571956136443117<53>
factorization results 素因数分解の結果
Number: trial
N=319272638356460530808654765903576271179526029216138353262035954538553273441603920608246228075825386906312739402331673810547706147712959
  ( 135 digits)
SNFS difficulty: 156 digits.
Divisors found:
 r1=11379813213676719854455664457933030998149 (pp41)
 r2=1587248342657233076523061352021858322701023 (pp43)
 r3=17675906074957204594524237615101714309571956136443117 (pp53)
Version: GGNFS-0.77.1-20060722-pentium4
Total time: 71.79 hours.
Scaled time: 36.11 units (timescale=0.503).
Factorization parameters were as follows:
n: 319272638356460530808654765903576271179526029216138353262035954538553273441603920608246228075825386906312739402331673810547706147712959
m: 10000000000000000000000000000000
c5: 67
c0: 230
skew: 1.28
type: snfsFactor base limits: 3000000/3000000
Large primes per side: 3
Large prime bits: 27/27
Max factor residue bits: 48/48
Sieved algebraic special-q in [1500000, 1
)
Primes: RFBsize:216816, AFBsize:216516, largePrimes:5701357 encountered
Relations: rels:5685937, finalFF:503412
Max relations in full relation-set: 0
Initial matrix: 433397 x 503412 with sparse part having weight 33046809.
Pruned matrix : 393045 x 395275 with weight 24591541.
Total sieving time: 63.79 hours.
Total relation processing time: 0.59 hours.
Matrix solve time: 7.10 hours.
Time per square root: 0.32 hours.
Prototype def-par.txt line would be:
snfs,156,5,0,0,0,0,0,0,0,0,3000000,3000000,27,27,48,48,2.3,2.3,100000
total time: 71.79 hours.
 --------- CPU info (if available) ----------
software ソフトウェア
GGNFS-0.77.1-20060722-pentium4
execution environment 実行環境
Pentium 4 3.20 GHz, 1 Gig RAM, Windows XP and Cygwin

67×10155+239

c120

name 名前Robert Backstrom
date 日付April 1, 2007 08:35:54 UTC 2007 年 4 月 1 日 (日) 17 時 35 分 54 秒 (日本時間)
composite number 合成数
319811939732903422928211520638581135594400328539761352160261824264315953518741377685581991531923423122342513529968575339<120>
prime factors 素因数
22928700027420573259550411439689826644603502508189<50>
13948106057056804745088320535643843511280832362656801314221379280509351<71>
factorization results 素因数分解の結果
Number: n
N=319811939732903422928211520638581135594400328539761352160261824264315953518741377685581991531923423122342513529968575339
  ( 120 digits)
SNFS difficulty: 156 digits.
Divisors found:
 r1=22928700027420573259550411439689826644603502508189 (pp50)
 r2=13948106057056804745088320535643843511280832362656801314221379280509351 (pp71)
Version: GGNFS-0.77.1-20051202-athlon
Total time: 28.49 hours.
Scaled time: 29.26 units (timescale=1.027).
Factorization parameters were as follows:
name: KA_7_4_154_7
n: 319811939732903422928211520638581135594400328539761352160261824264315953518741377685581991531923423122342513529968575339
type: snfs
skew: 1
deg: 5
c5: 67
c0: 23
m: 10000000000000000000000000000000
rlim: 2800000
alim: 2800000
lpbr: 28
lpba: 28
mfbr: 48
mfba: 48
qintsize: 100000
Factor base limits: 2800000/2800000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 48/48
Sieved algebraic special-q in [700000, 1700001)
Primes: RFBsize:203362, AFBsize:203097, largePrimes:6631404 encountered
Relations: rels:6131336, finalFF:499186
Max relations in full relation-set: 48
Initial matrix: 406524 x 499186 with sparse part having weight 36598443.
Pruned matrix : 333552 x 335648 with weight 20323473.
Total sieving time: 25.34 hours.
Total relation processing time: 0.18 hours.
Matrix solve time: 2.56 hours.
Total square root time: 0.41 hours, sqrts: 4.
Prototype def-par.txt line would be:
snfs,156,5,0,0,0,0,0,0,0,0,2800000,2800000,28,28,48,48,2.3,2.3,100000
total time: 28.49 hours.
 --------- CPU info (if available) ----------
CPU: AMD Athlon(tm) XP 3000+ stepping 00
Memory: 2076900k/2097088k available (1540k kernel code, 19412k reserved, 599k data, 144k init, 0k highmem)
Calibrating delay loop... 4292.60 BogoMIPS
x86info v1.12b.  Dave Jones 2001-2003
Feedback to <davej@redhat.com>.

Found 1 CPU
--------------------------------------------------------------------------
Family: 6 Model: 10 Stepping: 0
CPU Model : Athlon XP (Barton)
2.2Ghz processor (estimate).

67×10157+239

c151

name 名前Robert Backstrom
date 日付April 17, 2007 12:59:55 UTC 2007 年 4 月 17 日 (火) 21 時 59 分 55 秒 (日本時間)
composite number 合成数
1092677591221344731989402195062399694133774596337703177710456117434346634094828337879663080921205556013746255934117947275589207350751367595680888154179<151>
prime factors 素因数
196947610222755818047239895555064844541747218059447880546494957<63>
5548062197786922108597350799550470655831242112272889027561109789284452833290497739281647<88>
factorization results 素因数分解の結果
Number: n
N=1092677591221344731989402195062399694133774596337703177710456117434346634094828337879663080921205556013746255934117947275589207350751367595680888154179
  ( 151 digits)
SNFS difficulty: 158 digits.
Divisors found:
 r1=196947610222755818047239895555064844541747218059447880546494957 (pp63)
 r2=5548062197786922108597350799550470655831242112272889027561109789284452833290497739281647 (pp88)
Version: GGNFS-0.77.1-20051202-athlon
Total time: 45.06 hours.
Scaled time: 53.85 units (timescale=1.195).
Factorization parameters were as follows:
name: KA_7_4_156_7
n: 1092677591221344731989402195062399694133774596337703177710456117434346634094828337879663080921205556013746255934117947275589207350751367595680888154179
type: snfs
skew: 0.32
deg: 5
c5: 6700
c0: 23
m: 10000000000000000000000000000000
rlim: 3000000
alim: 3000000
lpbr: 28
lpba: 28
mfbr: 48
mfba: 48
qintsize: 100000
Factor base limits: 3000000/3000000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 48/48
Sieved algebraic special-q in [100000, 1800001)
Primes: RFBsize:216816, AFBsize:217156, largePrimes:6920532 encountered
Relations: rels:6425312, finalFF:546121
Max relations in full relation-set: 28
Initial matrix: 434039 x 546121 with sparse part having weight 33794146.
Pruned matrix : 340986 x 343220 with weight 19013316.
Total sieving time: 41.78 hours.
Total relation processing time: 0.25 hours.
Matrix solve time: 2.93 hours.
Total square root time: 0.10 hours, sqrts: 1.
Prototype def-par.txt line would be:
snfs,158,5,0,0,0,0,0,0,0,0,3000000,3000000,28,28,48,48,2.3,2.3,100000
total time: 45.06 hours.
 --------- CPU info (if available) ----------

Cygwin on AMD XP 2700+

67×10158+239

c154

name 名前Robert Backstrom
date 日付April 24, 2007 05:04:59 UTC 2007 年 4 月 24 日 (火) 14 時 4 分 59 秒 (日本時間)
composite number 合成数
4683896414582157989923330907494443990036583328264937959345177299461072276716211105308672269166049720609074315259784974200119823857531251026786993868290231<154>
prime factors 素因数
29260919942103733509905823159085703681886443<44>
160073450317003468362082050116843117920380447672897296042460127280985936066587164006989343231612150440123554917<111>
factorization results 素因数分解の結果
Number: n
N=4683896414582157989923330907494443990036583328264937959345177299461072276716211105308672269166049720609074315259784974200119823857531251026786993868290231
  ( 154 digits)
SNFS difficulty: 159 digits.
Divisors found:
 r1=29260919942103733509905823159085703681886443 (pp44)
 r2=160073450317003468362082050116843117920380447672897296042460127280985936066587164006989343231612150440123554917 (pp111)
Version: GGNFS-0.77.1-20051202-athlon
Total time: 39.41 hours.
Scaled time: 51.55 units (timescale=1.308).
Factorization parameters were as follows:
name: KA_7_4_157_7
n: 4683896414582157989923330907494443990036583328264937959345177299461072276716211105308672269166049720609074315259784974200119823857531251026786993868290231
skew: 0.20
deg: 5
c5: 67000
c0: 23
m: 10000000000000000000000000000000
type: snfs
rlim: 3000000
alim: 3000000
lpbr: 28
lpba: 28
mfbr: 48
mfba: 48
rlambda: 2.5
alambda: 2.5
qintsize: 100000
Factor base limits: 3000000/3000000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 48/48
Sieved algebraic special-q in [100000, 1600001)
Primes: RFBsize:216816, AFBsize:217321, largePrimes:7168927 encountered
Relations: rels:6688652, finalFF:543810
Max relations in full relation-set: 48
Initial matrix: 434204 x 543810 with sparse part having weight 44745238.
Pruned matrix : 347629 x 349864 with weight 25223265.
Total sieving time: 35.47 hours.
Total relation processing time: 0.23 hours.
Matrix solve time: 3.64 hours.
Total square root time: 0.08 hours, sqrts: 1.
Prototype def-par.txt line would be:
snfs,159,5,0,0,0,0,0,0,0,0,3000000,3000000,28,28,48,48,2.5,2.5,100000
total time: 39.41 hours.
 --------- CPU info (if available) ----------

Cygwin on AMD 64 3200+

67×10160+239

c149

name 名前Robert Backstrom
date 日付July 17, 2007 23:55:16 UTC 2007 年 7 月 18 日 (水) 8 時 55 分 16 秒 (日本時間)
composite number 合成数
17583127386041774296839855493344250162140468475916165432870626962320083118392473075736410533833904510381392754713628615579892796163624551333407220759<149>
prime factors 素因数
10926374007313810829354105515688558278231191096957190128523<59>
1609237188318111563993645016667268783331795663193421462542500398194843294512175283899466533<91>
factorization results 素因数分解の結果
Number: n
N=17583127386041774296839855493344250162140468475916165432870626962320083118392473075736410533833904510381392754713628615579892796163624551333407220759
  ( 149 digits)
SNFS difficulty: 161 digits.
Divisors found:
 r1=10926374007313810829354105515688558278231191096957190128523 (pp59)
 r2=1609237188318111563993645016667268783331795663193421462542500398194843294512175283899466533 (pp91)
Version: GGNFS-0.77.1-20051202-athlon
Total time: 36.67 hours.
Scaled time: 53.17 units (timescale=1.450).
Factorization parameters were as follows:
name: KA_7_4_159_7
n: 17583127386041774296839855493344250162140468475916165432870626962320083118392473075736410533833904510381392754713628615579892796163624551333407220759
skew: 0.81
deg: 5
c5: 67
c0: 23
m: 100000000000000000000000000000000
type: snfs
rlim: 3500000
alim: 3500000
lpbr: 28
lpba: 28
mfbr: 48
mfba: 48
rlambda: 2.5
alambda: 2.5
qintsize: 100000
Factor base limits: 3500000/3500000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 48/48
Sieved algebraic special-q in [100000, 1600001)
Primes: RFBsize:250150, AFBsize:249876, largePrimes:7232989 encountered
Relations: rels:6812085, finalFF:613709
Max relations in full relation-set: 28
Initial matrix: 500091 x 613709 with sparse part having weight 37971848.
Pruned matrix : 402209 x 404773 with weight 21189373.
Total sieving time: 32.31 hours.
Total relation processing time: 0.20 hours.
Matrix solve time: 3.89 hours.
Total square root time: 0.28 hours, sqrts: 4.
Prototype def-par.txt line would be:
snfs,161,5,0,0,0,0,0,0,0,0,3500000,3500000,28,28,48,48,2.5,2.5,100000
total time: 36.67 hours.
 --------- CPU info (if available) ----------

Cygwin on AMD 64 3400+

67×10161+239

c126

name 名前Jo Yeong Uk
date 日付December 14, 2007 08:23:18 UTC 2007 年 12 月 14 日 (金) 17 時 23 分 18 秒 (日本時間)
composite number 合成数
140667195298659453673719734974401043818586334347777200647857689801243631926399513643145613817188557714512170233737114288533919<126>
prime factors 素因数
6578288242353527353007952811929293213<37>
21383556043195314533903891888116589234987504067784812619439791414098469151797015018035563<89>
factorization results 素因数分解の結果
GMP-ECM 6.1.3 [powered by GMP 4.2.2] [ECM]
Input number is 140667195298659453673719734974401043818586334347777200647857689801243631926399513643145613817188557714512170233737114288533919 (126 digits)
Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=3825635229
Step 1 took 20132ms
Step 2 took 8986ms
********** Factor found in step 2: 6578288242353527353007952811929293213
Found probable prime factor of 37 digits: 6578288242353527353007952811929293213
Probable prime cofactor 21383556043195314533903891888116589234987504067784812619439791414098469151797015018035563 has 89 digits
execution environment 実行環境
Core 2 Quad Q6600

67×10163+239

c135

name 名前Robert Backstrom
date 日付April 3, 2008 20:42:48 UTC 2008 年 4 月 4 日 (金) 5 時 42 分 48 秒 (日本時間)
composite number 合成数
109958983792734326039438991504943363864512677413094518012785059431448235356759293336664332882078371346096185002361452719220446762673707<135>
prime factors 素因数
173899319743099863715074733204526874599504106558134328664339<60>
632314053644234448964586908637373660241500036550939211425372049855075000713<75>
factorization results 素因数分解の結果
Number: n
N=109958983792734326039438991504943363864512677413094518012785059431448235356759293336664332882078371346096185002361452719220446762673707
  ( 135 digits)
SNFS difficulty: 164 digits.
Divisors found:

Fri Apr  4 07:32:32 2008  prp60 factor: 173899319743099863715074733204526874599504106558134328664339
Fri Apr  4 07:32:32 2008  prp75 factor: 632314053644234448964586908637373660241500036550939211425372049855075000713
Fri Apr  4 07:32:32 2008  elapsed time 00:45:38 (Msieve 1.33)

Version: GGNFS-0.77.1-20050930-k8
Total time: 43.82 hours.
Scaled time: 36.68 units (timescale=0.837).
Factorization parameters were as follows:
name: KA_7_4_162_7
n: 109958983792734326039438991504943363864512677413094518012785059431448235356759293336664332882078371346096185002361452719220446762673707
type: snfs
deg: 5
c5: 67000
c0: 23
skew: 0.20
m: 100000000000000000000000000000000
rlim: 3000000
alim: 3000000
lbpr: 28
lbpa: 28
mbpr: 48
mbpa: 48
rlambda: 2.5
alambda: 2.5
qintsize: 100000
Factor base limits: 3000000/3000000
Large primes per side: 3
Large prime bits: 27/27
Max factor residue bits: 48/48
Sieved  special-q in [100000, 2699990)
Primes: RFBsize:216816, AFBsize:217321, largePrimes:5672603 encountered
Relations: rels:5598931, finalFF:511786
Max relations in full relation-set: 28
Initial matrix: 434204 x 511786 with sparse part having weight 45127507.
Pruned matrix : 
Total sieving time: 43.62 hours.
Total relation processing time: 0.20 hours.
Matrix solve time: 0.00 hours.
Total square root time: 0.00 hours, sqrts: 0.
Prototype def-par.txt line would be:
snfs,164,5,0,0,0,0,0,0,0,0,3000000,3000000,27,27,48,48,2.5,2.5,100000
total time: 43.82 hours.
 --------- CPU info (if available) ----------
CPU0: AMD Athlon(tm) 64 X2 Dual Core Processor 6000+ stepping 03
CPU1: AMD Athlon(tm) 64 X2 Dual Core Processor 6000+ stepping 03
Memory: 2074672k/2097088k available (2382k kernel code, 21604k reserved, 681k data, 296k init, 1179584k highmem, 0k BadRAM)
Calibrating delay loop... 5963.77 BogoMIPS (lpj=2981888)
Calibrating delay loop... 6029.31 BogoMIPS (lpj=3014656)
Total of 2 processors activated (11993.08 BogoMIPS).

67×10165+239

c159

name 名前Robert Backstrom
date 日付November 8, 2007 04:34:01 UTC 2007 年 11 月 8 日 (木) 13 時 34 分 1 秒 (日本時間)
composite number 合成数
351004376233502067423634322257777917760418568213229144337614952819956323425302295053639519584815678512598105002812461856105588319194641309439952033732715018693<159>
prime factors 素因数
3436383816970356938534318813689175226044935882855602276600499748816862981373<76>
102143530795393078870771512077719961217354103402463760765008945031833455587257908841<84>
factorization results 素因数分解の結果
Number: n
N=351004376233502067423634322257777917760418568213229144337614952819956323425302295053639519584815678512598105002812461856105588319194641309439952033732715018693
  ( 159 digits)
SNFS difficulty: 166 digits.
Divisors found:

Thu Nov 08 15:26:03 2007  prp76 factor: 3436383816970356938534318813689175226044935882855602276600499748816862981373
Thu Nov 08 15:26:03 2007  prp84 factor: 102143530795393078870771512077719961217354103402463760765008945031833455587257908841
Thu Nov 08 15:26:03 2007  elapsed time 02:17:33 (Msieve 1.29)

Version: GGNFS-0.77.1-20051202-athlon
Total time: 81.97 hours.
Scaled time: 98.04 units (timescale=1.196).
Factorization parameters were as follows:
name: KA_7_4_164_7
n: 351004376233502067423634322257777917760418568213229144337614952819956323425302295053639519584815678512598105002812461856105588319194641309439952033732715018693
type: snfs
skew: 0.81
deg: 5
c5: 67
c0: 23
m: 1000000000000000000000000000000000
rlim: 3500000
alim: 3500000
lpbr: 28
lpba: 28
mfbr: 48
mfba: 48
qintsize: 100000
Factor base limits: 3500000/3500000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 48/48
Sieved  special-q in [100000, 2600000)
Primes: RFBsize:250150, AFBsize:249876, largePrimes:7471694 encountered
Relations: rels:6998321, finalFF:574667
Max relations in full relation-set: 28
Initial matrix: 500091 x 574667 with sparse part having weight 41672522.
Pruned matrix : 442380 x 444944 with weight 28636697.
Total sieving time: 81.66 hours.
Total relation processing time: 0.32 hours.
Matrix solve time: 0.00 hours.
Total square root time: 0.00 hours, sqrts: 0.
Prototype def-par.txt line would be:
snfs,166,5,0,0,0,0,0,0,0,0,3500000,3500000,28,28,48,48,2.5,2.5,100000
total time: 81.97 hours.
 --------- CPU info (if available) ----------

Cygwin on AMD XP 2700+

67×10166+239

c163

name 名前Robert Backstrom
date 日付January 11, 2008 19:41:30 UTC 2008 年 1 月 12 日 (土) 4 時 41 分 30 秒 (日本時間)
composite number 合成数
4507140790969573436123051670669276772079944568895346881664009471722736843521489643666794481107007594868586574102103556604979381512650266055848183353178206965214291<163>
prime factors 素因数
367004643653966872365696265950784599299328674117914006464687180669547532610783737<81>
12280882187472171359124427810998046557688853247533252193235475312651380187494652843<83>
factorization results 素因数分解の結果
Number: n
N=4507140790969573436123051670669276772079944568895346881664009471722736843521489643666794481107007594868586574102103556604979381512650266055848183353178206965214291
  ( 163 digits)
SNFS difficulty: 167 digits.
Divisors found:

Sat Jan 12 06:34:13 2008  prp81 factor: 367004643653966872365696265950784599299328674117914006464687180669547532610783737
Sat Jan 12 06:34:13 2008  prp83 factor: 12280882187472171359124427810998046557688853247533252193235475312651380187494652843
Sat Jan 12 06:34:13 2008  elapsed time 01:13:19 (Msieve 1.32)

Version: GGNFS-0.77.1-20051202-athlon
Total time: 60.51 hours.
Scaled time: 110.67 units (timescale=1.829).
Factorization parameters were as follows:
name: KA_7_4_165_7
n: 4507140790969573436123051670669276772079944568895346881664009471722736843521489643666794481107007594868586574102103556604979381512650266055848183353178206965214291
skew: 0.51
deg: 5
c5: 670
c0: 23
m: 1000000000000000000000000000000000
type: snfs
rlim: 3500000
alim: 3500000
lpbr: 28
lpba: 28
mfbr: 48
mfba: 48
rlambda: 2.5
alambda: 2.5
qintsize: 100000
Factor base limits: 3500000/3500000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 48/48
Sieved  special-q in [100000, 4100000)
Primes: RFBsize:250150, AFBsize:249316, largePrimes:7893359 encountered
Relations: rels:7379758, finalFF:577015
Max relations in full relation-set: 28
Initial matrix: 499533 x 577015 with sparse part having weight 63713644.
Pruned matrix : 468271 x 470832 with weight 45026970.
Total sieving time: 60.30 hours.
Total relation processing time: 0.21 hours.
Matrix solve time: 0.00 hours.
Total square root time: 0.00 hours, sqrts: 0.
Prototype def-par.txt line would be:
snfs,167,5,0,0,0,0,0,0,0,0,3500000,3500000,28,28,48,48,2.5,2.5,100000
total time: 60.51 hours.
 --------- CPU info (if available) ----------

Cygwin on AMD 64 X2 6000+

67×10167+239

c146

name 名前Robert Backstrom
date 日付July 5, 2008 06:46:44 UTC 2008 年 7 月 5 日 (土) 15 時 46 分 44 秒 (日本時間)
composite number 合成数
38188500343661731641278628082568518596787475525445421725857796402998819571882558221901996369633874551499717256707212411143098580436331158604597783<146>
prime factors 素因数
757066989154644615491448690405189133528186327<45>
50442696473007939117602260588880692523791409579601037039522012224179074179617065626216315357828500929<101>
factorization results 素因数分解の結果
Number: n
N=38188500343661731641278628082568518596787475525445421725857796402998819571882558221901996369633874551499717256707212411143098580436331158604597783
  ( 146 digits)
SNFS difficulty: 168 digits.
Divisors found:

Sat Jul  5 16:35:21 2008  prp45 factor: 757066989154644615491448690405189133528186327
Sat Jul  5 16:35:21 2008  prp101 factor: 50442696473007939117602260588880692523791409579601037039522012224179074179617065626216315357828500929
Sat Jul  5 16:35:21 2008  elapsed time 01:28:07 (Msieve 1.34)

Version: GGNFS-0.77.1-20050930-k8
Total time: 72.21 hours.
Scaled time: 60.44 units (timescale=0.837).
Factorization parameters were as follows:
name: KA_7_4_166_7
n: 38188500343661731641278628082568518596787475525445421725857796402998819571882558221901996369633874551499717256707212411143098580436331158604597783
type: snfs
deg: 5
c5: 6700
c0: 23
skew: 0.32
m: 1000000000000000000000000000000000
rlim: 5800000
alim: 5800000
lbpr: 28
lbpa: 28
mbpr: 48
mbpa: 48
rlambda: 2.5
alambda: 2.5
qintsize: 100000
Factor base limits: 5800000/5800000
Large primes per side: 3
Large prime bits: 27/27
Max factor residue bits: 48/48
Sieved  special-q in [100000, 3700187)
Primes: RFBsize:399993, AFBsize:399534, largePrimes:5669956 encountered
Relations: rels:5827169, finalFF:820255
Max relations in full relation-set: 28
Initial matrix: 
Pruned matrix : 
Total sieving time: 72.01 hours.
Total relation processing time: 0.20 hours.
Matrix solve time: 0.00 hours.
Total square root time: 0.00 hours, sqrts: 0.
Prototype def-par.txt line would be:
snfs,168,5,0,0,0,0,0,0,0,0,5800000,5800000,27,27,48,48,2.5,2.5,100000
total time: 72.21 hours.
 --------- CPU info (if available) ----------
CPU0: AMD Athlon(tm) 64 X2 Dual Core Processor 6000+ stepping 03
CPU1: AMD Athlon(tm) 64 X2 Dual Core Processor 6000+ stepping 03
Memory: 2074672k/2097088k available (2382k kernel code, 21604k reserved, 681k data, 296k init, 1179584k highmem, 0k BadRAM)
Calibrating delay loop... 5963.77 BogoMIPS (lpj=2981888)
Calibrating delay loop... 6029.31 BogoMIPS (lpj=3014656)
Total of 2 processors activated (11993.08 BogoMIPS).

67×10169+239

c140

name 名前Serge Batalov
date 日付November 24, 2008 04:07:13 UTC 2008 年 11 月 24 日 (月) 13 時 7 分 13 秒 (日本時間)
composite number 合成数
17645296599825356972196652946718116402721679125350513178441215898893463560972287693021794077117749728905327359821616360176301061848636518877<140>
prime factors 素因数
36355850834570118053133951458400315996827161<44>
485349570832950084927284102664391171870708737358204755442100584286328162153818832105814831878757<96>
factorization results 素因数分解の結果
SNFS difficulty: 171 digits.
Divisors found:
 r1=36355850834570118053133951458400315996827161 (pp44)
 r2=485349570832950084927284102664391171870708737358204755442100584286328162153818832105814831878757 (pp96)
Version:
Total time: 0.00 hours.
Scaled time: 0.00 units (timescale=2.728).
Factorization parameters were as follows:
n: 17645296599825356972196652946718116402721679125350513178441215898893463560972287693021794077117749728905327359821616360176301061848636518877
m: 10000000000000000000000000000000000
deg: 5
c5: 67
c0: 230
skew: 1.28
type: snfs
lss: 1
rlim: 5100000
alim: 5100000
lpbr: 27
lpba: 27
mfbr: 53
mfba: 53
rlambda: 2.5
alambda: 2.5
Factor base limits: 5100000/5100000
Large primes per side: 3
Large prime bits: 27/27
Max factor residue bits: 53/53
Sieved rational special-q in [2550000, 5150001)
Primes: rational ideals reading, algebraic ideals reading,
Relations: relations
Max relations in full relation-set:
Initial matrix:
Pruned matrix : 954924 x 955166
Total sieving time: 0.00 hours.
Total relation processing time: 0.00 hours.
Matrix solve time: 0.00 hours.
Time per square root: 0.00 hours.
Prototype def-par.txt line would be:
snfs,171,5,0,0,0,0,0,0,0,0,5100000,5100000,27,27,53,53,2.5,2.5,100000
total time: 40.00 hours.
software ソフトウェア
Msieve-1.38
execution environment 実行環境
Opteron-2.6GHz; Linux x86_64

67×10170+239

c132

name 名前Robert Backstrom
date 日付August 20, 2008 02:54:44 UTC 2008 年 8 月 20 日 (水) 11 時 54 分 44 秒 (日本時間)
composite number 合成数
150981552658095082799430373394435659971849038302350847114694274493259431264694852754518718704841914100326641012320930467123654852033<132>
prime factors 素因数
391473357601478428260308573141911055833729<42>
385675167227586804576204636749049134730109858952723259341925218373142706418135301504058177<90>
factorization results 素因数分解の結果
GMP-ECM 6.2.1 [powered by GMP 4.2.1] [ECM]
Input number is 150981552658095082799430373394435659971849038302350847114694274493259431264694852754518718704841914100326641012320930467123654852033 (132 digits)
Using B1=4160000, B2=8561760490, polynomial Dickson(6), sigma=3591426576
Step 1 took 40219ms
Step 2 took 15734ms
********** Factor found in step 2: 391473357601478428260308573141911055833729
Found probable prime factor of 42 digits: 391473357601478428260308573141911055833729
Probable prime cofactor 385675167227586804576204636749049134730109858952723259341925218373142706418135301504058177 has 90 digits

67×10172+239

c128

name 名前Robert Backstrom
date 日付October 18, 2008 19:39:36 UTC 2008 年 10 月 19 日 (日) 4 時 39 分 36 秒 (日本時間)
composite number 合成数
24005764362119208380643126639474468236589502434740487688631317708317255847326760429726029271573224998580272635211810049838955753<128>
prime factors 素因数
372451441498190701496064087171739015353189667169<48>
64453407041615178803320844206373593795836632906817191842652742276875476360294537<80>
factorization results 素因数分解の結果
GMP-ECM 6.2.1 [powered by GMP 4.2.1] [ECM]
Input number is 24005764362119208380643126639474468236589502434740487688631317708317255847326760429726029271573224998580272635211810049838955753 (128 digits)
Using B1=7600000, B2=17126054410, polynomial Dickson(12), sigma=3670869563
Step 1 took 75402ms
Step 2 took 28669ms
********** Factor found in step 2: 372451441498190701496064087171739015353189667169
Found probable prime factor of 48 digits: 372451441498190701496064087171739015353189667169
Probable prime cofactor 64453407041615178803320844206373593795836632906817191842652742276875476360294537 has 80 digits

67×10175+239

c170

name 名前Jo Yeong Uk
date 日付October 9, 2008 10:11:53 UTC 2008 年 10 月 9 日 (木) 19 時 11 分 53 秒 (日本時間)
composite number 合成数
22755453828487933037559982272482566690206674201778586649252970716006468118878973964058813542184926373030969731136841076351985571276177814648405652712852562218250546445053<170>
prime factors 素因数
32537127495497706794954789158042722494748647843639292901724992978991735797029256711<83>
699368861975805845572995184055315621277581863012055140909431384666070068950015730613723<87>
factorization results 素因数分解の結果
Number: 74447_175
N=22755453828487933037559982272482566690206674201778586649252970716006468118878973964058813542184926373030969731136841076351985571276177814648405652712852562218250546445053
  ( 170 digits)
SNFS difficulty: 176 digits.
Divisors found:
 r1=32537127495497706794954789158042722494748647843639292901724992978991735797029256711 (pp83)
 r2=699368861975805845572995184055315621277581863012055140909431384666070068950015730613723 (pp87)
Version: GGNFS-0.77.1-20050930-nocona
Total time: 114.12 hours.
Scaled time: 270.93 units (timescale=2.374).
Factorization parameters were as follows:
n: 22755453828487933037559982272482566690206674201778586649252970716006468118878973964058813542184926373030969731136841076351985571276177814648405652712852562218250546445053
m: 100000000000000000000000000000000000
c5: 67
c0: 23
skew: 0.81
type: snfs
Factor base limits: 8000000/8000000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 50/50
Sieved algebraic special-q in [4000000, 6100001)
Primes: RFBsize:539777, AFBsize:539305, largePrimes:10682829 encountered
Relations: rels:10758829, finalFF:1265217
Max relations in full relation-set: 28
Initial matrix: 1079147 x 1265217 with sparse part having weight 84046143.
Pruned matrix : 910123 x 915582 with weight 53529564.
Total sieving time: 108.12 hours.
Total relation processing time: 0.14 hours.
Matrix solve time: 5.77 hours.
Time per square root: 0.09 hours.
Prototype def-par.txt line would be:
snfs,176,5,0,0,0,0,0,0,0,0,8000000,8000000,28,28,50,50,2.6,2.6,100000
total time: 114.12 hours.
 --------- CPU info (if available) ----------
Intel(R) Core(TM)2 Quad CPU    Q6700  @ 2.66GHz stepping 0b
Intel(R) Core(TM)2 Quad CPU    Q6700  @ 2.66GHz stepping 0b
Intel(R) Core(TM)2 Quad CPU    Q6700  @ 2.66GHz stepping 0b
Memory: 8047092k/8912896k available (2460k kernel code, 339200k reserved, 1250k data, 196k init)
Calibrating delay using timer specific routine.. 5347.60 BogoMIPS (lpj=2673800)
Calibrating delay using timer specific routine.. 5344.69 BogoMIPS (lpj=2672347)
Calibrating delay using timer specific routine.. 5344.40 BogoMIPS (lpj=2672204)
Calibrating delay using timer specific routine.. 5344.68 BogoMIPS (lpj=2672344)
execution environment 実行環境
Core 2 Quad Q6700

67×10177+239

c163

name 名前Max Dettweiler
date 日付March 16, 2009 02:53:34 UTC 2009 年 3 月 16 日 (月) 11 時 53 分 34 秒 (日本時間)
composite number 合成数
4699557070486545413150632617232810611205401285539353103611105532358359278217042133165224860195668921299651521635886281182996775852215985243907035336194496232481621<163>
prime factors 素因数
10508727647188092857659286600551<32>
447205144929609509317687519376751730320168590535112616587559943697202952809222522383487947174800411997675493575507903924616064217571<132>
factorization results 素因数分解の結果
p32 = 10508727647188092857659286600551
p132 = 447205144929609509317687519376751730320168590535112616587559943697202952809222522383487947174800411997675493575507903924616064217571

B1=600000
B2=600000000
Application: GMP-ECM

Note: This result was found by the ECM "workers" at http://factorization.ath.cx/. They don't report tons of information to the user when a factor is found, so I don't know the sigma of the factor-finding curve, the exact GMP-ECM version used, or what hardware/OS the factor was found on.
software ソフトウェア
GMP-ECM

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Max DettweilerMarch 6, 2009 00:47:25 UTC 2009 年 3 月 6 日 (金) 9 時 47 分 25 秒 (日本時間)
255e4204Max DettweilerMarch 16, 2009 02:31:52 UTC 2009 年 3 月 16 日 (月) 11 時 31 分 52 秒 (日本時間)
3025e4403Max DettweilerMarch 16, 2009 02:38:31 UTC 2009 年 3 月 16 日 (月) 11 時 38 分 31 秒 (日本時間)

67×10178+239

c164

name 名前Max Dettweiler
date 日付March 16, 2009 03:21:03 UTC 2009 年 3 月 16 日 (月) 12 時 21 分 3 秒 (日本時間)
composite number 合成数
15198739827053752109371255318329827004707275286208509489032129014469338576060952304141081373583939682284537774279401421674066340350804174237278726273120219069071229<164>
prime factors 素因数
198704163317525547507605592238973<33>
composite cofactor 合成数の残り
76489287256485156251050899344113604927615140216976893295676856936461741706567528717104729246446033285942552667734816863911083369473<131>
factorization results 素因数分解の結果
p33 = 198704163317525547507605592238973
c131 = 76489287256485156251050899344113604927615140216976893295676856936461741706567528717104729246446033285942552667734816863911083369473

B1=600000
B2=600000000
Method=ECM
Found with: GMP-ECM (version unknown)

Found by the ECM "workers" at http://factorization.ath.cx/
software ソフトウェア
GMP-ECM

c131

name 名前Warut Roonguthai
date 日付March 27, 2012 18:07:03 UTC 2012 年 3 月 28 日 (水) 3 時 7 分 3 秒 (日本時間)
composite number 合成数
76489287256485156251050899344113604927615140216976893295676856936461741706567528717104729246446033285942552667734816863911083369473<131>
prime factors 素因数
989352171667064323342151675496034218850727215267413643720055591<63>
77312497457402099791558597354152987645141859986579585031282518679703<68>
factorization results 素因数分解の結果
N = 76489287256485156251050899344113604927615140216976893295676856936461741706567528717104729246446033285942552667734816863911083369473 (131 digits)
Divisors found:
r1=989352171667064323342151675496034218850727215267413643720055591 (pp63)
r2=77312497457402099791558597354152987645141859986579585031282518679703 (pp68)
Version: Msieve v. 1.49 (SVN unknown)
Total time: 28.68 hours.
Factorization parameters were as follows:
n: 76489287256485156251050899344113604927615140216976893295676856936461741706567528717104729246446033285942552667734816863911083369473
Y0: -34111946931499323689851463
Y1: 127548657817159
c0: 20322602581534290363010497059006400
c1: 27946088615701249496273039000
c2: -31744967039590889300206
c3: -45065113165785217
c4: 7898216310
c5: 1656
skew: 2177500.84
type: gnfs
Factor base limits: 7500000/7500000
Large primes per side: 3
Large prime bits: 28/28
Sieved algebraic special-q in [0, 0)
Total raw relations: 20573754
Relations: 2515578 relations
Pruned matrix : 1440171 x 1440398
Polynomial selection time: 0.00 hours.
Total sieving time: 26.55 hours.
Total relation processing time: 0.11 hours.
Matrix solve time: 1.91 hours.
time per square root: 0.12 hours.
Prototype def-par.txt line would be: gnfs,130,5,65,2000,1e-05,0.28,250,20,50000,3600,7500000,7500000,28,28,55,55,2.5,2.5,100000
total time: 28.68 hours.
Intel64 Family 6 Model 42 Stepping 7, GenuineIntel
Windows-7-6.1.7601-SP1
processors: 8, speed: 2.19GHz

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Max DettweilerMarch 6, 2009 00:48:12 UTC 2009 年 3 月 6 日 (金) 9 時 48 分 12 秒 (日本時間)
255e4204Max DettweilerMarch 16, 2009 03:01:23 UTC 2009 年 3 月 16 日 (月) 12 時 1 分 23 秒 (日本時間)
3025e4430Max DettweilerMarch 16, 2009 03:01:23 UTC 2009 年 3 月 16 日 (月) 12 時 1 分 23 秒 (日本時間)
351e6823Max DettweilerMarch 16, 2009 22:22:49 UTC 2009 年 3 月 17 日 (火) 7 時 22 分 49 秒 (日本時間)
403e62111Max DettweilerMarch 17, 2009 23:58:58 UTC 2009 年 3 月 18 日 (水) 8 時 58 分 58 秒 (日本時間)
4511e6160 / 3974Rich DickersonSeptember 23, 2010 21:54:02 UTC 2010 年 9 月 24 日 (金) 6 時 54 分 2 秒 (日本時間)

67×10179+239

c136

name 名前Serge Batalov
date 日付August 5, 2008 00:25:22 UTC 2008 年 8 月 5 日 (火) 9 時 25 分 22 秒 (日本時間)
composite number 合成数
1234147138867734713789998103410281007811300661886908438298326684874439283132507440044873006071524155369709215669608929580819160163140681<136>
prime factors 素因数
1503577311371110536299145909067<31>
820807237203065576049616360230827773873672515282532295733748443458210584183593438540403638917367057872443<105>
factorization results 素因数分解の結果
Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=13684552
Step 1 took 5001ms
Step 2 took 2448ms
********** Factor found in step 2: 1503577311371110536299145909067
Found probable prime factor of 31 digits: 1503577311371110536299145909067
Probable prime cofactor 820807237203065576049616360230827773873672515282532295733748443458210584183593438540403638917367057872443 has 105 digits
software ソフトウェア
GMP-ECM 6.2.1

67×10180+239

c157

name 名前Dmitry Domanov
date 日付January 17, 2013 08:45:08 UTC 2013 年 1 月 17 日 (木) 17 時 45 分 8 秒 (日本時間)
composite number 合成数
1317020445190078241008073831664548994549990446498809853601023343571929504672385951323717658507530962191188076691210427394282940664261334167729539800663787767<157>
prime factors 素因数
692110701830299400849256120116015814741899411932069639599732217823<66>
1902904321096601457297949159934221695883007244430106338351316026786517466116384486285988329<91>
factorization results 素因数分解の結果
Wed Jan 16 20:49:43 2013  commencing relation filtering
Wed Jan 16 20:49:43 2013  estimated available RAM is 48157.8 MB
Wed Jan 16 20:49:43 2013  commencing duplicate removal, pass 1
Wed Jan 16 20:55:59 2013  found 11391428 hash collisions in 30875742 relations
Wed Jan 16 20:56:25 2013  added 3800 free relations
Wed Jan 16 20:56:25 2013  commencing duplicate removal, pass 2
Wed Jan 16 20:56:39 2013  found 13964566 duplicates and 16914976 unique relations
Wed Jan 16 20:56:39 2013  memory use: 298.4 MB
Wed Jan 16 20:56:39 2013  reading ideals above 720000
Wed Jan 16 20:56:40 2013  commencing singleton removal, initial pass
Wed Jan 16 21:00:45 2013  memory use: 376.5 MB
Wed Jan 16 21:00:45 2013  reading all ideals from disk
Wed Jan 16 21:00:45 2013  memory use: 526.8 MB
Wed Jan 16 21:00:46 2013  keeping 19151253 ideals with weight <= 200, target excess is 158877
Wed Jan 16 21:00:48 2013  commencing in-memory singleton removal
Wed Jan 16 21:00:49 2013  begin with 16914976 relations and 19151253 unique ideals
Wed Jan 16 21:01:01 2013  reduce to 6100821 relations and 5771057 ideals in 19 passes
Wed Jan 16 21:01:01 2013  max relations containing the same ideal: 92
Wed Jan 16 21:01:03 2013  removing 730613 relations and 657880 ideals in 72733 cliques
Wed Jan 16 21:01:03 2013  commencing in-memory singleton removal
Wed Jan 16 21:01:04 2013  begin with 5370208 relations and 5771057 unique ideals
Wed Jan 16 21:01:10 2013  reduce to 5300930 relations and 5042763 ideals in 11 passes
Wed Jan 16 21:01:10 2013  max relations containing the same ideal: 84
Wed Jan 16 21:01:13 2013  removing 538865 relations and 466132 ideals in 72733 cliques
Wed Jan 16 21:01:13 2013  commencing in-memory singleton removal
Wed Jan 16 21:01:13 2013  begin with 4762065 relations and 5042763 unique ideals
Wed Jan 16 21:01:17 2013  reduce to 4716928 relations and 4530852 ideals in 9 passes
Wed Jan 16 21:01:17 2013  max relations containing the same ideal: 80
Wed Jan 16 21:01:20 2013  relations with 0 large ideals: 3669
Wed Jan 16 21:01:20 2013  relations with 1 large ideals: 13432
Wed Jan 16 21:01:20 2013  relations with 2 large ideals: 100855
Wed Jan 16 21:01:20 2013  relations with 3 large ideals: 406268
Wed Jan 16 21:01:20 2013  relations with 4 large ideals: 943599
Wed Jan 16 21:01:20 2013  relations with 5 large ideals: 1313300
Wed Jan 16 21:01:20 2013  relations with 6 large ideals: 1159373
Wed Jan 16 21:01:20 2013  relations with 7+ large ideals: 776432
Wed Jan 16 21:01:20 2013  commencing 2-way merge
Wed Jan 16 21:01:24 2013  reduce to 2726320 relation sets and 2540244 unique ideals
Wed Jan 16 21:01:24 2013  commencing full merge
Wed Jan 16 21:02:03 2013  memory use: 269.1 MB
Wed Jan 16 21:02:03 2013  found 1379342 cycles, need 1354444
Wed Jan 16 21:02:04 2013  weight of 1354444 cycles is about 94831541 (70.02/cycle)
Wed Jan 16 21:02:04 2013  distribution of cycle lengths:
Wed Jan 16 21:02:04 2013  1 relations: 166361
Wed Jan 16 21:02:04 2013  2 relations: 163680
Wed Jan 16 21:02:04 2013  3 relations: 165533
Wed Jan 16 21:02:04 2013  4 relations: 148474
Wed Jan 16 21:02:04 2013  5 relations: 129513
Wed Jan 16 21:02:04 2013  6 relations: 111336
Wed Jan 16 21:02:04 2013  7 relations: 94272
Wed Jan 16 21:02:04 2013  8 relations: 78462
Wed Jan 16 21:02:04 2013  9 relations: 64958
Wed Jan 16 21:02:04 2013  10+ relations: 231855
Wed Jan 16 21:02:04 2013  heaviest cycle: 21 relations
Wed Jan 16 21:02:04 2013  commencing cycle optimization
Wed Jan 16 21:02:06 2013  start with 7673964 relations
Wed Jan 16 21:02:16 2013  pruned 142828 relations
Wed Jan 16 21:02:16 2013  memory use: 265.5 MB
Wed Jan 16 21:02:16 2013  distribution of cycle lengths:
Wed Jan 16 21:02:16 2013  1 relations: 166361
Wed Jan 16 21:02:16 2013  2 relations: 166796
Wed Jan 16 21:02:16 2013  3 relations: 170438
Wed Jan 16 21:02:16 2013  4 relations: 151177
Wed Jan 16 21:02:16 2013  5 relations: 131759
Wed Jan 16 21:02:16 2013  6 relations: 112012
Wed Jan 16 21:02:16 2013  7 relations: 94160
Wed Jan 16 21:02:16 2013  8 relations: 78062
Wed Jan 16 21:02:16 2013  9 relations: 63920
Wed Jan 16 21:02:16 2013  10+ relations: 219759
Wed Jan 16 21:02:16 2013  heaviest cycle: 20 relations
Wed Jan 16 21:02:19 2013  RelProcTime: 756
Wed Jan 16 21:02:19 2013  
Wed Jan 16 21:02:19 2013  commencing linear algebra
Wed Jan 16 21:02:19 2013  read 1354444 cycles
Wed Jan 16 21:02:21 2013  cycles contain 4520487 unique relations
Wed Jan 16 21:03:19 2013  read 4520487 relations
Wed Jan 16 21:03:25 2013  using 20 quadratic characters above 268434938
Wed Jan 16 21:03:49 2013  building initial matrix
Wed Jan 16 21:04:42 2013  memory use: 576.7 MB
Wed Jan 16 21:04:43 2013  read 1354444 cycles
Wed Jan 16 21:04:44 2013  matrix is 1354251 x 1354444 (407.9 MB) with weight 122914195 (90.75/col)
Wed Jan 16 21:04:44 2013  sparse part has weight 92028875 (67.95/col)
Wed Jan 16 21:05:00 2013  filtering completed in 2 passes
Wed Jan 16 21:05:00 2013  matrix is 1348693 x 1348886 (407.4 MB) with weight 122710100 (90.97/col)
Wed Jan 16 21:05:00 2013  sparse part has weight 91953520 (68.17/col)
Wed Jan 16 21:05:03 2013  matrix starts at (0, 0)
Wed Jan 16 21:05:04 2013  matrix is 1348693 x 1348886 (407.4 MB) with weight 122710100 (90.97/col)
Wed Jan 16 21:05:04 2013  sparse part has weight 91953520 (68.17/col)
Wed Jan 16 21:05:04 2013  saving the first 48 matrix rows for later
Wed Jan 16 21:05:04 2013  matrix includes 64 packed rows
Wed Jan 16 21:05:05 2013  matrix is 1348645 x 1348886 (387.9 MB) with weight 96994727 (71.91/col)
Wed Jan 16 21:05:05 2013  sparse part has weight 88202328 (65.39/col)
Wed Jan 16 21:05:05 2013  using block size 262144 for processor cache size 12288 kB
Wed Jan 16 21:05:08 2013  commencing Lanczos iteration (16 threads)
Wed Jan 16 21:05:08 2013  memory use: 581.9 MB
Wed Jan 16 21:05:16 2013  linear algebra at 0.1%, ETA 1h58m
Wed Jan 16 21:05:18 2013  checkpointing every 730000 dimensions
Wed Jan 16 22:58:27 2013  lanczos halted after 21327 iterations (dim = 1348641)
Wed Jan 16 22:58:30 2013  recovered 34 nontrivial dependencies
Wed Jan 16 22:58:30 2013  BLanczosTime: 6971
Wed Jan 16 22:58:30 2013  
Wed Jan 16 22:58:30 2013  commencing square root phase
Wed Jan 16 22:58:30 2013  reading relations for dependency 1
Wed Jan 16 22:58:31 2013  read 674417 cycles
Wed Jan 16 22:58:32 2013  cycles contain 2259704 unique relations
Wed Jan 16 22:59:08 2013  read 2259704 relations
Wed Jan 16 22:59:18 2013  multiplying 2259704 relations
Wed Jan 16 23:01:08 2013  multiply complete, coefficients have about 66.33 million bits
Wed Jan 16 23:01:08 2013  initial square root is modulo 57781
Wed Jan 16 23:03:24 2013  GCD is 1, no factor found
Wed Jan 16 23:03:24 2013  reading relations for dependency 2
Wed Jan 16 23:03:25 2013  read 673375 cycles
Wed Jan 16 23:03:26 2013  cycles contain 2257270 unique relations
Wed Jan 16 23:03:56 2013  read 2257270 relations
Wed Jan 16 23:04:07 2013  multiplying 2257270 relations
Wed Jan 16 23:05:55 2013  multiply complete, coefficients have about 66.25 million bits
Wed Jan 16 23:05:55 2013  initial square root is modulo 57041
Wed Jan 16 23:08:12 2013  GCD is 1, no factor found
Wed Jan 16 23:08:12 2013  reading relations for dependency 3
Wed Jan 16 23:08:12 2013  read 674049 cycles
Wed Jan 16 23:08:13 2013  cycles contain 2259882 unique relations
Wed Jan 16 23:08:44 2013  read 2259882 relations
Wed Jan 16 23:08:54 2013  multiplying 2259882 relations
Wed Jan 16 23:10:43 2013  multiply complete, coefficients have about 66.33 million bits
Wed Jan 16 23:10:43 2013  initial square root is modulo 57781
Wed Jan 16 23:13:01 2013  GCD is N, no factor found
Wed Jan 16 23:13:01 2013  reading relations for dependency 4
Wed Jan 16 23:13:01 2013  read 674567 cycles
Wed Jan 16 23:13:02 2013  cycles contain 2260628 unique relations
Wed Jan 16 23:13:33 2013  read 2260628 relations
Wed Jan 16 23:13:43 2013  multiplying 2260628 relations
Wed Jan 16 23:15:32 2013  multiply complete, coefficients have about 66.35 million bits
Wed Jan 16 23:15:33 2013  initial square root is modulo 57991
Wed Jan 16 23:17:51 2013  sqrtTime: 1161


prp91 = 1902904321096601457297949159934221695883007244430106338351316026786517466116384486285988329
prp66 = 692110701830299400849256120116015814741899411932069639599732217823
NFS elapsed time = 11378.5291 seconds.

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Max DettweilerMarch 6, 2009 00:49:04 UTC 2009 年 3 月 6 日 (金) 9 時 49 分 4 秒 (日本時間)
255e4204Max DettweilerMarch 16, 2009 03:24:24 UTC 2009 年 3 月 16 日 (月) 12 時 24 分 24 秒 (日本時間)
3025e4403Max DettweilerMarch 16, 2009 03:32:29 UTC 2009 年 3 月 16 日 (月) 12 時 32 分 29 秒 (日本時間)
351e6828Max DettweilerMarch 16, 2009 03:57:51 UTC 2009 年 3 月 16 日 (月) 12 時 57 分 51 秒 (日本時間)
403e6300Rich DickersonJuly 10, 2012 01:20:29 UTC 2012 年 7 月 10 日 (火) 10 時 20 分 29 秒 (日本時間)
4511e6600 / 4199Rich DickersonJuly 10, 2012 12:04:33 UTC 2012 年 7 月 10 日 (火) 21 時 4 分 33 秒 (日本時間)
5043e650 / 7402Rich DickersonJuly 10, 2012 19:21:12 UTC 2012 年 7 月 11 日 (水) 4 時 21 分 12 秒 (日本時間)

67×10182+239

c163

name 名前Dmitry Domanov
date 日付January 24, 2013 10:29:25 UTC 2013 年 1 月 24 日 (木) 19 時 29 分 25 秒 (日本時間)
composite number 合成数
1089768323561218199639444039337732792403832126067223780347420180636493026609541638892726099287987233985234974124568104014368913245450979718641297074086349918559257<163>
prime factors 素因数
2024486626385469657485268383363005596297502987090684842369724213391<67>
538293663864254307700820415668959453192430256251570771071524736120219308612943798333898822464727<96>
factorization results 素因数分解の結果
Thu Jan 24 10:26:55 2013  commencing relation filtering
Thu Jan 24 10:26:55 2013  estimated available RAM is 48289.8 MB
Thu Jan 24 10:26:55 2013  commencing duplicate removal, pass 1
Thu Jan 24 10:31:13 2013  found 2182409 hash collisions in 21388490 relations
Thu Jan 24 10:31:44 2013  added 711073 free relations
Thu Jan 24 10:31:44 2013  commencing duplicate removal, pass 2
Thu Jan 24 10:31:52 2013  found 1640665 duplicates and 20458898 unique relations
Thu Jan 24 10:31:52 2013  memory use: 98.6 MB
Thu Jan 24 10:31:52 2013  reading ideals above 720000
Thu Jan 24 10:31:53 2013  commencing singleton removal, initial pass
Thu Jan 24 10:36:41 2013  memory use: 689.0 MB
Thu Jan 24 10:36:41 2013  reading all ideals from disk
Thu Jan 24 10:36:42 2013  memory use: 643.5 MB
Thu Jan 24 10:36:43 2013  keeping 20690204 ideals with weight <= 200, target excess is 117670
Thu Jan 24 10:36:45 2013  commencing in-memory singleton removal
Thu Jan 24 10:36:47 2013  begin with 20458898 relations and 20690204 unique ideals
Thu Jan 24 10:37:04 2013  reduce to 10412686 relations and 8678115 ideals in 15 passes
Thu Jan 24 10:37:04 2013  max relations containing the same ideal: 131
Thu Jan 24 10:37:09 2013  removing 1925157 relations and 1525157 ideals in 400000 cliques
Thu Jan 24 10:37:10 2013  commencing in-memory singleton removal
Thu Jan 24 10:37:10 2013  begin with 8487529 relations and 8678115 unique ideals
Thu Jan 24 10:37:17 2013  reduce to 8282283 relations and 6938885 ideals in 8 passes
Thu Jan 24 10:37:17 2013  max relations containing the same ideal: 112
Thu Jan 24 10:37:20 2013  removing 1476763 relations and 1076763 ideals in 400000 cliques
Thu Jan 24 10:37:21 2013  commencing in-memory singleton removal
Thu Jan 24 10:37:21 2013  begin with 6805520 relations and 6938885 unique ideals
Thu Jan 24 10:37:26 2013  reduce to 6639744 relations and 5688895 ideals in 8 passes
Thu Jan 24 10:37:26 2013  max relations containing the same ideal: 93
Thu Jan 24 10:37:29 2013  removing 1350963 relations and 950963 ideals in 400000 cliques
Thu Jan 24 10:37:30 2013  commencing in-memory singleton removal
Thu Jan 24 10:37:30 2013  begin with 5288781 relations and 5688895 unique ideals
Thu Jan 24 10:37:34 2013  reduce to 5116321 relations and 4556449 ideals in 9 passes
Thu Jan 24 10:37:34 2013  max relations containing the same ideal: 77
Thu Jan 24 10:37:36 2013  removing 1279344 relations and 879345 ideals in 400000 cliques
Thu Jan 24 10:37:36 2013  commencing in-memory singleton removal
Thu Jan 24 10:37:37 2013  begin with 3836977 relations and 4556449 unique ideals
Thu Jan 24 10:37:40 2013  reduce to 3614149 relations and 3438454 ideals in 10 passes
Thu Jan 24 10:37:40 2013  max relations containing the same ideal: 64
Thu Jan 24 10:37:41 2013  removing 221144 relations and 181947 ideals in 39197 cliques
Thu Jan 24 10:37:41 2013  commencing in-memory singleton removal
Thu Jan 24 10:37:42 2013  begin with 3393005 relations and 3438454 unique ideals
Thu Jan 24 10:37:43 2013  reduce to 3384557 relations and 3247963 ideals in 6 passes
Thu Jan 24 10:37:43 2013  max relations containing the same ideal: 59
Thu Jan 24 10:37:44 2013  relations with 0 large ideals: 2903
Thu Jan 24 10:37:44 2013  relations with 1 large ideals: 1153
Thu Jan 24 10:37:44 2013  relations with 2 large ideals: 17723
Thu Jan 24 10:37:44 2013  relations with 3 large ideals: 113489
Thu Jan 24 10:37:44 2013  relations with 4 large ideals: 387757
Thu Jan 24 10:37:44 2013  relations with 5 large ideals: 776198
Thu Jan 24 10:37:44 2013  relations with 6 large ideals: 975526
Thu Jan 24 10:37:44 2013  relations with 7+ large ideals: 1109808
Thu Jan 24 10:37:44 2013  commencing 2-way merge
Thu Jan 24 10:37:46 2013  reduce to 2200925 relation sets and 2064331 unique ideals
Thu Jan 24 10:37:46 2013  commencing full merge
Thu Jan 24 10:38:18 2013  memory use: 252.8 MB
Thu Jan 24 10:38:18 2013  found 1133015 cycles, need 1114531
Thu Jan 24 10:38:19 2013  weight of 1114531 cycles is about 78198312 (70.16/cycle)
Thu Jan 24 10:38:19 2013  distribution of cycle lengths:
Thu Jan 24 10:38:19 2013  1 relations: 123600
Thu Jan 24 10:38:19 2013  2 relations: 124225
Thu Jan 24 10:38:19 2013  3 relations: 130924
Thu Jan 24 10:38:19 2013  4 relations: 126577
Thu Jan 24 10:38:19 2013  5 relations: 118426
Thu Jan 24 10:38:19 2013  6 relations: 102945
Thu Jan 24 10:38:19 2013  7 relations: 88441
Thu Jan 24 10:38:19 2013  8 relations: 72716
Thu Jan 24 10:38:19 2013  9 relations: 59201
Thu Jan 24 10:38:19 2013  10+ relations: 167476
Thu Jan 24 10:38:19 2013  heaviest cycle: 20 relations
Thu Jan 24 10:38:19 2013  commencing cycle optimization
Thu Jan 24 10:38:21 2013  start with 6217807 relations
Thu Jan 24 10:38:29 2013  pruned 172706 relations
Thu Jan 24 10:38:29 2013  memory use: 201.6 MB
Thu Jan 24 10:38:29 2013  distribution of cycle lengths:
Thu Jan 24 10:38:29 2013  1 relations: 123600
Thu Jan 24 10:38:29 2013  2 relations: 126918
Thu Jan 24 10:38:29 2013  3 relations: 135580
Thu Jan 24 10:38:29 2013  4 relations: 130479
Thu Jan 24 10:38:29 2013  5 relations: 122357
Thu Jan 24 10:38:29 2013  6 relations: 105231
Thu Jan 24 10:38:29 2013  7 relations: 89681
Thu Jan 24 10:38:29 2013  8 relations: 72901
Thu Jan 24 10:38:29 2013  9 relations: 58428
Thu Jan 24 10:38:29 2013  10+ relations: 149356
Thu Jan 24 10:38:29 2013  heaviest cycle: 19 relations
Thu Jan 24 10:38:30 2013  RelProcTime: 695
Thu Jan 24 10:38:31 2013  
Thu Jan 24 10:38:31 2013  commencing linear algebra
Thu Jan 24 10:38:31 2013  read 1114531 cycles
Thu Jan 24 10:38:33 2013  cycles contain 3305593 unique relations
Thu Jan 24 10:39:14 2013  read 3305593 relations
Thu Jan 24 10:39:19 2013  using 20 quadratic characters above 268424112
Thu Jan 24 10:39:36 2013  building initial matrix
Thu Jan 24 10:40:16 2013  memory use: 416.4 MB
Thu Jan 24 10:40:17 2013  read 1114531 cycles
Thu Jan 24 10:40:17 2013  matrix is 1114383 x 1114531 (333.0 MB) with weight 99321198 (89.11/col)
Thu Jan 24 10:40:17 2013  sparse part has weight 75028916 (67.32/col)
Thu Jan 24 10:40:29 2013  filtering completed in 2 passes
Thu Jan 24 10:40:29 2013  matrix is 1113710 x 1113880 (332.9 MB) with weight 99298828 (89.15/col)
Thu Jan 24 10:40:29 2013  sparse part has weight 75020832 (67.35/col)
Thu Jan 24 10:40:32 2013  matrix starts at (0, 0)
Thu Jan 24 10:40:32 2013  matrix is 1113710 x 1113880 (332.9 MB) with weight 99298828 (89.15/col)
Thu Jan 24 10:40:32 2013  sparse part has weight 75020832 (67.35/col)
Thu Jan 24 10:40:32 2013  saving the first 48 matrix rows for later
Thu Jan 24 10:40:33 2013  matrix includes 64 packed rows
Thu Jan 24 10:40:33 2013  matrix is 1113662 x 1113880 (317.0 MB) with weight 79126146 (71.04/col)
Thu Jan 24 10:40:33 2013  sparse part has weight 71962501 (64.61/col)
Thu Jan 24 10:40:33 2013  using block size 262144 for processor cache size 12288 kB
Thu Jan 24 10:40:35 2013  commencing Lanczos iteration (16 threads)
Thu Jan 24 10:40:35 2013  memory use: 474.9 MB
Thu Jan 24 10:40:42 2013  linear algebra at 0.1%, ETA 1h13m
Thu Jan 24 10:40:44 2013  checkpointing every 920000 dimensions
Thu Jan 24 11:53:16 2013  lanczos halted after 17612 iterations (dim = 1113658)
Thu Jan 24 11:53:18 2013  recovered 39 nontrivial dependencies
Thu Jan 24 11:53:18 2013  BLanczosTime: 4487
Thu Jan 24 11:53:18 2013  
Thu Jan 24 11:53:18 2013  commencing square root phase
Thu Jan 24 11:53:18 2013  reading relations for dependency 1
Thu Jan 24 11:53:18 2013  read 557029 cycles
Thu Jan 24 11:53:19 2013  cycles contain 1653224 unique relations
Thu Jan 24 11:53:42 2013  read 1653224 relations
Thu Jan 24 11:53:49 2013  multiplying 1653224 relations
Thu Jan 24 11:55:21 2013  multiply complete, coefficients have about 57.80 million bits
Thu Jan 24 11:55:21 2013  initial square root is modulo 198965381
Thu Jan 24 11:57:22 2013  sqrtTime: 244


prp67 = 2024486626385469657485268383363005596297502987090684842369724213391
prp96 = 538293663864254307700820415668959453192430256251570771071524736120219308612943798333898822464727
NFS elapsed time = 58098.2052 seconds.
software ソフトウェア
YAFU 1.33

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Max DettweilerMarch 6, 2009 00:50:20 UTC 2009 年 3 月 6 日 (金) 9 時 50 分 20 秒 (日本時間)
255e4204Max DettweilerMarch 16, 2009 22:34:56 UTC 2009 年 3 月 17 日 (火) 7 時 34 分 56 秒 (日本時間)
3025e4403Max DettweilerMarch 16, 2009 22:35:05 UTC 2009 年 3 月 17 日 (火) 7 時 35 分 5 秒 (日本時間)
351e6872Max DettweilerMarch 16, 2009 22:59:17 UTC 2009 年 3 月 17 日 (火) 7 時 59 分 17 秒 (日本時間)
403e61000 / 2099100Dmitry DomanovJanuary 11, 2013 21:46:53 UTC 2013 年 1 月 12 日 (土) 6 時 46 分 53 秒 (日本時間)
900Dmitry DomanovJanuary 11, 2013 21:47:00 UTC 2013 年 1 月 12 日 (土) 6 時 47 分 0 秒 (日本時間)

67×10185+239

c168

name 名前Serge Batalov
date 日付July 11, 2008 10:05:01 UTC 2008 年 7 月 11 日 (金) 19 時 5 分 1 秒 (日本時間)
composite number 合成数
904776167490507071740626276294056191553264790319212340169051347231504345152829015527328023196982765793090051711793087194681089652783134651774628765461382403743577324213<168>
prime factors 素因数
34750107879239961728047681359629<32>
26036643415171346432359099267987911251355957717634424727606538886386969243082299006926238395178631918394732555045442482566554127640653897<137>
factorization results 素因数分解の結果
Using B1=1000000, B2=2139490090, polynomial Dickson(6), sigma=2293193412
Step 1 took 9051ms
Step 2 took 5462ms
********** Factor found in step 2: 34750107879239961728047681359629
Found probable prime factor of 32 digits: 34750107879239961728047681359629
Probable prime cofactor 26036643415171346432359099267987911251355957717634424727606538886386969243082299006926238395178631918394732555045442482566554127640653897 has 137 digits
software ソフトウェア
GMP-ECM 6.2.1

67×10186+239

c144

name 名前Serge Batalov
date 日付August 8, 2008 17:49:35 UTC 2008 年 8 月 9 日 (土) 2 時 49 分 35 秒 (日本時間)
composite number 合成数
701715221301889859707633813141900490658289917160525611182482565206417993993015840488085789815712413005786457908044712152644902900355473038309429<144>
prime factors 素因数
89421769771573038016990490819<29>
composite cofactor 合成数の残り
7847252666709839743467752504350917467823681102493087715558574118900695078873620596188423137154878036922729908577191<115>
factorization results 素因数分解の結果
Using B1=6000000, B2=46838457130, polynomial Dickson(12), sigma=3729532060
Step 1 took 38581ms
********** Factor found in step 1: 89421769771573038016990490819
Found probable prime factor of 29 digits: 89421769771573038016990490819
Composite cofactor 7847252666709839743467752504350917467823681102493087715558574118900695078873620596188423137154878036922729908577191 has 115 digits
software ソフトウェア
GMP-ECM 6.2.1

c115

name 名前Jo Yeong Uk
date 日付August 13, 2008 15:27:21 UTC 2008 年 8 月 14 日 (木) 0 時 27 分 21 秒 (日本時間)
composite number 合成数
7847252666709839743467752504350917467823681102493087715558574118900695078873620596188423137154878036922729908577191<115>
prime factors 素因数
1746382501984432932253147027099413497<37>
4493432943695280633611271672078629570872945669670928390073563152978895513171103<79>
factorization results 素因数分解の結果
Number: 74447_186
N=7847252666709839743467752504350917467823681102493087715558574118900695078873620596188423137154878036922729908577191
  ( 115 digits)
Divisors found:
 r1=1746382501984432932253147027099413497 (pp37)
 r2=4493432943695280633611271672078629570872945669670928390073563152978895513171103 (pp79)
Version: GGNFS-0.77.1-20050930-nocona
Total time: 22.87 hours.
Scaled time: 54.46 units (timescale=2.381).
Factorization parameters were as follows:
name: 74447_186
n: 7847252666709839743467752504350917467823681102493087715558574118900695078873620596188423137154878036922729908577191
skew: 51581.35
# norm 1.74e+16
c5: 44400
c4: 11244086600
c3: -438029123632375
c2: -16066004853798946614
c1: 595416047125765423448296
c0: 2879863880296498472471170048
# alpha -6.95
Y1: 2243360191787
Y0: -11206307361932270455113
# Murphy_E 5.39e-10
# M 2501025341128000393248592538385081061341254539000833808236602444299295780685350436595419391261914916678877912287855
type: gnfs
rlim: 3500000
alim: 3500000
lpbr: 27
lpba: 27
mfbr: 50
mfba: 50
rlambda: 2.4
alambda: 2.4
qintsize: 70000
Factor base limits: 3500000/3500000
Large primes per side: 3
Large prime bits: 27/27
Max factor residue bits: 50/50
Sieved algebraic special-q in [1750000, 3080001)
Primes: RFBsize:250150, AFBsize:250380, largePrimes:7570818 encountered
Relations: rels:7503217, finalFF:612787
Max relations in full relation-set: 28
Initial matrix: 500610 x 612787 with sparse part having weight 54051584.
Pruned matrix : 411617 x 414184 with weight 34251677.
Polynomial selection time: 1.33 hours.
Total sieving time: 20.21 hours.
Total relation processing time: 0.13 hours.
Matrix solve time: 1.07 hours.
Time per square root: 0.13 hours.
Prototype def-par.txt line would be:
gnfs,114,5,maxs1,maxskew,goodScore,efrac,j0,j1,eStepSize,maxTime,3500000,3500000,27,27,50,50,2.4,2.4,70000
total time: 22.87 hours.
 --------- CPU info (if available) ----------
Intel(R) Core(TM)2 Quad CPU    Q6700  @ 2.66GHz stepping 0b
Intel(R) Core(TM)2 Quad CPU    Q6700  @ 2.66GHz stepping 0b
Intel(R) Core(TM)2 Quad CPU    Q6700  @ 2.66GHz stepping 0b
Memory: 8047092k/8912896k available (2459k kernel code, 339200k reserved, 1247k data, 196k init)
Calibrating delay using timer specific routine.. 5347.61 BogoMIPS (lpj=2673805)
Calibrating delay using timer specific routine.. 5344.73 BogoMIPS (lpj=2672366)
Calibrating delay using timer specific routine.. 5343.99 BogoMIPS (lpj=2671997)
Calibrating delay using timer specific routine.. 5344.69 BogoMIPS (lpj=2672347)
execution environment 実行環境
Core 2 Quad Q6700

67×10189+239

c189

name 名前Wataru Sakai
date 日付August 8, 2008 13:00:06 UTC 2008 年 8 月 8 日 (金) 22 時 0 分 6 秒 (日本時間)
composite number 合成数
676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767677<189>
prime factors 素因数
12302291030660287515731443085247910553801<41>
33535040497930633918581716583415099870073<41>
1640418944811902951085590868766787391959788474209885459585076912235664555929048919674251980667635272532335549<109>
factorization results 素因数分解の結果
Number: 74447_189
N=676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767677
  ( 189 digits)
SNFS difficulty: 191 digits.
Divisors found:
 r1=12302291030660287515731443085247910553801 (pp41)
 r2=33535040497930633918581716583415099870073 (pp41)
 r3=1640418944811902951085590868766787391959788474209885459585076912235664555929048919674251980667635272532335549 (pp109)

Version: GGNFS-0.77.1-20060722-nocona
Total time: 1521.52 hours.
Scaled time: 2985.23 units (timescale=1.962).
Factorization parameters were as follows:
n: 676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767676767677
m: 100000000000000000000000000000000000000
c5: 67
c0: 230
skew: 1.28
type: snfs
Factor base limits: 7400000/7400000
Large primes per side: 3
Large prime bits: 27/27
Max factor residue bits: 48/48
Sieved algebraic special-q in [3700000, 3700000)
Primes: RFBsize:501962, AFBsize:501696, largePrimes:7422129 encountered
Relations: rels:8069778, finalFF:1154154
Max relations in full relation-set: 32
Initial matrix: 1003723 x 1154154 with sparse part having weight 155775130.
Pruned matrix : 901456 x 906538 with weight 137484835.
Total sieving time: 1508.35 hours.
Total relation processing time: 0.18 hours.
Matrix solve time: 12.67 hours.
Time per square root: 0.33 hours.
Prototype def-par.txt line would be:
snfs,191,5,0,0,0,0,0,0,0,0,7400000,7400000,27,27,48,48,2.6,2.6,100000
total time: 1521.52 hours.
 --------- CPU info (if available) ----------

67×10191+239

c165

name 名前Max Dettweiler
date 日付March 16, 2009 23:05:02 UTC 2009 年 3 月 17 日 (火) 8 時 5 分 2 秒 (日本時間)
composite number 合成数
122229432296965425707649849870784853209332016086662436694234250936451442143483874572667564984049780459918794109538618357548931122378477158921284983256073339907455613<165>
prime factors 素因数
8742382186818513270120447634366543<34>
13981250154135229763977812263070237818367049830931795609270922886301496724935321192761453876499684380506757087169425148648104581491<131>
factorization results 素因数分解の結果
p34=8742382186818513270120447634366543
p131=13981250154135229763977812263070237818367049830931795609270922886301496724935321192761453876499684380506757087169425148648104581491

B1=1000000
B2=900000000
Method=ECM

Found by the ECM "workers" at http://factorization.ath.cx/
software ソフトウェア
GMP-ECM

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Max DettweilerMarch 6, 2009 00:51:09 UTC 2009 年 3 月 6 日 (金) 9 時 51 分 9 秒 (日本時間)

67×10192+239

c147

name 名前Dmitry Domanov
date 日付March 17, 2014 08:23:45 UTC 2014 年 3 月 17 日 (月) 17 時 23 分 45 秒 (日本時間)
composite number 合成数
108115014113743706097313938559946532660489082228120055398223454136003589755006326987813757811102399272584414115207438615275324259808578167084402401<147>
prime factors 素因数
438903031070256883141822135819776144972825742822584749827<57>
246330069423551835064694559553153631158805852092857392347104158302798825983816730507397963<90>
factorization results 素因数分解の結果
N=108115014113743706097313938559946532660489082228120055398223454136003589755006326987813757811102399272584414115207438615275324259808578167084402401
  ( 147 digits)
SNFS difficulty: 193 digits.
Divisors found:
 r1=438903031070256883141822135819776144972825742822584749827 (pp57)
 r2=246330069423551835064694559553153631158805852092857392347104158302798825983816730507397963 (pp90)
Version: Msieve v. 1.50 (SVN unknown)
Total time: 357.56 hours.
Scaled time: 0.00 units (timescale=0.000).
Factorization parameters were as follows:
n: 108115014113743706097313938559946532660489082228120055398223454136003589755006326987813757811102399272584414115207438615275324259808578167084402401
m: 100000000000000000000000000000000000000
deg: 5
c5: 6700
c0: 23
skew: 0.32
# Murphy_E = 2.749e-11
type: snfs
lss: 1
rlim: 11900000
alim: 11900000
lpbr: 28
lpba: 28
mfbr: 55
mfba: 55
rlambda: 2.5
alambda: 2.5
qintsize: 800000
Factor base limits: 11900000/11900000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 55/55
Sieved rational special-q in [5950000, 21150001)
Primes: , , 
Relations: relations 
Max relations in full relation-set: 
Initial matrix: 
Pruned matrix : 2563821 x 2564045
Total sieving time: 350.29 hours.
Total relation processing time: 0.30 hours.
Matrix solve time: 6.61 hours.
Time per square root: 0.36 hours.
Prototype def-par.txt line would be:
snfs,193.000,5,0,0,0,0,0,0,0,0,11900000,11900000,28,28,55,55,2.5,2.5,100000
total time: 357.56 hours.
 --------- CPU info (if available) ----------

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Max DettweilerMarch 6, 2009 00:51:48 UTC 2009 年 3 月 6 日 (金) 9 時 51 分 48 秒 (日本時間)
255e40--
3025e40--
351e6954Max DettweilerMarch 16, 2009 23:38:52 UTC 2009 年 3 月 17 日 (火) 8 時 38 分 52 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:47:15 UTC 2013 年 1 月 12 日 (土) 6 時 47 分 15 秒 (日本時間)
4511e61000 / 4215Dmitry DomanovMarch 27, 2013 12:11:26 UTC 2013 年 3 月 27 日 (水) 21 時 11 分 26 秒 (日本時間)

67×10193+239

c174

name 名前Dmitry Domanov
date 日付June 13, 2014 09:28:54 UTC 2014 年 6 月 13 日 (金) 18 時 28 分 54 秒 (日本時間)
composite number 合成数
350284325804128392129796035247758500828173713111143973899594063100427629486062759299530262049041296653390691690779624644318921816132543317798301190349886825292640892850572283<174>
prime factors 素因数
814045229229392811442525395644406965177685213484529614909712804629<66>
430300815270081852354890708919662872483898051900257930510048445218194603515445660028056922217030851520683727<108>
factorization results 素因数分解の結果
N=350284325804128392129796035247758500828173713111143973899594063100427629486062759299530262049041296653390691690779624644318921816132543317798301190349886825292640892850572283
  ( 174 digits)
SNFS difficulty: 194 digits.
Divisors found:
 r1=814045229229392811442525395644406965177685213484529614909712804629 (pp66)
 r2=430300815270081852354890708919662872483898051900257930510048445218194603515445660028056922217030851520683727 (pp108)
Version: Msieve v. 1.50 (SVN unknown)
Total time: 347.52 hours.
Scaled time: 0.00 units (timescale=0.000).
Factorization parameters were as follows:
n: 350284325804128392129796035247758500828173713111143973899594063100427629486062759299530262049041296653390691690779624644318921816132543317798301190349886825292640892850572283
m: 100000000000000000000000000000000000000
deg: 5
c5: 67000
c0: 23
skew: 0.20
# Murphy_E = 2.593e-11
type: snfs
lss: 1
rlim: 12400000
alim: 12400000
lpbr: 28
lpba: 28
mfbr: 55
mfba: 55
rlambda: 2.5
alambda: 2.5
qintsize: 600000
Factor base limits: 12400000/12400000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 55/55
Sieved rational special-q in [6200000, 20600001)
Primes: , ,
Relations: relations
Max relations in full relation-set:
Initial matrix:
Pruned matrix : 2484882 x 2485109
Total sieving time: 340.54 hours.
Total relation processing time: 0.29 hours.
Matrix solve time: 6.31 hours.
Time per square root: 0.39 hours.
Prototype def-par.txt line would be:
snfs,194.000,5,0,0,0,0,0,0,0,0,12400000,12400000,28,28,55,55,2.5,2.5,100000
total time: 347.52 hours.
 --------- CPU info (if available) ----------

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Max DettweilerMarch 6, 2009 00:52:43 UTC 2009 年 3 月 6 日 (金) 9 時 52 分 43 秒 (日本時間)
255e40--
3025e40--
351e61144Max DettweilerMarch 17, 2009 02:30:44 UTC 2009 年 3 月 17 日 (火) 11 時 30 分 44 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:47:26 UTC 2013 年 1 月 12 日 (土) 6 時 47 分 26 秒 (日本時間)
4511e61800 / 4207800Dmitry DomanovMarch 27, 2013 12:08:38 UTC 2013 年 3 月 27 日 (水) 21 時 8 分 38 秒 (日本時間)
1000Dmitry DomanovMay 21, 2014 06:00:06 UTC 2014 年 5 月 21 日 (水) 15 時 0 分 6 秒 (日本時間)

67×10194+239

c174

name 名前Dmitry Domanov
date 日付June 14, 2014 17:58:57 UTC 2014 年 6 月 15 日 (日) 2 時 58 分 57 秒 (日本時間)
composite number 合成数
154159429144615362984544933517884756680666781363013931816518158149309308013851885899597236463795331767482992279566085856510448003792412816666806539138629510415820710703390097<174>
prime factors 素因数
281575639886032541716675936456356835846903326140331304232759361917<66>
547488515721783452434544053015690946014638715851064065622771021151516292083966740843091898449489512429029541<108>
factorization results 素因数分解の結果
N=154159429144615362984544933517884756680666781363013931816518158149309308013851885899597236463795331767482992279566085856510448003792412816666806539138629510415820710703390097
  ( 174 digits)
SNFS difficulty: 196 digits.
Divisors found:
 r1=281575639886032541716675936456356835846903326140331304232759361917 (pp66)
 r2=547488515721783452434544053015690946014638715851064065622771021151516292083966740843091898449489512429029541 (pp108)
Version: Msieve v. 1.50 (SVN unknown)
Total time: 458.91 hours.
Scaled time: 0.00 units (timescale=0.000).
Factorization parameters were as follows:
n: 154159429144615362984544933517884756680666781363013931816518158149309308013851885899597236463795331767482992279566085856510448003792412816666806539138629510415820710703390097
m: 500000000000000000000000000000000000000
deg: 5
c5: 1072
c0: 115
skew: 0.64
# Murphy_E = 2.185e-11
type: snfs
lss: 1
rlim: 13200000
alim: 13200000
lpbr: 28
lpba: 28
mfbr: 55
mfba: 55
rlambda: 2.5
alambda: 2.5
qintsize: 600000
Factor base limits: 13200000/13200000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 55/55
Sieved rational special-q in [6600000, 13800001)
Primes: , ,
Relations: relations
Max relations in full relation-set:
Initial matrix:
Pruned matrix : 2324386 x 2324613
Total sieving time: 452.45 hours.
Total relation processing time: 0.29 hours.
Matrix solve time: 5.54 hours.
Time per square root: 0.64 hours.
Prototype def-par.txt line would be:
snfs,196.000,5,0,0,0,0,0,0,0,0,13200000,13200000,28,28,55,55,2.5,2.5,100000
total time: 458.91 hours.
 --------- CPU info (if available) ----------

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Max DettweilerMarch 6, 2009 00:53:35 UTC 2009 年 3 月 6 日 (金) 9 時 53 分 35 秒 (日本時間)
255e40--
3025e40--
351e61238Max DettweilerMarch 17, 2009 03:00:18 UTC 2009 年 3 月 17 日 (火) 12 時 0 分 18 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:47:43 UTC 2013 年 1 月 12 日 (土) 6 時 47 分 43 秒 (日本時間)
4511e62000 / 42021000Dmitry DomanovJanuary 12, 2013 00:55:07 UTC 2013 年 1 月 12 日 (土) 9 時 55 分 7 秒 (日本時間)
1000Dmitry DomanovMay 21, 2014 06:00:22 UTC 2014 年 5 月 21 日 (水) 15 時 0 分 22 秒 (日本時間)

67×10195+239

c183

name 名前matsui
date 日付October 10, 2010 21:05:18 UTC 2010 年 10 月 11 日 (月) 6 時 5 分 18 秒 (日本時間)
composite number 合成数
190167694253791836961316659049444507811674458293760898851324338344947697707272749413556422658684314312226037148545285252872829197933991821286500657816977118575108068493510678069434781<183>
prime factors 素因数
1542411173106116637792769555045725594742787398501700594414958668873412375663075655299091<88>
123292477109609509957370423723505992657283459940451948888409947708046090222850876009613984392591<96>
factorization results 素因数分解の結果
N=190167694253791836961316659049444507811674458293760898851324338344947697707272749413556422658684314312226037148545285252872829197933991821286500657816977118575108068493510678069434781
  ( 183 digits)
SNFS difficulty: 196 digits.
Divisors found:
 r1=1542411173106116637792769555045725594742787398501700594414958668873412375663075655299091 (pp88)
 r2=123292477109609509957370423723505992657283459940451948888409947708046090222850876009613984392591 (pp96)
Version: Msieve v. 1.48
Total time:
Scaled time: 132.05 units (timescale=1.765).
Factorization parameters were as follows:
n: 190167694253791836961316659049444507811674458293760898851324338344947697707272749413556422658684314312226037148545285252872829197933991821286500657816977118575108068493510678069434781
m: 1000000000000000000000000000000000000000
deg: 5
c5: 67
c0: 23
skew: 0.81
type: snfs
lss: 1
rlim: 13400000
alim: 13400000
lpbr: 28
lpba: 28
mfbr: 55
mfba: 55
rlambda: 2.5
alambda: 2.5
qintsize: 600000
Factor base limits: 13400000/13400000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 55/55
Sieved rational special-q in [6700000, 12700001)
Primes: , , 
Relations: relations 
Max relations in full relation-set: 
Initial matrix: 
Pruned matrix : 2131074 x 2131299
Total sieving time:
Total relation processing time:
Matrix solve time:
Time per square root:
Prototype def-par.txt line would be:
snfs,196.000,5,0,0,0,0,0,0,0,0,13400000,13400000,28,28,55,55,2.5,2.5,100000
total time:

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Max DettweilerMarch 6, 2009 00:54:26 UTC 2009 年 3 月 6 日 (金) 9 時 54 分 26 秒 (日本時間)
255e40--
3025e40--
351e61006Max DettweilerMarch 17, 2009 03:39:04 UTC 2009 年 3 月 17 日 (火) 12 時 39 分 4 秒 (日本時間)

67×10196+239

c164

name 名前Eric Jeancolas
date 日付January 15, 2021 07:21:20 UTC 2021 年 1 月 15 日 (金) 16 時 21 分 20 秒 (日本時間)
composite number 合成数
33185171534685813964475004398827704009795544449125500056415395639291553791823478314402263469680211178810424423883596843034526230977012625408313385516737987267691733<164>
prime factors 素因数
217059153411946724219556117130858087543809294371702823080797695792769<69>
152885381763676106143620534121338459741464787509144469627864726035213511371818857894121543683157<96>
factorization results 素因数分解の結果
33185171534685813964475004398827704009795544449125500056415395639291553791823478314402263469680211178810424423883596843034526230977012625408313385516737987267691733=217059153411946724219556117130858087543809294371702823080797695792769*152885381763676106143620534121338459741464787509144469627864726035213511371818857894121543683157

cado polynomial
n: 33185171534685813964475004398827704009795544449125500056415395639291553791823478314402263469680211178810424423883596843034526230977012625408313385516737987267691733
skew: 0.51
type: snfs
c0: 23
c5: 670
Y0: 1000000000000000000000000000000000000000
Y1: -1
# f(x) = 670*x^5+23
# g(x) = -x+1000000000000000000000000000000000000000

cado parameters (extracts)
tasks.lim0 = 13900000
tasks.lim1 = 13900000
tasks.lpb0 = 28
tasks.lpb1 = 28
tasks.sieve.mfb0 = 55
tasks.sieve.mfb1 = 55
tasks.sieve.lambda0 = 2.5
tasks.sieve.lambda1 = 2.5
tasks.I = 12
tasks.linalg.m = 64
tasks.linalg.n = 64
tasks.linalg.characters.nchar = 50

cado log (extracts)
Info:Square Root: Factors: 217059153411946724219556117130858087543809294371702823080797695792769 152885381763676106143620534121338459741464787509144469627864726035213511371818857894121543683157
Warning:Polynomial Selection (size optimized): some stats could not be displayed for polyselect1 (see log file for debug info)
Warning:Polynomial Selection (root optimized): some stats could not be displayed for polyselect2 (see log file for debug info)
Info:Generate Factor Base: Total cpu/real time for makefb: 5.84/2.28255
Info:Generate Free Relations: Total cpu/real time for freerel: 102.57/26.4602
Info:Lattice Sieving: Aggregate statistics:
Info:Lattice Sieving: Total number of relations: 31033394
Info:Lattice Sieving: Average J: 1893.44 for 4476818 special-q, max bucket fill -bkmult 1.0,1s:1.089880
Info:Lattice Sieving: Total time: 1.2093e+06s
Info:Filtering - Duplicate Removal, splitting pass: Total cpu/real time for dup1: 60.49/159.991
Info:Filtering - Duplicate Removal, splitting pass: Aggregate statistics:
Info:Filtering - Duplicate Removal, splitting pass: CPU time for dup1: 158.79999999999998s
Info:Filtering - Duplicate Removal, removal pass: Total cpu/real time for dup2: 540.07/525.385
Info:Filtering - Duplicate Removal, removal pass: Aggregate statistics:
Info:Filtering - Duplicate Removal, removal pass: CPU time for dup2: 456.70000000000005s
Info:Filtering - Singleton removal: Total cpu/real time for purge: 479.8/536.638
Info:Filtering - Merging: Merged matrix has 2858074 rows and total weight 489392029 (171.2 entries per row on average)
Info:Filtering - Merging: Total cpu/real time for merge: 401.76/116.338
Info:Filtering - Merging: Total cpu/real time for replay: 110.83/96.004
Info:Linear Algebra: Total cpu/real time for bwc: 146610/37456.3
Info:Linear Algebra: Aggregate statistics:
Info:Linear Algebra: Krylov: WCT time 23891.94, iteration CPU time 0.25, COMM 0.01, cpu-wait 0.0, comm-wait 0.0 (89600 iterations)
Info:Linear Algebra: Lingen CPU time 590.85, WCT time 170.84
Info:Linear Algebra: Mksol: WCT time 13075.11, iteration CPU time 0.28, COMM 0.01, cpu-wait 0.0, comm-wait 0.0 (45056 iterations)
Info:Quadratic Characters: Total cpu/real time for characters: 97.86/42.0937
Info:Square Root: Total cpu/real time for sqrt: 815.88/254.564
Info:HTTP server: Shutting down HTTP server
Info:Complete Factorization / Discrete logarithm: Total cpu/elapsed time for entire factorization: 2.41239e+06/86963.7
Info:root: Cleaning up computation data in /tmp/cado.0ivt822q
217059153411946724219556117130858087543809294371702823080797695792769 152885381763676106143620534121338459741464787509144469627864726035213511371818857894121543683157
software ソフトウェア
cado-nfs-3.0.0
execution environment 実行環境
6 x Linux Ubuntu 20.04.1 LTS [5.4.0-48-generic|libc 2.31 (Ubuntu GLIBC 2.31-0ubuntu9.1)]
GenuineIntel Intel(R) Core(TM) i5-3470S CPU @ 2.90GHz [Family 6 Model 58 Stepping 9] (4 processeurs)

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Max DettweilerMarch 6, 2009 00:55:52 UTC 2009 年 3 月 6 日 (金) 9 時 55 分 52 秒 (日本時間)
255e40--
3025e40--
351e610798Max DettweilerMarch 17, 2009 05:12:00 UTC 2009 年 3 月 17 日 (火) 14 時 12 分 0 秒 (日本時間)
403e60--
4511e60--
5043e61145yoyo@homeFebruary 24, 2010 01:59:07 UTC 2010 年 2 月 24 日 (水) 10 時 59 分 7 秒 (日本時間)
5511e72645 / 17351yoyo@homeNovember 24, 2010 17:45:13 UTC 2010 年 11 月 25 日 (木) 2 時 45 分 13 秒 (日本時間)

67×10198+239

c137

name 名前Sinkiti Sibata
date 日付May 11, 2011 01:00:56 UTC 2011 年 5 月 11 日 (水) 10 時 0 分 56 秒 (日本時間)
composite number 合成数
10879425119128136867510341310339065508484984737418999522353088128986982306666008217873556615079205565104225641789566254364931151683455169<137>
prime factors 素因数
202817803790060186374918307879204968677954944531328421019747<60>
53641371298890487743340404937256184096521585145504698681815212842345107526027<77>
factorization results 素因数分解の結果
Number: 74447_198
N=10879425119128136867510341310339065508484984737418999522353088128986982306666008217873556615079205565104225641789566254364931151683455169
  ( 137 digits)
Divisors found:
 r1=202817803790060186374918307879204968677954944531328421019747 (pp60)
 r2=53641371298890487743340404937256184096521585145504698681815212842345107526027 (pp77)
Version: Msieve v. 1.42
Total time: 17.08 hours.
Scaled time: 14.53 units (timescale=0.851).
Factorization parameters were as follows:
name:74447_198
# Murphy_E = 4.096671e-11, selected by Jeff Gilchrist
n: 10879425119128136867510341310339065508484984737418999522353088128986982306666008217873556615079205565104225641789566254364931151683455169
Y0: -170457057417434125112276689
Y1: 1550362629278389
c0: -1072923066164245678352319539490336
c1: 35947841973863292864061107840
c2: -126210859678647736593714
c3: -6085750686352187
c4: 176404403478
c5: 75600
skew: 784057.89
type: gnfs
# selected mechanically
rlim: 14200000
alim: 14200000
lpbr: 28
lpba: 28
mfbr: 55
mfba: 55
rlambda: 2.6
alambda: 2.6
Factor base limits: 14200000/14200000
Large primes per side: 3
Large prime bits: 28/28
Max factor residue bits: 55/55
Sieved algebraic special-q in [7100000, 11000001)
Primes: , , 
Relations: relations 
Max relations in full relation-set: 
Initial matrix: 
Pruned matrix : 1867461 x 1867691
Total sieving time: 0.00 hours.
Total relation processing time: 0.22 hours.
Matrix solve time: 15.89 hours.
Time per square root: 0.96 hours.
Prototype def-par.txt line would be:
gnfs,136,5,maxs1,maxskew,goodScore,efrac,j0,j1,eStepSize,maxTime,14200000,14200000,28,28,55,55,2.6,2.6,100000
total time: 17.08 hours.
 --------- CPU info (if available) ----------
CPU0: AMD Athlon(tm) 64 X2 Dual Core Processor 5600+ stepping 02
CPU1: AMD Athlon(tm) 64 X2 Dual Core Processor 5600+ stepping 02
Memory: 3886124k/4718592k available (3786k kernel code, 656964k absent, 175504k reserved, 2294k data, 1304k init)
Calibrating delay loop (skipped), value calculated using timer frequency.. 5827.08 BogoMIPS (lpj=2913541)
Calibrating delay using timer specific routine.. 5826.53 BogoMIPS (lpj=2913268)
Total of 2 processors activated (11653.61 BogoMIPS).

total time: 7.5 days.

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
403e62350500Erik BrangerJanuary 30, 2009 09:15:15 UTC 2009 年 1 月 30 日 (金) 18 時 15 分 15 秒 (日本時間)
1850Wataru SakaiAugust 31, 2009 13:41:52 UTC 2009 年 8 月 31 日 (月) 22 時 41 分 52 秒 (日本時間)
4511e63981891Dmitry DomanovApril 1, 2010 17:53:57 UTC 2010 年 4 月 2 日 (金) 2 時 53 分 57 秒 (日本時間)
3090Wataru SakaiAugust 13, 2010 08:56:02 UTC 2010 年 8 月 13 日 (金) 17 時 56 分 2 秒 (日本時間)

67×10200+239

c196

name 名前Wataru Sakai
date 日付July 24, 2009 11:58:51 UTC 2009 年 7 月 24 日 (金) 20 時 58 分 51 秒 (日本時間)
composite number 合成数
7971094669241211273269350427167394177769687711546309085739235750478563109060041378309342717810161837016098042085000422349045907556716718002895767824616881826736955065630662302789764162672196464879<196>
prime factors 素因数
196592506741212520044538167570720429219402274779774438764525711972609<69>
40546279211618582655414497439811038556876425327404273148537996988167822927209105501508855259371162388034501678989737104551746031<128>
factorization results 素因数分解の結果
Number: 74447_200
N=7971094669241211273269350427167394177769687711546309085739235750478563109060041378309342717810161837016098042085000422349045907556716718002895767824616881826736955065630662302789764162672196464879
  ( 196 digits)
SNFS difficulty: 201 digits.
Divisors found:
 r1=196592506741212520044538167570720429219402274779774438764525711972609
 r2=40546279211618582655414497439811038556876425327404273148537996988167822927209105501508855259371162388034501678989737104551746031
Version: 
Total time: 699.71 hours.
Scaled time: 1405.71 units (timescale=2.009).
Factorization parameters were as follows:
n: 7971094669241211273269350427167394177769687711546309085739235750478563109060041378309342717810161837016098042085000422349045907556716718002895767824616881826736955065630662302789764162672196464879
m: 10000000000000000000000000000000000000000
deg: 5
c5: 67
c0: 23
skew: 0.81
type: snfs
lss: 1
rlim: 16200000
alim: 16200000
lpbr: 29
lpba: 29
mfbr: 56
mfba: 56
rlambda: 2.6
alambda: 2.6
Factor base limits: 16200000/16200000
Large primes per side: 3
Large prime bits: 29/29
Max factor residue bits: 56/56
Sieved rational special-q in [8100000, 15200001)
Primes: rational ideals reading, algebraic ideals reading, 
Relations: relations 
Max relations in full relation-set: 
Initial matrix: 
Pruned matrix : 2869202 x 2869450
Total sieving time: 699.71 hours.
Total relation processing time: 0.00 hours.
Matrix solve time: 0.00 hours.
Time per square root: 0.00 hours.
Prototype def-par.txt line would be:
snfs,201,5,0,0,0,0,0,0,0,0,16200000,16200000,29,29,56,56,2.6,2.6,100000
total time: 699.71 hours.
 --------- CPU info (if available) ----------

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e6904Serge BatalovAugust 18, 2008 00:59:30 UTC 2008 年 8 月 18 日 (月) 9 時 59 分 30 秒 (日本時間)
403e6920Serge BatalovAugust 18, 2008 21:20:01 UTC 2008 年 8 月 19 日 (火) 6 時 20 分 1 秒 (日本時間)
4511e64800400Serge BatalovAugust 18, 2008 21:20:01 UTC 2008 年 8 月 19 日 (火) 6 時 20 分 1 秒 (日本時間)
400Markus TervoorenDecember 30, 2008 23:17:44 UTC 2008 年 12 月 31 日 (水) 8 時 17 分 44 秒 (日本時間)
4000Markus TervoorenDecember 31, 2008 10:02:31 UTC 2008 年 12 月 31 日 (水) 19 時 2 分 31 秒 (日本時間)
5043e6200 / 6436Markus TervoorenJanuary 5, 2009 12:29:06 UTC 2009 年 1 月 5 日 (月) 21 時 29 分 6 秒 (日本時間)

67×10202+239

c154

name 名前Bob Backstrom
date 日付August 11, 2023 02:04:11 UTC 2023 年 8 月 11 日 (金) 11 時 4 分 11 秒 (日本時間)
composite number 合成数
1602096315048412301511908487095874316940894904220148191819264209801457970109858413380706119669351517877188294665960647711192712661268611072917107588492197<154>
prime factors 素因数
2569610626662635070603278107553533261783307103406571<52>
623478241576696279152577984440383572817931756771798441955075076527384901904435464432542851160782892207<102>
factorization results 素因数分解の結果
GMP-ECM 7.0.4 [configured with GMP 6.2.1, --enable-asm-redc] [ECM]
Input number is 1602096315048412301511908487095874316940894904220148191819264209801457970109858413380706119669351517877188294665960647711192712661268611072917107588492197 (154 digits)
Using B1=58410000, B2=388129104100, polynomial Dickson(30), sigma=1:1309503526
Step 1 took 105765ms
Step 2 took 44498ms
********** Factor found in step 2: 2569610626662635070603278107553533261783307103406571
Found prime factor of 52 digits: 2569610626662635070603278107553533261783307103406571
Prime cofactor 623478241576696279152577984440383572817931756771798441955075076527384901904435464432542851160782892207 has 102 digits

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 8, 2013 23:52:11 UTC 2013 年 1 月 9 日 (水) 8 時 52 分 11 秒 (日本時間)
403e64300Warut RoonguthaiJanuary 8, 2013 23:52:11 UTC 2013 年 1 月 9 日 (水) 8 時 52 分 11 秒 (日本時間)
4511e61500Dmitry DomanovMarch 24, 2014 12:51:27 UTC 2014 年 3 月 24 日 (月) 21 時 51 分 27 秒 (日本時間)
5043e6560 / 7046Dmitry DomanovMay 26, 2014 09:10:59 UTC 2014 年 5 月 26 日 (月) 18 時 10 分 59 秒 (日本時間)

67×10203+239

c187

name 名前Warut Roonguthai
date 日付January 7, 2013 15:36:01 UTC 2013 年 1 月 8 日 (火) 0 時 36 分 1 秒 (日本時間)
composite number 合成数
1955946910050317051031486415190428492560126689340614532277619552208157771980983636574868005196655391247276830854205911353134250963334143143125179721533847326083172682458232605896176359999<187>
prime factors 素因数
139498451528241103053722004523<30>
14021280441627989147494827888392399794714942512330095249676130986437229949318801573958329072326945387509683167007050836644969781296515880669190083865624804413<158>
factorization results 素因数分解の結果
Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=2653392867
Step 1 took 10576ms
Step 2 took 6599ms
********** Factor found in step 2: 139498451528241103053722004523
Found probable prime factor of 30 digits: 139498451528241103053722004523
Probable prime cofactor 14021280441627989147494827888392399794714942512330095249676130986437229949318801573958329072326945387509683167007050836644969781296515880669190083865624804413 has 158 digits
software ソフトウェア
GMP-ECM 6.3

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
3025e40--
351e6118 / 904Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)

67×10204+239

c188

name 名前Bob Backstrom
date 日付August 18, 2021 18:11:44 UTC 2021 年 8 月 19 日 (木) 3 時 11 分 44 秒 (日本時間)
composite number 合成数
38612768540406806544806170624053610114468337241847930217428649416490776734849492268245999354530059261311304020316173345066883669210817753957980337205477725909172052792286423507197825002269<188>
prime factors 素因数
6773383860485988404113596756010338802287651990938026219872543032963633<70>
5700661491468512632646742082164511921058428742936046650732289246312852854182555676777597252072885737697079219143966893<118>
factorization results 素因数分解の結果
Number: n
N=38612768540406806544806170624053610114468337241847930217428649416490776734849492268245999354530059261311304020316173345066883669210817753957980337205477725909172052792286423507197825002269
  ( 188 digits)
SNFS difficulty: 206 digits.
Divisors found:

Thu Aug 19 04:07:19 2021  p70 factor: 6773383860485988404113596756010338802287651990938026219872543032963633
Thu Aug 19 04:07:19 2021  p118 factor: 5700661491468512632646742082164511921058428742936046650732289246312852854182555676777597252072885737697079219143966893
Thu Aug 19 04:07:19 2021  elapsed time 02:06:34 (Msieve 1.54 - dependency 1)

Version: 
Total time: 0.00 hours.
Scaled time: 0.00 units (timescale=2.331).
Factorization parameters were as follows:
#
# N = 67x10^204+23 = 74(203)7
#
n: 38612768540406806544806170624053610114468337241847930217428649416490776734849492268245999354530059261311304020316173345066883669210817753957980337205477725909172052792286423507197825002269
m: 50000000000000000000000000000000000000000
deg: 5
c5: 1072
c0: 115
skew: 0.64
# Murphy_E = 8.346e-12
type: snfs
lss: 1
rlim: 19400000
alim: 19400000
lpbr: 29
lpba: 29
mfbr: 56
mfba: 56
rlambda: 2.6
alambda: 2.6
Factor base limits: 19400000/19400000
Large primes per side: 3
Large prime bits: 29/29
Max factor residue bits: 56/56
Sieved  special-q in [100000, 44100000)
Primes: , , 
Relations: 
Max relations in full relation-set: 28
Initial matrix: 
Pruned matrix : 

Msieve: found 10361408 hash collisions in 66026625 relations (58062250 unique)
Msieve: matrix is 2365938 x 2366165 (814.7 MB)

Sieving start time : 2021/08/18 10:38:22
Sieving end time  : 2021/08/19 01:59:06

Total sieving time: 15hrs 20min 44secs.

Total relation processing time: 1hrs 46min 44sec.
Matrix solve time: 0.00 hours.
Total square root time: 0hrs 3min 12sec.

Prototype def-par.txt line would be:
snfs,206,5,0,0,0,0,0,0,0,0,19400000,19400000,29,29,56,56,2.6,2.6,100000
total time: 0.00 hours.
 --------- CPU info (if available) ----------
[    0.119240] smpboot: CPU0: AMD Ryzen 7 2700 Eight-Core Processor (family: 0x17, model: 0x8, stepping: 0x2)
[    0.000000] Memory: 16239968K/16727236K available (14339K kernel code, 2400K rwdata, 5012K rodata, 2736K init, 4964K bss, 487268K reserved, 0K cma-reserved)
[    0.152638] x86/mm: Memory block size: 128MB
[    0.000005] Calibrating delay loop (skipped), value calculated using timer frequency.. 6399.25 BogoMIPS (lpj=12798512)
[    0.150211] smpboot: Total of 16 processors activated (102388.09 BogoMIPS)

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 14:57:13 UTC 2013 年 1 月 10 日 (木) 23 時 57 分 13 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:54:04 UTC 2013 年 1 月 12 日 (土) 6 時 54 分 4 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:48:15 UTC 2013 年 1 月 15 日 (火) 23 時 48 分 15 秒 (日本時間)
5043e6500 / 6801Dmitry DomanovMarch 21, 2014 11:45:32 UTC 2014 年 3 月 21 日 (金) 20 時 45 分 32 秒 (日本時間)
5511e7200 / 17519Dmitry DomanovMay 26, 2014 09:10:34 UTC 2014 年 5 月 26 日 (月) 18 時 10 分 34 秒 (日本時間)

67×10205+239

c167

composite cofactor 合成数の残り
89937695757085874879966549452002731392194748684397844833812212614167946233244726069525210675788660055332722530311268521690399870267011727367181863988838886547743990887<167>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 9, 2013 10:56:17 UTC 2013 年 1 月 9 日 (水) 19 時 56 分 17 秒 (日本時間)
403e62500Warut RoonguthaiJanuary 9, 2013 10:56:17 UTC 2013 年 1 月 9 日 (水) 19 時 56 分 17 秒 (日本時間)
4511e61500Dmitry DomanovMay 16, 2014 12:10:48 UTC 2014 年 5 月 16 日 (金) 21 時 10 分 48 秒 (日本時間)
5043e62472 / 7114400Dmitry DomanovMay 26, 2014 09:10:06 UTC 2014 年 5 月 26 日 (月) 18 時 10 分 6 秒 (日本時間)
280Dmitry DomanovMay 28, 2014 08:38:48 UTC 2014 年 5 月 28 日 (水) 17 時 38 分 48 秒 (日本時間)
1792Dmitry DomanovDecember 23, 2023 20:44:49 UTC 2023 年 12 月 24 日 (日) 5 時 44 分 49 秒 (日本時間)

67×10206+239

c175

composite cofactor 合成数の残り
2893953697834231380943693574050873125912895598919528868401337612853711370274392074960109360979700255454372726456414747623647201652598517980834224724174692961150600692175571927<175>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 14:57:28 UTC 2013 年 1 月 10 日 (木) 23 時 57 分 28 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:54:23 UTC 2013 年 1 月 12 日 (土) 6 時 54 分 23 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:48:32 UTC 2013 年 1 月 15 日 (火) 23 時 48 分 32 秒 (日本時間)
5043e62292 / 6801500Dmitry DomanovMarch 21, 2014 11:46:04 UTC 2014 年 3 月 21 日 (金) 20 時 46 分 4 秒 (日本時間)
1792Dmitry DomanovDecember 23, 2023 20:44:41 UTC 2023 年 12 月 24 日 (日) 5 時 44 分 41 秒 (日本時間)
5511e7200 / 16880Dmitry DomanovApril 28, 2014 13:04:07 UTC 2014 年 4 月 28 日 (月) 22 時 4 分 7 秒 (日本時間)

67×10207+239

c198

name 名前Warut Roonguthai
date 日付January 7, 2013 22:20:50 UTC 2013 年 1 月 8 日 (火) 7 時 20 分 50 秒 (日本時間)
composite number 合成数
150574523601982533960720082048683042205135403877663960536683155414397699266593753263470546297993925352428626674171826540445894542478548588999739131811076943216884848577497213958879629963019791213759<198>
prime factors 素因数
4746735554129258516405100153193301<34>
composite cofactor 合成数の残り
31721700500251258365384532022538926990725860710790141443277891874483266428974869331225218594387040094191212446743429713390666375069952430575162578375103658783109059<164>
factorization results 素因数分解の結果
Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=1095095491
Step 1 took 10202ms
Step 2 took 5960ms
********** Factor found in step 2: 4746735554129258516405100153193301
Found probable prime factor of 34 digits: 4746735554129258516405100153193301
Composite cofactor 31721700500251258365384532022538926990725860710790141443277891874483266428974869331225218594387040094191212446743429713390666375069952430575162578375103658783109059 has 164 digits
software ソフトウェア
GMP-ECM 6.3

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 9, 2013 20:18:47 UTC 2013 年 1 月 10 日 (木) 5 時 18 分 47 秒 (日本時間)
403e64300Warut RoonguthaiJanuary 9, 2013 20:18:47 UTC 2013 年 1 月 10 日 (木) 5 時 18 分 47 秒 (日本時間)
4511e61500Dmitry DomanovMay 16, 2014 12:11:24 UTC 2014 年 5 月 16 日 (金) 21 時 11 分 24 秒 (日本時間)
5043e62352 / 7046560Dmitry DomanovMay 26, 2014 09:09:42 UTC 2014 年 5 月 26 日 (月) 18 時 9 分 42 秒 (日本時間)
1792Dmitry DomanovDecember 23, 2023 20:44:24 UTC 2023 年 12 月 24 日 (日) 5 時 44 分 24 秒 (日本時間)

67×10209+239

c201

name 名前Warut Roonguthai
date 日付January 7, 2013 22:15:03 UTC 2013 年 1 月 8 日 (火) 7 時 15 分 3 秒 (日本時間)
composite number 合成数
176554313975525686992137413267347068134968433961322716704290126143380227276160661227818425865626237491173595612275836112631778028875589333322931490992819436679523131249228928514329616953011440213783383<201>
prime factors 素因数
10504846818639641347228246637874913<35>
composite cofactor 合成数の残り
16806938456470434392112278828608930168228822582146240499114081303343458664862297230801273068487182621424509801717316890163556844694546238349385232269048602254692475191<167>
factorization results 素因数分解の結果
Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=690219755
Step 1 took 10998ms
Step 2 took 6505ms
********** Factor found in step 2: 10504846818639641347228246637874913
Found probable prime factor of 35 digits: 10504846818639641347228246637874913
Composite cofactor 16806938456470434392112278828608930168228822582146240499114081303343458664862297230801273068487182621424509801717316890163556844694546238349385232269048602254692475191 has 167 digits
software ソフトウェア
GMP-ECM 6.3

c167

name 名前Dmitry Domanov
date 日付January 17, 2013 15:16:55 UTC 2013 年 1 月 18 日 (金) 0 時 16 分 55 秒 (日本時間)
composite number 合成数
16806938456470434392112278828608930168228822582146240499114081303343458664862297230801273068487182621424509801717316890163556844694546238349385232269048602254692475191<167>
prime factors 素因数
2958334007480337338937311539151504995838237<43>
1918939853996135325104914022030519168961766569774973<52>
2960602088024010953400857758921732604100214394079596468812158927643498591<73>
factorization results 素因数分解の結果
Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=3607819370
Step 1 took 71404ms
Step 2 took 26867ms
********** Factor found in step 2: 2958334007480337338937311539151504995838237
Found probable prime factor of 43 digits: 2958334007480337338937311539151504995838237

Thu Jan 17 17:58:40 2013  commencing relation filtering
Thu Jan 17 17:58:40 2013  estimated available RAM is 48157.8 MB
Thu Jan 17 17:58:40 2013  commencing duplicate removal, pass 1
Thu Jan 17 18:00:54 2013  found 1234002 hash collisions in 11294340 relations
Thu Jan 17 18:01:14 2013  added 83 free relations
Thu Jan 17 18:01:14 2013  commencing duplicate removal, pass 2
Thu Jan 17 18:01:18 2013  found 948892 duplicates and 10345531 unique relations
Thu Jan 17 18:01:18 2013  memory use: 49.3 MB
Thu Jan 17 18:01:18 2013  reading ideals above 720000
Thu Jan 17 18:01:18 2013  commencing singleton removal, initial pass
Thu Jan 17 18:03:37 2013  memory use: 344.5 MB
Thu Jan 17 18:03:37 2013  reading all ideals from disk
Thu Jan 17 18:03:37 2013  memory use: 300.6 MB
Thu Jan 17 18:03:38 2013  commencing in-memory singleton removal
Thu Jan 17 18:03:39 2013  begin with 10345531 relations and 11196561 unique ideals
Thu Jan 17 18:03:46 2013  reduce to 4069250 relations and 3853189 ideals in 20 passes
Thu Jan 17 18:03:46 2013  max relations containing the same ideal: 77
Thu Jan 17 18:03:47 2013  removing 456115 relations and 415373 ideals in 40742 cliques
Thu Jan 17 18:03:48 2013  commencing in-memory singleton removal
Thu Jan 17 18:03:48 2013  begin with 3613135 relations and 3853189 unique ideals
Thu Jan 17 18:03:50 2013  reduce to 3573236 relations and 3397362 ideals in 10 passes
Thu Jan 17 18:03:50 2013  max relations containing the same ideal: 68
Thu Jan 17 18:03:51 2013  removing 332032 relations and 291290 ideals in 40742 cliques
Thu Jan 17 18:03:52 2013  commencing in-memory singleton removal
Thu Jan 17 18:03:52 2013  begin with 3241204 relations and 3397362 unique ideals
Thu Jan 17 18:03:53 2013  reduce to 3216455 relations and 3081059 ideals in 8 passes
Thu Jan 17 18:03:53 2013  max relations containing the same ideal: 62
Thu Jan 17 18:03:55 2013  relations with 0 large ideals: 488
Thu Jan 17 18:03:55 2013  relations with 1 large ideals: 2862
Thu Jan 17 18:03:55 2013  relations with 2 large ideals: 37073
Thu Jan 17 18:03:55 2013  relations with 3 large ideals: 202793
Thu Jan 17 18:03:55 2013  relations with 4 large ideals: 581619
Thu Jan 17 18:03:55 2013  relations with 5 large ideals: 931653
Thu Jan 17 18:03:55 2013  relations with 6 large ideals: 855208
Thu Jan 17 18:03:55 2013  relations with 7+ large ideals: 604759
Thu Jan 17 18:03:55 2013  commencing 2-way merge
Thu Jan 17 18:03:57 2013  reduce to 1846057 relation sets and 1710661 unique ideals
Thu Jan 17 18:03:57 2013  commencing full merge
Thu Jan 17 18:04:25 2013  memory use: 188.1 MB
Thu Jan 17 18:04:25 2013  found 909616 cycles, need 892861
Thu Jan 17 18:04:26 2013  weight of 892861 cycles is about 62750613 (70.28/cycle)
Thu Jan 17 18:04:26 2013  distribution of cycle lengths:
Thu Jan 17 18:04:26 2013  1 relations: 114612
Thu Jan 17 18:04:26 2013  2 relations: 105713
Thu Jan 17 18:04:26 2013  3 relations: 103477
Thu Jan 17 18:04:26 2013  4 relations: 90690
Thu Jan 17 18:04:26 2013  5 relations: 81593
Thu Jan 17 18:04:26 2013  6 relations: 67789
Thu Jan 17 18:04:26 2013  7 relations: 59593
Thu Jan 17 18:04:26 2013  8 relations: 50565
Thu Jan 17 18:04:26 2013  9 relations: 42659
Thu Jan 17 18:04:26 2013  10+ relations: 176170
Thu Jan 17 18:04:26 2013  heaviest cycle: 21 relations
Thu Jan 17 18:04:26 2013  commencing cycle optimization
Thu Jan 17 18:04:27 2013  start with 5304834 relations
Thu Jan 17 18:04:34 2013  pruned 110459 relations
Thu Jan 17 18:04:34 2013  memory use: 180.7 MB
Thu Jan 17 18:04:34 2013  distribution of cycle lengths:
Thu Jan 17 18:04:34 2013  1 relations: 114612
Thu Jan 17 18:04:34 2013  2 relations: 108106
Thu Jan 17 18:04:34 2013  3 relations: 106749
Thu Jan 17 18:04:34 2013  4 relations: 92448
Thu Jan 17 18:04:34 2013  5 relations: 82754
Thu Jan 17 18:04:34 2013  6 relations: 68564
Thu Jan 17 18:04:34 2013  7 relations: 59782
Thu Jan 17 18:04:34 2013  8 relations: 50445
Thu Jan 17 18:04:34 2013  9 relations: 42150
Thu Jan 17 18:04:34 2013  10+ relations: 167251
Thu Jan 17 18:04:34 2013  heaviest cycle: 21 relations
Thu Jan 17 18:04:36 2013  RelProcTime: 356
Thu Jan 17 18:04:36 2013  
Thu Jan 17 18:04:36 2013  commencing linear algebra
Thu Jan 17 18:04:36 2013  read 892861 cycles
Thu Jan 17 18:04:37 2013  cycles contain 3071129 unique relations
Thu Jan 17 18:05:15 2013  read 3071129 relations
Thu Jan 17 18:05:19 2013  using 20 quadratic characters above 134216232
Thu Jan 17 18:05:35 2013  building initial matrix
Thu Jan 17 18:06:10 2013  memory use: 391.8 MB
Thu Jan 17 18:06:11 2013  read 892861 cycles
Thu Jan 17 18:06:11 2013  matrix is 892672 x 892861 (272.3 MB) with weight 85382493 (95.63/col)
Thu Jan 17 18:06:11 2013  sparse part has weight 60670604 (67.95/col)
Thu Jan 17 18:06:20 2013  filtering completed in 2 passes
Thu Jan 17 18:06:20 2013  matrix is 889467 x 889655 (272.0 MB) with weight 85236875 (95.81/col)
Thu Jan 17 18:06:20 2013  sparse part has weight 60621143 (68.14/col)
Thu Jan 17 18:06:22 2013  matrix starts at (0, 0)
Thu Jan 17 18:06:23 2013  matrix is 889467 x 889655 (272.0 MB) with weight 85236875 (95.81/col)
Thu Jan 17 18:06:23 2013  sparse part has weight 60621143 (68.14/col)
Thu Jan 17 18:06:23 2013  saving the first 48 matrix rows for later
Thu Jan 17 18:06:23 2013  matrix includes 64 packed rows
Thu Jan 17 18:06:23 2013  matrix is 889419 x 889655 (260.3 MB) with weight 67678034 (76.07/col)
Thu Jan 17 18:06:23 2013  sparse part has weight 59337127 (66.70/col)
Thu Jan 17 18:06:23 2013  using block size 262144 for processor cache size 12288 kB
Thu Jan 17 18:06:25 2013  commencing Lanczos iteration (16 threads)
Thu Jan 17 18:06:25 2013  memory use: 380.3 MB
Thu Jan 17 18:06:36 2013  linear algebra at 0.3%, ETA 0h48m
Thu Jan 17 18:54:54 2013  lanczos halted after 14066 iterations (dim = 889419)
Thu Jan 17 18:54:56 2013  recovered 32 nontrivial dependencies
Thu Jan 17 18:54:56 2013  BLanczosTime: 3020
Thu Jan 17 18:54:56 2013  
Thu Jan 17 18:54:56 2013  commencing square root phase
Thu Jan 17 18:54:56 2013  reading relations for dependency 1
Thu Jan 17 18:54:56 2013  read 444834 cycles
Thu Jan 17 18:54:57 2013  cycles contain 1532990 unique relations
Thu Jan 17 18:55:16 2013  read 1532990 relations
Thu Jan 17 18:55:23 2013  multiplying 1532990 relations
Thu Jan 17 18:57:24 2013  multiply complete, coefficients have about 71.70 million bits
Thu Jan 17 18:57:25 2013  initial square root is modulo 140191
Thu Jan 17 19:00:01 2013  sqrtTime: 305

prp52 = 1918939853996135325104914022030519168961766569774973
prp73 = 2960602088024010953400857758921732604100214394079596468812158927643498591
NFS elapsed time = 22310.1025 seconds.

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 14:57:48 UTC 2013 年 1 月 10 日 (木) 23 時 57 分 48 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:54:40 UTC 2013 年 1 月 12 日 (土) 6 時 54 分 40 秒 (日本時間)
4511e61000 / 4194Dmitry DomanovJanuary 15, 2013 14:48:48 UTC 2013 年 1 月 15 日 (火) 23 時 48 分 48 秒 (日本時間)

67×10211+239

c185

name 名前Warut Roonguthai
date 日付January 7, 2013 22:25:09 UTC 2013 年 1 月 8 日 (火) 7 時 25 分 9 秒 (日本時間)
composite number 合成数
12064817288110996568737001653080411298703129796847050905315516931459852278497735239834518214011493424394660630514773995323277325661936653474448051228263582108251427119506762746677386739<185>
prime factors 素因数
864911502689686812083827315427297<33>
698838065228961298125989735350715593<36>
19960550910742746725591933815323168292252820343783701861012923698965797839014908431474095760453546416816705071449659<116>
factorization results 素因数分解の結果
Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=1978606053
Step 1 took 10452ms
Step 2 took 6583ms
********** Factor found in step 2: 698838065228961298125989735350715593
Found probable prime factor of 36 digits: 698838065228961298125989735350715593
Composite cofactor 17264110082724505731104402253890144385295451541502953499360641504335892534516668488574816022315409136204464812042169066654299790750143698550809941723 has 149 digits

Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=444983406
Step 1 took 6505ms
Step 2 took 5304ms
********** Factor found in step 2: 864911502689686812083827315427297
Found probable prime factor of 33 digits: 864911502689686812083827315427297
Probable prime cofactor 19960550910742746725591933815323168292252820343783701861012923698965797839014908431474095760453546416816705071449659 has 116 digits
software ソフトウェア
GMP-ECM 6.3

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
3025e40--
351e6118 / 904Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)

67×10213+239

c203

name 名前Warut Roonguthai
date 日付January 7, 2013 22:29:07 UTC 2013 年 1 月 8 日 (火) 7 時 29 分 7 秒 (日本時間)
composite number 合成数
33013469206874539765168519380745032982018858914933974740890272880098817384666222532753135881922119547250368473670301679099026103708767534036546281176920749346943679598869172356557975086690737103669495971<203>
prime factors 素因数
6948768332204997201168333083922558991<37>
composite cofactor 合成数の残り
4750981415493332332926252010930272291868830839014082675020830616526944992888480054996235952324770624069065131477734591291501598576547029949840033967164455653680564781<166>
factorization results 素因数分解の結果
Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=1931515534
Step 1 took 10358ms
Step 2 took 6178ms
********** Factor found in step 2: 6948768332204997201168333083922558991
Found probable prime factor of 37 digits: 6948768332204997201168333083922558991
Composite cofactor 4750981415493332332926252010930272291868830839014082675020830616526944992888480054996235952324770624069065131477734591291501598576547029949840033967164455653680564781 has 166 digits
software ソフトウェア
GMP-ECM 6.3

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 14:58:04 UTC 2013 年 1 月 10 日 (木) 23 時 58 分 4 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:54:53 UTC 2013 年 1 月 12 日 (土) 6 時 54 分 53 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:49:00 UTC 2013 年 1 月 15 日 (火) 23 時 49 分 0 秒 (日本時間)
5043e62292 / 6801500Dmitry DomanovMarch 21, 2014 11:46:33 UTC 2014 年 3 月 21 日 (金) 20 時 46 分 33 秒 (日本時間)
1792Dmitry DomanovDecember 23, 2023 20:44:59 UTC 2023 年 12 月 24 日 (日) 5 時 44 分 59 秒 (日本時間)
5511e7200 / 16880Dmitry DomanovApril 28, 2014 13:03:43 UTC 2014 年 4 月 28 日 (月) 22 時 3 分 43 秒 (日本時間)

67×10214+239

c173

composite cofactor 合成数の残り
38583254478033589152265645562610426197444674721249990971875952177217174564331957776921398080950782043035492882721031223595678796577994668069549942035397392873483797806111579<173>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 14:58:16 UTC 2013 年 1 月 10 日 (木) 23 時 58 分 16 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:55:02 UTC 2013 年 1 月 12 日 (土) 6 時 55 分 2 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:49:11 UTC 2013 年 1 月 15 日 (火) 23 時 49 分 11 秒 (日本時間)
5043e62292 / 6801500Dmitry DomanovMarch 21, 2014 11:46:47 UTC 2014 年 3 月 21 日 (金) 20 時 46 分 47 秒 (日本時間)
1792Dmitry DomanovDecember 24, 2023 11:12:27 UTC 2023 年 12 月 24 日 (日) 20 時 12 分 27 秒 (日本時間)
5511e7200 / 16880Dmitry DomanovApril 28, 2014 13:03:30 UTC 2014 年 4 月 28 日 (月) 22 時 3 分 30 秒 (日本時間)

67×10215+239

c172

composite cofactor 合成数の残り
5107060366404579161832064318105753123590659139359248034838033999782273015137114804977440965553998078329024472194927782130089318487256208089065350030458463629714419317597477<172>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 14:58:24 UTC 2013 年 1 月 10 日 (木) 23 時 58 分 24 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:55:14 UTC 2013 年 1 月 12 日 (土) 6 時 55 分 14 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:49:23 UTC 2013 年 1 月 15 日 (火) 23 時 49 分 23 秒 (日本時間)
5043e62292 / 6801500Dmitry DomanovMarch 21, 2014 11:47:00 UTC 2014 年 3 月 21 日 (金) 20 時 47 分 0 秒 (日本時間)
1792Dmitry DomanovDecember 24, 2023 11:12:55 UTC 2023 年 12 月 24 日 (日) 20 時 12 分 55 秒 (日本時間)
5511e7200 / 16880Dmitry DomanovApril 28, 2014 13:03:16 UTC 2014 年 4 月 28 日 (月) 22 時 3 分 16 秒 (日本時間)

67×10216+239

c160

composite cofactor 合成数の残り
2152226084192849218229547830177564088488535369503593368432003100817250881261963851143533665867571890531022342236614458927023782898422851773655163811797439642511<160>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 9, 2013 05:13:10 UTC 2013 年 1 月 9 日 (水) 14 時 13 分 10 秒 (日本時間)
403e66400Warut RoonguthaiJanuary 9, 2013 05:13:10 UTC 2013 年 1 月 9 日 (水) 14 時 13 分 10 秒 (日本時間)
4511e60--
5043e62652 / 7303500Dmitry DomanovMarch 21, 2014 11:47:14 UTC 2014 年 3 月 21 日 (金) 20 時 47 分 14 秒 (日本時間)
360Dmitry DomanovMay 26, 2014 09:09:11 UTC 2014 年 5 月 26 日 (月) 18 時 9 分 11 秒 (日本時間)
1792Dmitry DomanovDecember 24, 2023 11:12:55 UTC 2023 年 12 月 24 日 (日) 20 時 12 分 55 秒 (日本時間)

67×10218+239

c176

composite cofactor 合成数の残り
25747901730211043980370105828570098939533429189353383755755924702771504175231273047120908527968831052435506547419434878797955879203790581195652598361402438244478518167947669349<176>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 14:58:45 UTC 2013 年 1 月 10 日 (木) 23 時 58 分 45 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:55:34 UTC 2013 年 1 月 12 日 (土) 6 時 55 分 34 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:45:22 UTC 2013 年 1 月 15 日 (火) 23 時 45 分 22 秒 (日本時間)
5043e62292 / 6801500Dmitry DomanovMarch 21, 2014 11:47:27 UTC 2014 年 3 月 21 日 (金) 20 時 47 分 27 秒 (日本時間)
1792Dmitry DomanovDecember 24, 2023 11:13:07 UTC 2023 年 12 月 24 日 (日) 20 時 13 分 7 秒 (日本時間)
5511e7200 / 16880Dmitry DomanovApril 28, 2014 13:02:49 UTC 2014 年 4 月 28 日 (月) 22 時 2 分 49 秒 (日本時間)

67×10219+239

c182

name 名前Warut Roonguthai
date 日付January 8, 2013 00:12:01 UTC 2013 年 1 月 8 日 (火) 9 時 12 分 1 秒 (日本時間)
composite number 合成数
33588973919927718508406957015830142815710809159009246144152863108482372844156876559025461520929208600915816766419210559302217578141819610940858666843195286710643032456438553668902037<182>
prime factors 素因数
144001988617100081049817581100656221<36>
composite cofactor 合成数の残り
233253542138508106912916811733266192318352671980405667674934794960234372149240657385606699152945642714595764451944186771919395458639021175288396697<147>
factorization results 素因数分解の結果
Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=1109791260
Step 1 took 10546ms
Step 2 took 7020ms
********** Factor found in step 2: 144001988617100081049817581100656221
Found probable prime factor of 36 digits: 144001988617100081049817581100656221
Composite cofactor 233253542138508106912916811733266192318352671980405667674934794960234372149240657385606699152945642714595764451944186771919395458639021175288396697 has 147 digits
software ソフトウェア
GMP-ECM 6.3

c147

name 名前Erik Branger
date 日付December 2, 2017 08:09:50 UTC 2017 年 12 月 2 日 (土) 17 時 9 分 50 秒 (日本時間)
composite number 合成数
233253542138508106912916811733266192318352671980405667674934794960234372149240657385606699152945642714595764451944186771919395458639021175288396697<147>
prime factors 素因数
293075420992227662325568361624703143731804650277181297839597<60>
795882306843786715743768688820601509116580594186825518884826236338940691889594430574301<87>
factorization results 素因数分解の結果
Number: 74447_219
N = 233253542138508106912916811733266192318352671980405667674934794960234372149240657385606699152945642714595764451944186771919395458639021175288396697 (147 digits)
SNFS difficulty: 222 digits.
Divisors found:
r1=293075420992227662325568361624703143731804650277181297839597 (pp60)
r2=795882306843786715743768688820601509116580594186825518884826236338940691889594430574301 (pp87)
Version: Msieve v. 1.52 (SVN unknown)
Total time: 101.73 hours.
Factorization parameters were as follows:
n: 233253542138508106912916811733266192318352671980405667674934794960234372149240657385606699152945642714595764451944186771919395458639021175288396697
m: 10000000000000000000000000000000000000000000000000000000
deg: 4
c4: 67
c0: 230
skew: 1.00
type: snfs
lss: 1
rlim: 536870912
alim: 67108864
lpbr: 29
lpba: 27
mfbr: 58
mfba: 54
rlambda: 2.8
alambda: 2.8
side: 1
Number of cores used: 4
Number of threads per core: 1
Factor base limits: 536870912/67108864
Large primes per side: 3
Large prime bits: 29/27
Total raw relations: 30005587
Relations: 10108868 relations
Total pre-computation time approximately 1000 CPU-days.
Pre-computation saved approximately 18 G rational relations.
Total batch smoothness checking time: 50.33 hours.
Total relation processing time: 0.31 hours.
Pruned matrix : 8694251 x 8694476
Matrix solve time: 50.71 hours.
time per square root: 0.39 hours.
Prototype def-par.txt line would be: snfs,222,4,0,0,0,0,0,0,0,0,536870912,67108864,29,27,58,54,2.8,2.8,100000
total time: 101.73 hours.
Intel64 Family 6 Model 60 Stepping 3, GenuineIntel
Windows-10-10.0.15063-SP0
processors: 8, speed: 3.50GHz
software ソフトウェア
GGNFS, NFS_factory, Msieve

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 8, 2013 20:45:40 UTC 2013 年 1 月 9 日 (水) 5 時 45 分 40 秒 (日本時間)
403e63100Warut RoonguthaiJanuary 8, 2013 20:45:40 UTC 2013 年 1 月 9 日 (水) 5 時 45 分 40 秒 (日本時間)
4511e61250850Serge BatalovNovember 8, 2013 17:10:26 UTC 2013 年 11 月 9 日 (土) 2 時 10 分 26 秒 (日本時間)
400Serge BatalovJanuary 6, 2014 02:24:33 UTC 2014 年 1 月 6 日 (月) 11 時 24 分 33 秒 (日本時間)
5043e6400 / 6790Dmitry DomanovMay 6, 2014 05:31:53 UTC 2014 年 5 月 6 日 (火) 14 時 31 分 53 秒 (日本時間)
5511e7148 / 17523Dmitry DomanovMay 22, 2014 05:30:12 UTC 2014 年 5 月 22 日 (木) 14 時 30 分 12 秒 (日本時間)

67×10220+239

c170

name 名前Erik Branger
date 日付April 27, 2018 07:15:59 UTC 2018 年 4 月 27 日 (金) 16 時 15 分 59 秒 (日本時間)
composite number 合成数
39201617233921837007762856238177006530257675242423745369746631891045188281562337706126412543570640299921440809863149882061852633235429383096089725212074821294346417514423<170>
prime factors 素因数
61421895243690840942806464447336112508834327405858944494536598541554517<71>
638235226679179434287901925440302589992330961965891283041852960854971574995663216710032819328345819<99>
factorization results 素因数分解の結果
Tue Apr 24 01:19:57 2018 -> factmsieve.py (v0.76)
Tue Apr 24 01:19:57 2018 -> This is client 1 of 1
Tue Apr 24 01:19:57 2018 -> Running on 4 Cores with 1 hyper-thread per Core
Tue Apr 24 01:19:57 2018 -> Working with NAME = 74447_220
Tue Apr 24 01:19:57 2018 -> Selected lattice siever: gnfs-lasieve4I14e
Tue Apr 24 01:19:57 2018 -> Creating param file to detect parameter changes...
Tue Apr 24 01:19:57 2018 -> Running setup ...
Tue Apr 24 01:19:57 2018 -> Estimated minimum relations needed: 5.90784e+07
Tue Apr 24 01:19:57 2018 -> cleaning up before a restart
Tue Apr 24 01:19:57 2018 -> Running lattice siever ...
Tue Apr 24 01:19:57 2018 -> entering sieving loop
Tue Apr 24 01:19:57 2018 -> making sieve job for q = 1 in 1 .. 2 as file 74447_220.job.T0
Tue Apr 24 01:19:57 2018 -> making sieve job for q = 2 in 2 .. 3 as file 74447_220.job.T1
Tue Apr 24 01:19:57 2018 -> making sieve job for q = 3 in 3 .. 4 as file 74447_220.job.T2
Tue Apr 24 01:19:57 2018 -> making sieve job for q = 4 in 4 .. 5 as file 74447_220.job.T3
Tue Apr 24 01:19:57 2018 -> Batch checking input file1
Tue Apr 24 01:19:57 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs1.out spairs.out.T0
Tue Apr 24 01:19:57 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs2.out spairs.out.T1
Tue Apr 24 01:19:57 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs3.out spairs.out.T2
Tue Apr 24 01:19:57 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs4.out spairs.out.T3
Tue Apr 24 01:22:00 2018 Found 40543 relations, 0.1% of the estimated minimum (32000000).
Tue Apr 24 01:22:00 2018 LatSieveTime: 122.991
Tue Apr 24 01:22:00 2018 -> making sieve job for q = 5 in 5 .. 6 as file 74447_220.job.T0
Tue Apr 24 01:22:00 2018 -> making sieve job for q = 6 in 6 .. 7 as file 74447_220.job.T1
Tue Apr 24 01:22:00 2018 -> making sieve job for q = 7 in 7 .. 8 as file 74447_220.job.T2
Tue Apr 24 01:22:00 2018 -> making sieve job for q = 8 in 8 .. 9 as file 74447_220.job.T3
Tue Apr 24 01:22:00 2018 -> Batch checking input file5
Tue Apr 24 01:22:00 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs5.out spairs.out.T0
Tue Apr 24 01:22:00 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs6.out spairs.out.T1
Tue Apr 24 01:22:00 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs7.out spairs.out.T2
Tue Apr 24 01:22:00 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs8.out spairs.out.T3
Tue Apr 24 01:24:08 2018 Found 84154 relations, 0.3% of the estimated minimum (32000000).
Tue Apr 24 01:24:08 2018 LatSieveTime: 128.686
Tue Apr 24 01:24:08 2018 -> making sieve job for q = 9 in 9 .. 10 as file 74447_220.job.T0
Tue Apr 24 01:24:08 2018 -> making sieve job for q = 10 in 10 .. 11 as file 74447_220.job.T1
Tue Apr 24 01:24:08 2018 -> making sieve job for q = 11 in 11 .. 12 as file 74447_220.job.T2
Tue Apr 24 01:24:08 2018 -> making sieve job for q = 12 in 12 .. 13 as file 74447_220.job.T3
Tue Apr 24 01:24:08 2018 -> Batch checking input file9
Tue Apr 24 01:24:08 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs9.out spairs.out.T0
Tue Apr 24 01:24:08 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs10.out spairs.out.T1
Tue Apr 24 01:24:08 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs11.out spairs.out.T2
Tue Apr 24 01:24:08 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs12.out spairs.out.T3
Tue Apr 24 01:26:32 2018 Found 131289 relations, 0.4% of the estimated minimum (32000000).
Tue Apr 24 01:26:32 2018 LatSieveTime: 143.766
Tue Apr 24 01:26:32 2018 -> making sieve job for q = 13 in 13 .. 14 as file 74447_220.job.T0
Tue Apr 24 01:26:32 2018 -> making sieve job for q = 14 in 14 .. 15 as file 74447_220.job.T1
Tue Apr 24 01:26:32 2018 -> making sieve job for q = 15 in 15 .. 16 as file 74447_220.job.T2
Tue Apr 24 01:26:32 2018 -> making sieve job for q = 16 in 16 .. 17 as file 74447_220.job.T3
Tue Apr 24 01:26:32 2018 -> Batch checking input file13
Tue Apr 24 01:26:32 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs13.out spairs.out.T0
Tue Apr 24 01:26:32 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs14.out spairs.out.T1
Tue Apr 24 01:26:32 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs15.out spairs.out.T2
Tue Apr 24 01:26:32 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs16.out spairs.out.T3
Tue Apr 24 01:29:06 2018 Found 183219 relations, 0.6% of the estimated minimum (32000000).
Tue Apr 24 01:29:06 2018 LatSieveTime: 153.849
Tue Apr 24 01:29:06 2018 -> making sieve job for q = 17 in 17 .. 18 as file 74447_220.job.T0
Tue Apr 24 01:29:06 2018 -> making sieve job for q = 18 in 18 .. 19 as file 74447_220.job.T1
Tue Apr 24 01:29:06 2018 -> making sieve job for q = 19 in 19 .. 20 as file 74447_220.job.T2
Tue Apr 24 01:29:06 2018 -> making sieve job for q = 20 in 20 .. 21 as file 74447_220.job.T3
Tue Apr 24 01:29:06 2018 -> Batch checking input file17
Tue Apr 24 01:29:06 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs17.out spairs.out.T0
Tue Apr 24 01:29:06 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs18.out spairs.out.T1
Tue Apr 24 01:29:06 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs19.out spairs.out.T2
Tue Apr 24 01:29:06 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs20.out spairs.out.T3
Tue Apr 24 01:31:54 2018 Found 239312 relations, 0.7% of the estimated minimum (32000000).
Tue Apr 24 01:31:54 2018 LatSieveTime: 167.902
Tue Apr 24 01:31:54 2018 -> making sieve job for q = 21 in 21 .. 22 as file 74447_220.job.T0
Tue Apr 24 01:31:54 2018 -> making sieve job for q = 22 in 22 .. 23 as file 74447_220.job.T1
Tue Apr 24 01:31:54 2018 -> making sieve job for q = 23 in 23 .. 24 as file 74447_220.job.T2
Tue Apr 24 01:31:54 2018 -> making sieve job for q = 24 in 24 .. 25 as file 74447_220.job.T3
Tue Apr 24 01:31:54 2018 -> Batch checking input file21
Tue Apr 24 01:31:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs21.out spairs.out.T0
Tue Apr 24 01:31:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs22.out spairs.out.T1
Tue Apr 24 01:31:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs23.out spairs.out.T2
Tue Apr 24 01:31:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs24.out spairs.out.T3
Tue Apr 24 01:34:54 2018 Found 299122 relations, 0.9% of the estimated minimum (32000000).
Tue Apr 24 01:34:54 2018 LatSieveTime: 180.006
Tue Apr 24 01:34:54 2018 -> making sieve job for q = 25 in 25 .. 26 as file 74447_220.job.T0
Tue Apr 24 01:34:54 2018 -> making sieve job for q = 26 in 26 .. 27 as file 74447_220.job.T1
Tue Apr 24 01:34:54 2018 -> making sieve job for q = 27 in 27 .. 28 as file 74447_220.job.T2
Tue Apr 24 01:34:54 2018 -> making sieve job for q = 28 in 28 .. 29 as file 74447_220.job.T3
Tue Apr 24 01:34:54 2018 -> Batch checking input file25
Tue Apr 24 01:34:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs25.out spairs.out.T0
Tue Apr 24 01:34:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs26.out spairs.out.T1
Tue Apr 24 01:34:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs27.out spairs.out.T2
Tue Apr 24 01:34:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs28.out spairs.out.T3
Tue Apr 24 01:38:00 2018 Found 362203 relations, 1.1% of the estimated minimum (32000000).
Tue Apr 24 01:38:00 2018 LatSieveTime: 186.024
Tue Apr 24 01:38:00 2018 -> making sieve job for q = 29 in 29 .. 30 as file 74447_220.job.T0
Tue Apr 24 01:38:00 2018 -> making sieve job for q = 30 in 30 .. 31 as file 74447_220.job.T1
Tue Apr 24 01:38:00 2018 -> making sieve job for q = 31 in 31 .. 32 as file 74447_220.job.T2
Tue Apr 24 01:38:00 2018 -> making sieve job for q = 32 in 32 .. 33 as file 74447_220.job.T3
Tue Apr 24 01:38:00 2018 -> Batch checking input file29
Tue Apr 24 01:38:00 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs29.out spairs.out.T0
Tue Apr 24 01:38:00 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs30.out spairs.out.T1
Tue Apr 24 01:38:00 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs31.out spairs.out.T2
Tue Apr 24 01:38:00 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs32.out spairs.out.T3
Tue Apr 24 01:41:21 2018 Found 428981 relations, 1.3% of the estimated minimum (32000000).
Tue Apr 24 01:41:21 2018 LatSieveTime: 201.103
Tue Apr 24 01:41:21 2018 -> making sieve job for q = 33 in 33 .. 34 as file 74447_220.job.T0
Tue Apr 24 01:41:21 2018 -> making sieve job for q = 34 in 34 .. 35 as file 74447_220.job.T1
Tue Apr 24 01:41:21 2018 -> making sieve job for q = 35 in 35 .. 36 as file 74447_220.job.T2
Tue Apr 24 01:41:21 2018 -> making sieve job for q = 36 in 36 .. 37 as file 74447_220.job.T3
Tue Apr 24 01:41:21 2018 -> Batch checking input file33
Tue Apr 24 01:41:21 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs33.out spairs.out.T0
Tue Apr 24 01:41:21 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs34.out spairs.out.T1
Tue Apr 24 01:41:21 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs35.out spairs.out.T2
Tue Apr 24 01:41:21 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs36.out spairs.out.T3
Tue Apr 24 01:44:54 2018 Found 499755 relations, 1.6% of the estimated minimum (32000000).
Tue Apr 24 01:44:54 2018 LatSieveTime: 213.186
Tue Apr 24 01:44:54 2018 -> making sieve job for q = 37 in 37 .. 38 as file 74447_220.job.T0
Tue Apr 24 01:44:54 2018 -> making sieve job for q = 38 in 38 .. 39 as file 74447_220.job.T1
Tue Apr 24 01:44:54 2018 -> making sieve job for q = 39 in 39 .. 40 as file 74447_220.job.T2
Tue Apr 24 01:44:54 2018 -> making sieve job for q = 40 in 40 .. 41 as file 74447_220.job.T3
Tue Apr 24 01:44:54 2018 -> Batch checking input file37
Tue Apr 24 01:44:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs37.out spairs.out.T0
Tue Apr 24 01:44:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs38.out spairs.out.T1
Tue Apr 24 01:44:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs39.out spairs.out.T2
Tue Apr 24 01:44:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs40.out spairs.out.T3
Tue Apr 24 01:48:47 2018 Found 575379 relations, 1.8% of the estimated minimum (32000000).
Tue Apr 24 01:48:47 2018 LatSieveTime: 233.268
Tue Apr 24 01:48:47 2018 -> making sieve job for q = 41 in 41 .. 42 as file 74447_220.job.T0
Tue Apr 24 01:48:47 2018 -> making sieve job for q = 42 in 42 .. 43 as file 74447_220.job.T1
Tue Apr 24 01:48:47 2018 -> making sieve job for q = 43 in 43 .. 44 as file 74447_220.job.T2
Tue Apr 24 01:48:47 2018 -> making sieve job for q = 44 in 44 .. 45 as file 74447_220.job.T3
Tue Apr 24 01:48:47 2018 -> Batch checking input file41
Tue Apr 24 01:48:47 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs41.out spairs.out.T0
Tue Apr 24 01:48:47 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs42.out spairs.out.T1
Tue Apr 24 01:48:48 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs43.out spairs.out.T2
Tue Apr 24 01:48:48 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs44.out spairs.out.T3
Tue Apr 24 01:52:53 2018 Found 654741 relations, 2.0% of the estimated minimum (32000000).
Tue Apr 24 01:52:53 2018 LatSieveTime: 245.339
Tue Apr 24 01:52:53 2018 -> making sieve job for q = 45 in 45 .. 46 as file 74447_220.job.T0
Tue Apr 24 01:52:53 2018 -> making sieve job for q = 46 in 46 .. 47 as file 74447_220.job.T1
Tue Apr 24 01:52:53 2018 -> making sieve job for q = 47 in 47 .. 48 as file 74447_220.job.T2
Tue Apr 24 01:52:53 2018 -> making sieve job for q = 48 in 48 .. 49 as file 74447_220.job.T3
Tue Apr 24 01:52:53 2018 -> Batch checking input file45
Tue Apr 24 01:52:53 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs45.out spairs.out.T0
Tue Apr 24 01:52:53 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs46.out spairs.out.T1
Tue Apr 24 01:52:53 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs47.out spairs.out.T2
Tue Apr 24 01:52:53 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs48.out spairs.out.T3
Tue Apr 24 01:57:12 2018 Found 738911 relations, 2.3% of the estimated minimum (32000000).
Tue Apr 24 01:57:12 2018 LatSieveTime: 259.445
Tue Apr 24 01:57:12 2018 -> making sieve job for q = 49 in 49 .. 50 as file 74447_220.job.T0
Tue Apr 24 01:57:12 2018 -> making sieve job for q = 50 in 50 .. 51 as file 74447_220.job.T1
Tue Apr 24 01:57:12 2018 -> making sieve job for q = 51 in 51 .. 52 as file 74447_220.job.T2
Tue Apr 24 01:57:12 2018 -> making sieve job for q = 52 in 52 .. 53 as file 74447_220.job.T3
Tue Apr 24 01:57:12 2018 -> Batch checking input file49
Tue Apr 24 01:57:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs49.out spairs.out.T0
Tue Apr 24 01:57:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs50.out spairs.out.T1
Tue Apr 24 01:57:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs51.out spairs.out.T2
Tue Apr 24 01:57:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs52.out spairs.out.T3
Tue Apr 24 02:01:51 2018 Found 828298 relations, 2.6% of the estimated minimum (32000000).
Tue Apr 24 02:01:51 2018 LatSieveTime: 278.518
Tue Apr 24 02:01:51 2018 -> making sieve job for q = 53 in 53 .. 54 as file 74447_220.job.T0
Tue Apr 24 02:01:51 2018 -> making sieve job for q = 54 in 54 .. 55 as file 74447_220.job.T1
Tue Apr 24 02:01:51 2018 -> making sieve job for q = 55 in 55 .. 56 as file 74447_220.job.T2
Tue Apr 24 02:01:51 2018 -> making sieve job for q = 56 in 56 .. 57 as file 74447_220.job.T3
Tue Apr 24 02:01:51 2018 -> Batch checking input file53
Tue Apr 24 02:01:51 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs53.out spairs.out.T0
Tue Apr 24 02:01:51 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs54.out spairs.out.T1
Tue Apr 24 02:01:51 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs55.out spairs.out.T2
Tue Apr 24 02:01:51 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs56.out spairs.out.T3
Tue Apr 24 02:06:54 2018 Found 922908 relations, 2.9% of the estimated minimum (32000000).
Tue Apr 24 02:06:54 2018 LatSieveTime: 303.619
Tue Apr 24 02:06:54 2018 -> making sieve job for q = 57 in 57 .. 58 as file 74447_220.job.T0
Tue Apr 24 02:06:54 2018 -> making sieve job for q = 58 in 58 .. 59 as file 74447_220.job.T1
Tue Apr 24 02:06:54 2018 -> making sieve job for q = 59 in 59 .. 60 as file 74447_220.job.T2
Tue Apr 24 02:06:54 2018 -> making sieve job for q = 60 in 60 .. 61 as file 74447_220.job.T3
Tue Apr 24 02:06:54 2018 -> Batch checking input file57
Tue Apr 24 02:06:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs57.out spairs.out.T0
Tue Apr 24 02:06:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs58.out spairs.out.T1
Tue Apr 24 02:06:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs59.out spairs.out.T2
Tue Apr 24 02:06:55 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs60.out spairs.out.T3
Tue Apr 24 02:12:11 2018 Found 1023212 relations, 3.2% of the estimated minimum (32000000).
Tue Apr 24 02:12:11 2018 LatSieveTime: 316.748
Tue Apr 24 02:12:11 2018 -> making sieve job for q = 61 in 61 .. 62 as file 74447_220.job.T0
Tue Apr 24 02:12:11 2018 -> making sieve job for q = 62 in 62 .. 63 as file 74447_220.job.T1
Tue Apr 24 02:12:11 2018 -> making sieve job for q = 63 in 63 .. 64 as file 74447_220.job.T2
Tue Apr 24 02:12:11 2018 -> making sieve job for q = 64 in 64 .. 65 as file 74447_220.job.T3
Tue Apr 24 02:12:11 2018 -> Batch checking input file61
Tue Apr 24 02:12:11 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs61.out spairs.out.T0
Tue Apr 24 02:12:11 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs62.out spairs.out.T1
Tue Apr 24 02:12:11 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs63.out spairs.out.T2
Tue Apr 24 02:12:11 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs64.out spairs.out.T3
Tue Apr 24 02:17:54 2018 Found 1129161 relations, 3.5% of the estimated minimum (32000000).
Tue Apr 24 02:17:54 2018 LatSieveTime: 342.863
Tue Apr 24 02:17:54 2018 -> making sieve job for q = 65 in 65 .. 66 as file 74447_220.job.T0
Tue Apr 24 02:17:54 2018 -> making sieve job for q = 66 in 66 .. 67 as file 74447_220.job.T1
Tue Apr 24 02:17:54 2018 -> making sieve job for q = 67 in 67 .. 68 as file 74447_220.job.T2
Tue Apr 24 02:17:54 2018 -> making sieve job for q = 68 in 68 .. 69 as file 74447_220.job.T3
Tue Apr 24 02:17:54 2018 -> Batch checking input file65
Tue Apr 24 02:17:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs65.out spairs.out.T0
Tue Apr 24 02:17:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs66.out spairs.out.T1
Tue Apr 24 02:17:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs67.out spairs.out.T2
Tue Apr 24 02:17:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs68.out spairs.out.T3
Tue Apr 24 02:24:05 2018 Found 1240704 relations, 3.9% of the estimated minimum (32000000).
Tue Apr 24 02:24:05 2018 LatSieveTime: 370.982
Tue Apr 24 02:24:05 2018 -> making sieve job for q = 69 in 69 .. 70 as file 74447_220.job.T0
Tue Apr 24 02:24:05 2018 -> making sieve job for q = 70 in 70 .. 71 as file 74447_220.job.T1
Tue Apr 24 02:24:05 2018 -> making sieve job for q = 71 in 71 .. 72 as file 74447_220.job.T2
Tue Apr 24 02:24:05 2018 -> making sieve job for q = 72 in 72 .. 73 as file 74447_220.job.T3
Tue Apr 24 02:24:05 2018 -> Batch checking input file69
Tue Apr 24 02:24:05 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs69.out spairs.out.T0
Tue Apr 24 02:24:05 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs70.out spairs.out.T1
Tue Apr 24 02:24:05 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs71.out spairs.out.T2
Tue Apr 24 02:24:05 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs72.out spairs.out.T3
Tue Apr 24 02:30:26 2018 Found 1358712 relations, 4.2% of the estimated minimum (32000000).
Tue Apr 24 02:30:26 2018 LatSieveTime: 381.111
Tue Apr 24 02:30:26 2018 -> making sieve job for q = 73 in 73 .. 74 as file 74447_220.job.T0
Tue Apr 24 02:30:26 2018 -> making sieve job for q = 74 in 74 .. 75 as file 74447_220.job.T1
Tue Apr 24 02:30:26 2018 -> making sieve job for q = 75 in 75 .. 76 as file 74447_220.job.T2
Tue Apr 24 02:30:26 2018 -> making sieve job for q = 76 in 76 .. 77 as file 74447_220.job.T3
Tue Apr 24 02:30:26 2018 -> Batch checking input file73
Tue Apr 24 02:30:26 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs73.out spairs.out.T0
Tue Apr 24 02:30:26 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs74.out spairs.out.T1
Tue Apr 24 02:30:26 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs75.out spairs.out.T2
Tue Apr 24 02:30:26 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs76.out spairs.out.T3
Tue Apr 24 02:37:20 2018 Found 1483830 relations, 4.6% of the estimated minimum (32000000).
Tue Apr 24 02:37:20 2018 LatSieveTime: 414.241
Tue Apr 24 02:37:20 2018 -> making sieve job for q = 77 in 77 .. 78 as file 74447_220.job.T0
Tue Apr 24 02:37:20 2018 -> making sieve job for q = 78 in 78 .. 79 as file 74447_220.job.T1
Tue Apr 24 02:37:20 2018 -> making sieve job for q = 79 in 79 .. 80 as file 74447_220.job.T2
Tue Apr 24 02:37:20 2018 -> making sieve job for q = 80 in 80 .. 81 as file 74447_220.job.T3
Tue Apr 24 02:37:20 2018 -> Batch checking input file77
Tue Apr 24 02:37:20 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs77.out spairs.out.T0
Tue Apr 24 02:37:20 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs78.out spairs.out.T1
Tue Apr 24 02:37:20 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs79.out spairs.out.T2
Tue Apr 24 02:37:20 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs80.out spairs.out.T3
Tue Apr 24 02:44:44 2018 Found 1615207 relations, 5.0% of the estimated minimum (32000000).
Tue Apr 24 02:44:44 2018 LatSieveTime: 443.361
Tue Apr 24 02:44:44 2018 -> making sieve job for q = 81 in 81 .. 82 as file 74447_220.job.T0
Tue Apr 24 02:44:44 2018 -> making sieve job for q = 82 in 82 .. 83 as file 74447_220.job.T1
Tue Apr 24 02:44:44 2018 -> making sieve job for q = 83 in 83 .. 84 as file 74447_220.job.T2
Tue Apr 24 02:44:44 2018 -> making sieve job for q = 84 in 84 .. 85 as file 74447_220.job.T3
Tue Apr 24 02:44:44 2018 -> Batch checking input file81
Tue Apr 24 02:44:44 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs81.out spairs.out.T0
Tue Apr 24 02:44:44 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs82.out spairs.out.T1
Tue Apr 24 02:44:44 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs83.out spairs.out.T2
Tue Apr 24 02:44:44 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs84.out spairs.out.T3
Tue Apr 24 02:52:25 2018 Found 1754349 relations, 5.5% of the estimated minimum (32000000).
Tue Apr 24 02:52:25 2018 LatSieveTime: 461.522
Tue Apr 24 02:52:25 2018 -> making sieve job for q = 85 in 85 .. 86 as file 74447_220.job.T0
Tue Apr 24 02:52:25 2018 -> making sieve job for q = 86 in 86 .. 87 as file 74447_220.job.T1
Tue Apr 24 02:52:25 2018 -> making sieve job for q = 87 in 87 .. 88 as file 74447_220.job.T2
Tue Apr 24 02:52:25 2018 -> making sieve job for q = 88 in 88 .. 89 as file 74447_220.job.T3
Tue Apr 24 02:52:25 2018 -> Batch checking input file85
Tue Apr 24 02:52:25 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs85.out spairs.out.T0
Tue Apr 24 02:52:25 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs86.out spairs.out.T1
Tue Apr 24 02:52:25 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs87.out spairs.out.T2
Tue Apr 24 02:52:25 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs88.out spairs.out.T3
Tue Apr 24 03:00:42 2018 Found 1900544 relations, 5.9% of the estimated minimum (32000000).
Tue Apr 24 03:00:42 2018 LatSieveTime: 496.651
Tue Apr 24 03:00:42 2018 -> making sieve job for q = 89 in 89 .. 90 as file 74447_220.job.T0
Tue Apr 24 03:00:42 2018 -> making sieve job for q = 90 in 90 .. 91 as file 74447_220.job.T1
Tue Apr 24 03:00:42 2018 -> making sieve job for q = 91 in 91 .. 92 as file 74447_220.job.T2
Tue Apr 24 03:00:42 2018 -> making sieve job for q = 92 in 92 .. 93 as file 74447_220.job.T3
Tue Apr 24 03:00:42 2018 -> Batch checking input file89
Tue Apr 24 03:00:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs89.out spairs.out.T0
Tue Apr 24 03:00:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs90.out spairs.out.T1
Tue Apr 24 03:00:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs91.out spairs.out.T2
Tue Apr 24 03:00:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs92.out spairs.out.T3
Tue Apr 24 03:09:15 2018 Found 2055110 relations, 6.4% of the estimated minimum (32000000).
Tue Apr 24 03:09:15 2018 LatSieveTime: 512.844
Tue Apr 24 03:09:15 2018 -> making sieve job for q = 93 in 93 .. 94 as file 74447_220.job.T0
Tue Apr 24 03:09:15 2018 -> making sieve job for q = 94 in 94 .. 95 as file 74447_220.job.T1
Tue Apr 24 03:09:15 2018 -> making sieve job for q = 95 in 95 .. 96 as file 74447_220.job.T2
Tue Apr 24 03:09:15 2018 -> making sieve job for q = 96 in 96 .. 97 as file 74447_220.job.T3
Tue Apr 24 03:09:15 2018 -> Batch checking input file93
Tue Apr 24 03:09:15 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs93.out spairs.out.T0
Tue Apr 24 03:09:15 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs94.out spairs.out.T1
Tue Apr 24 03:09:15 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs95.out spairs.out.T2
Tue Apr 24 03:09:15 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs96.out spairs.out.T3
Tue Apr 24 03:18:12 2018 Found 2218397 relations, 6.9% of the estimated minimum (32000000).
Tue Apr 24 03:18:12 2018 LatSieveTime: 537.034
Tue Apr 24 03:18:12 2018 -> making sieve job for q = 97 in 97 .. 98 as file 74447_220.job.T0
Tue Apr 24 03:18:12 2018 -> making sieve job for q = 98 in 98 .. 99 as file 74447_220.job.T1
Tue Apr 24 03:18:12 2018 -> making sieve job for q = 99 in 99 .. 100 as file 74447_220.job.T2
Tue Apr 24 03:18:12 2018 -> making sieve job for q = 100 in 100 .. 101 as file 74447_220.job.T3
Tue Apr 24 03:18:12 2018 -> Batch checking input file97
Tue Apr 24 03:18:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs97.out spairs.out.T0
Tue Apr 24 03:18:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs98.out spairs.out.T1
Tue Apr 24 03:18:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs99.out spairs.out.T2
Tue Apr 24 03:18:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs100.out spairs.out.T3
Tue Apr 24 03:28:01 2018 Found 2390171 relations, 7.5% of the estimated minimum (32000000).
Tue Apr 24 03:28:01 2018 LatSieveTime: 589.395
Tue Apr 24 03:28:01 2018 -> making sieve job for q = 101 in 101 .. 102 as file 74447_220.job.T0
Tue Apr 24 03:28:01 2018 -> making sieve job for q = 102 in 102 .. 103 as file 74447_220.job.T1
Tue Apr 24 03:28:01 2018 -> making sieve job for q = 103 in 103 .. 104 as file 74447_220.job.T2
Tue Apr 24 03:28:01 2018 -> making sieve job for q = 104 in 104 .. 105 as file 74447_220.job.T3
Tue Apr 24 03:28:01 2018 -> Batch checking input file101
Tue Apr 24 03:28:01 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs101.out spairs.out.T0
Tue Apr 24 03:28:01 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs102.out spairs.out.T1
Tue Apr 24 03:28:01 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs103.out spairs.out.T2
Tue Apr 24 03:28:01 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs104.out spairs.out.T3
Tue Apr 24 03:38:05 2018 Found 2572440 relations, 8.0% of the estimated minimum (32000000).
Tue Apr 24 03:38:05 2018 LatSieveTime: 603.426
Tue Apr 24 03:38:05 2018 -> making sieve job for q = 105 in 105 .. 106 as file 74447_220.job.T0
Tue Apr 24 03:38:05 2018 -> making sieve job for q = 106 in 106 .. 107 as file 74447_220.job.T1
Tue Apr 24 03:38:05 2018 -> making sieve job for q = 107 in 107 .. 108 as file 74447_220.job.T2
Tue Apr 24 03:38:05 2018 -> making sieve job for q = 108 in 108 .. 109 as file 74447_220.job.T3
Tue Apr 24 03:38:05 2018 -> Batch checking input file105
Tue Apr 24 03:38:05 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs105.out spairs.out.T0
Tue Apr 24 03:38:05 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs106.out spairs.out.T1
Tue Apr 24 03:38:05 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs107.out spairs.out.T2
Tue Apr 24 03:38:05 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs108.out spairs.out.T3
Tue Apr 24 03:49:11 2018 Found 2765933 relations, 8.6% of the estimated minimum (32000000).
Tue Apr 24 03:49:11 2018 LatSieveTime: 666.641
Tue Apr 24 03:49:11 2018 -> making sieve job for q = 109 in 109 .. 110 as file 74447_220.job.T0
Tue Apr 24 03:49:11 2018 -> making sieve job for q = 110 in 110 .. 111 as file 74447_220.job.T1
Tue Apr 24 03:49:11 2018 -> making sieve job for q = 111 in 111 .. 112 as file 74447_220.job.T2
Tue Apr 24 03:49:11 2018 -> making sieve job for q = 112 in 112 .. 113 as file 74447_220.job.T3
Tue Apr 24 03:49:11 2018 -> Batch checking input file109
Tue Apr 24 03:49:11 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs109.out spairs.out.T0
Tue Apr 24 03:49:11 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs110.out spairs.out.T1
Tue Apr 24 03:49:11 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs111.out spairs.out.T2
Tue Apr 24 03:49:11 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs112.out spairs.out.T3
Tue Apr 24 04:01:07 2018 Found 2971341 relations, 9.3% of the estimated minimum (32000000).
Tue Apr 24 04:01:07 2018 LatSieveTime: 715.878
Tue Apr 24 04:01:07 2018 -> making sieve job for q = 113 in 113 .. 114 as file 74447_220.job.T0
Tue Apr 24 04:01:07 2018 -> making sieve job for q = 114 in 114 .. 115 as file 74447_220.job.T1
Tue Apr 24 04:01:07 2018 -> making sieve job for q = 115 in 115 .. 116 as file 74447_220.job.T2
Tue Apr 24 04:01:07 2018 -> making sieve job for q = 116 in 116 .. 117 as file 74447_220.job.T3
Tue Apr 24 04:01:07 2018 -> Batch checking input file113
Tue Apr 24 04:01:07 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs113.out spairs.out.T0
Tue Apr 24 04:01:07 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs114.out spairs.out.T1
Tue Apr 24 04:01:07 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs115.out spairs.out.T2
Tue Apr 24 04:01:07 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs116.out spairs.out.T3
Tue Apr 24 04:13:44 2018 Found 3186248 relations, 10.0% of the estimated minimum (32000000).
Tue Apr 24 04:13:44 2018 LatSieveTime: 757.025
Tue Apr 24 04:13:44 2018 -> making sieve job for q = 117 in 117 .. 118 as file 74447_220.job.T0
Tue Apr 24 04:13:44 2018 -> making sieve job for q = 118 in 118 .. 119 as file 74447_220.job.T1
Tue Apr 24 04:13:44 2018 -> making sieve job for q = 119 in 119 .. 120 as file 74447_220.job.T2
Tue Apr 24 04:13:44 2018 -> making sieve job for q = 120 in 120 .. 121 as file 74447_220.job.T3
Tue Apr 24 04:13:44 2018 -> Batch checking input file117
Tue Apr 24 04:13:44 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs117.out spairs.out.T0
Tue Apr 24 04:13:44 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs118.out spairs.out.T1
Tue Apr 24 04:13:44 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs119.out spairs.out.T2
Tue Apr 24 04:13:44 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs120.out spairs.out.T3
Tue Apr 24 04:26:38 2018 Found 3413821 relations, 10.7% of the estimated minimum (32000000).
Tue Apr 24 04:26:38 2018 LatSieveTime: 774.296
Tue Apr 24 04:26:38 2018 -> making sieve job for q = 121 in 121 .. 122 as file 74447_220.job.T0
Tue Apr 24 04:26:38 2018 -> making sieve job for q = 122 in 122 .. 123 as file 74447_220.job.T1
Tue Apr 24 04:26:38 2018 -> making sieve job for q = 123 in 123 .. 124 as file 74447_220.job.T2
Tue Apr 24 04:26:38 2018 -> making sieve job for q = 124 in 124 .. 125 as file 74447_220.job.T3
Tue Apr 24 04:26:38 2018 -> Batch checking input file121
Tue Apr 24 04:26:38 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs121.out spairs.out.T0
Tue Apr 24 04:26:38 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs122.out spairs.out.T1
Tue Apr 24 04:26:39 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs123.out spairs.out.T2
Tue Apr 24 04:26:39 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs124.out spairs.out.T3
Tue Apr 24 04:40:39 2018 Found 3654797 relations, 11.4% of the estimated minimum (32000000).
Tue Apr 24 04:40:39 2018 LatSieveTime: 840.538
Tue Apr 24 04:40:39 2018 -> making sieve job for q = 125 in 125 .. 126 as file 74447_220.job.T0
Tue Apr 24 04:40:39 2018 -> making sieve job for q = 126 in 126 .. 127 as file 74447_220.job.T1
Tue Apr 24 04:40:39 2018 -> making sieve job for q = 127 in 127 .. 128 as file 74447_220.job.T2
Tue Apr 24 04:40:39 2018 -> making sieve job for q = 128 in 128 .. 129 as file 74447_220.job.T3
Tue Apr 24 04:40:39 2018 -> Batch checking input file125
Tue Apr 24 04:40:39 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs125.out spairs.out.T0
Tue Apr 24 04:40:39 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs126.out spairs.out.T1
Tue Apr 24 04:40:39 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs127.out spairs.out.T2
Tue Apr 24 04:40:39 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs128.out spairs.out.T3
Tue Apr 24 04:55:43 2018 Found 3906822 relations, 12.2% of the estimated minimum (32000000).
Tue Apr 24 04:55:43 2018 LatSieveTime: 903.767
Tue Apr 24 04:55:43 2018 -> making sieve job for q = 129 in 129 .. 130 as file 74447_220.job.T0
Tue Apr 24 04:55:43 2018 -> making sieve job for q = 130 in 130 .. 131 as file 74447_220.job.T1
Tue Apr 24 04:55:43 2018 -> making sieve job for q = 131 in 131 .. 132 as file 74447_220.job.T2
Tue Apr 24 04:55:43 2018 -> making sieve job for q = 132 in 132 .. 133 as file 74447_220.job.T3
Tue Apr 24 04:55:43 2018 -> Batch checking input file129
Tue Apr 24 04:55:43 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs129.out spairs.out.T0
Tue Apr 24 04:55:43 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs130.out spairs.out.T1
Tue Apr 24 04:55:43 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs131.out spairs.out.T2
Tue Apr 24 04:55:43 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs132.out spairs.out.T3
Tue Apr 24 05:11:24 2018 Found 4172534 relations, 13.0% of the estimated minimum (32000000).
Tue Apr 24 05:11:24 2018 LatSieveTime: 941.055
Tue Apr 24 05:11:24 2018 -> making sieve job for q = 133 in 133 .. 134 as file 74447_220.job.T0
Tue Apr 24 05:11:24 2018 -> making sieve job for q = 134 in 134 .. 135 as file 74447_220.job.T1
Tue Apr 24 05:11:24 2018 -> making sieve job for q = 135 in 135 .. 136 as file 74447_220.job.T2
Tue Apr 24 05:11:24 2018 -> making sieve job for q = 136 in 136 .. 137 as file 74447_220.job.T3
Tue Apr 24 05:11:24 2018 -> Batch checking input file133
Tue Apr 24 05:11:24 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs133.out spairs.out.T0
Tue Apr 24 05:11:24 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs134.out spairs.out.T1
Tue Apr 24 05:11:24 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs135.out spairs.out.T2
Tue Apr 24 05:11:24 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs136.out spairs.out.T3
Tue Apr 24 05:28:09 2018 Found 4453055 relations, 13.9% of the estimated minimum (32000000).
Tue Apr 24 05:28:09 2018 LatSieveTime: 1005.36
Tue Apr 24 05:28:09 2018 -> making sieve job for q = 137 in 137 .. 138 as file 74447_220.job.T0
Tue Apr 24 05:28:09 2018 -> making sieve job for q = 138 in 138 .. 139 as file 74447_220.job.T1
Tue Apr 24 05:28:09 2018 -> making sieve job for q = 139 in 139 .. 140 as file 74447_220.job.T2
Tue Apr 24 05:28:09 2018 -> making sieve job for q = 140 in 140 .. 141 as file 74447_220.job.T3
Tue Apr 24 05:28:09 2018 -> Batch checking input file137
Tue Apr 24 05:28:09 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs137.out spairs.out.T0
Tue Apr 24 05:28:09 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs138.out spairs.out.T1
Tue Apr 24 05:28:09 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs139.out spairs.out.T2
Tue Apr 24 05:28:10 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs140.out spairs.out.T3
Tue Apr 24 05:45:51 2018 Found 4750019 relations, 14.8% of the estimated minimum (32000000).
Tue Apr 24 05:45:51 2018 LatSieveTime: 1061.96
Tue Apr 24 05:45:51 2018 -> making sieve job for q = 141 in 141 .. 142 as file 74447_220.job.T0
Tue Apr 24 05:45:51 2018 -> making sieve job for q = 142 in 142 .. 143 as file 74447_220.job.T1
Tue Apr 24 05:45:51 2018 -> making sieve job for q = 143 in 143 .. 144 as file 74447_220.job.T2
Tue Apr 24 05:45:51 2018 -> making sieve job for q = 144 in 144 .. 145 as file 74447_220.job.T3
Tue Apr 24 05:45:51 2018 -> Batch checking input file141
Tue Apr 24 05:45:51 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs141.out spairs.out.T0
Tue Apr 24 05:45:51 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs142.out spairs.out.T1
Tue Apr 24 05:45:51 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs143.out spairs.out.T2
Tue Apr 24 05:45:51 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs144.out spairs.out.T3
Tue Apr 24 06:04:28 2018 Found 5061302 relations, 15.8% of the estimated minimum (32000000).
Tue Apr 24 06:04:28 2018 LatSieveTime: 1116.97
Tue Apr 24 06:04:28 2018 -> making sieve job for q = 145 in 145 .. 146 as file 74447_220.job.T0
Tue Apr 24 06:04:28 2018 -> making sieve job for q = 146 in 146 .. 147 as file 74447_220.job.T1
Tue Apr 24 06:04:28 2018 -> making sieve job for q = 147 in 147 .. 148 as file 74447_220.job.T2
Tue Apr 24 06:04:28 2018 -> making sieve job for q = 148 in 148 .. 149 as file 74447_220.job.T3
Tue Apr 24 06:04:28 2018 -> Batch checking input file145
Tue Apr 24 06:04:28 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs145.out spairs.out.T0
Tue Apr 24 06:04:28 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs146.out spairs.out.T1
Tue Apr 24 06:04:28 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs147.out spairs.out.T2
Tue Apr 24 06:04:28 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs148.out spairs.out.T3
Tue Apr 24 06:23:56 2018 Found 5387790 relations, 16.8% of the estimated minimum (32000000).
Tue Apr 24 06:23:56 2018 LatSieveTime: 1168.3
Tue Apr 24 06:23:56 2018 -> making sieve job for q = 149 in 149 .. 150 as file 74447_220.job.T0
Tue Apr 24 06:23:56 2018 -> making sieve job for q = 150 in 150 .. 151 as file 74447_220.job.T1
Tue Apr 24 06:23:56 2018 -> making sieve job for q = 151 in 151 .. 152 as file 74447_220.job.T2
Tue Apr 24 06:23:56 2018 -> making sieve job for q = 152 in 152 .. 153 as file 74447_220.job.T3
Tue Apr 24 06:23:56 2018 -> Batch checking input file149
Tue Apr 24 06:23:56 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs149.out spairs.out.T0
Tue Apr 24 06:23:56 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs150.out spairs.out.T1
Tue Apr 24 06:23:56 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs151.out spairs.out.T2
Tue Apr 24 06:23:57 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs152.out spairs.out.T3
Tue Apr 24 06:44:35 2018 Found 5729844 relations, 17.9% of the estimated minimum (32000000).
Tue Apr 24 06:44:35 2018 LatSieveTime: 1238.64
Tue Apr 24 06:44:35 2018 -> making sieve job for q = 153 in 153 .. 154 as file 74447_220.job.T0
Tue Apr 24 06:44:35 2018 -> making sieve job for q = 154 in 154 .. 155 as file 74447_220.job.T1
Tue Apr 24 06:44:35 2018 -> making sieve job for q = 155 in 155 .. 156 as file 74447_220.job.T2
Tue Apr 24 06:44:35 2018 -> making sieve job for q = 156 in 156 .. 157 as file 74447_220.job.T3
Tue Apr 24 06:44:35 2018 -> Batch checking input file153
Tue Apr 24 06:44:35 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs153.out spairs.out.T0
Tue Apr 24 06:44:35 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs154.out spairs.out.T1
Tue Apr 24 06:44:35 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs155.out spairs.out.T2
Tue Apr 24 06:44:35 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs156.out spairs.out.T3
Tue Apr 24 07:06:18 2018 Found 6089159 relations, 19.0% of the estimated minimum (32000000).
Tue Apr 24 07:06:18 2018 LatSieveTime: 1302.61
Tue Apr 24 07:06:18 2018 -> making sieve job for q = 157 in 157 .. 158 as file 74447_220.job.T0
Tue Apr 24 07:06:18 2018 -> making sieve job for q = 158 in 158 .. 159 as file 74447_220.job.T1
Tue Apr 24 07:06:18 2018 -> making sieve job for q = 159 in 159 .. 160 as file 74447_220.job.T2
Tue Apr 24 07:06:18 2018 -> making sieve job for q = 160 in 160 .. 161 as file 74447_220.job.T3
Tue Apr 24 07:06:18 2018 -> Batch checking input file157
Tue Apr 24 07:06:18 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs157.out spairs.out.T0
Tue Apr 24 07:06:18 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs158.out spairs.out.T1
Tue Apr 24 07:06:18 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs159.out spairs.out.T2
Tue Apr 24 07:06:18 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs160.out spairs.out.T3
Tue Apr 24 07:29:41 2018 Found 6468297 relations, 20.2% of the estimated minimum (32000000).
Tue Apr 24 07:29:41 2018 LatSieveTime: 1403.56
Tue Apr 24 07:29:41 2018 -> making sieve job for q = 161 in 161 .. 162 as file 74447_220.job.T0
Tue Apr 24 07:29:41 2018 -> making sieve job for q = 162 in 162 .. 163 as file 74447_220.job.T1
Tue Apr 24 07:29:41 2018 -> making sieve job for q = 163 in 163 .. 164 as file 74447_220.job.T2
Tue Apr 24 07:29:41 2018 -> making sieve job for q = 164 in 164 .. 165 as file 74447_220.job.T3
Tue Apr 24 07:29:41 2018 -> Batch checking input file161
Tue Apr 24 07:29:41 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs161.out spairs.out.T0
Tue Apr 24 07:29:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs162.out spairs.out.T1
Tue Apr 24 07:29:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs163.out spairs.out.T2
Tue Apr 24 07:29:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs164.out spairs.out.T3
Tue Apr 24 07:55:54 2018 Found 6862861 relations, 21.4% of the estimated minimum (32000000).
Tue Apr 24 07:55:54 2018 LatSieveTime: 1572.79
Tue Apr 24 07:55:54 2018 -> making sieve job for q = 165 in 165 .. 166 as file 74447_220.job.T0
Tue Apr 24 07:55:54 2018 -> making sieve job for q = 166 in 166 .. 167 as file 74447_220.job.T1
Tue Apr 24 07:55:54 2018 -> making sieve job for q = 167 in 167 .. 168 as file 74447_220.job.T2
Tue Apr 24 07:55:54 2018 -> making sieve job for q = 168 in 168 .. 169 as file 74447_220.job.T3
Tue Apr 24 07:55:54 2018 -> Batch checking input file165
Tue Apr 24 07:55:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs165.out spairs.out.T0
Tue Apr 24 07:55:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs166.out spairs.out.T1
Tue Apr 24 07:55:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs167.out spairs.out.T2
Tue Apr 24 07:55:54 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs168.out spairs.out.T3
Tue Apr 24 08:21:34 2018 Found 7276599 relations, 22.7% of the estimated minimum (32000000).
Tue Apr 24 08:21:35 2018 LatSieveTime: 1540.49
Tue Apr 24 08:21:35 2018 -> making sieve job for q = 169 in 169 .. 170 as file 74447_220.job.T0
Tue Apr 24 08:21:35 2018 -> making sieve job for q = 170 in 170 .. 171 as file 74447_220.job.T1
Tue Apr 24 08:21:35 2018 -> making sieve job for q = 171 in 171 .. 172 as file 74447_220.job.T2
Tue Apr 24 08:21:35 2018 -> making sieve job for q = 172 in 172 .. 173 as file 74447_220.job.T3
Tue Apr 24 08:21:35 2018 -> Batch checking input file169
Tue Apr 24 08:21:35 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs169.out spairs.out.T0
Tue Apr 24 08:21:35 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs170.out spairs.out.T1
Tue Apr 24 08:21:35 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs171.out spairs.out.T2
Tue Apr 24 08:21:35 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs172.out spairs.out.T3
Tue Apr 24 08:48:56 2018 Found 7709539 relations, 24.1% of the estimated minimum (32000000).
Tue Apr 24 08:48:56 2018 LatSieveTime: 1641.4
Tue Apr 24 08:48:56 2018 -> making sieve job for q = 173 in 173 .. 174 as file 74447_220.job.T0
Tue Apr 24 08:48:56 2018 -> making sieve job for q = 174 in 174 .. 175 as file 74447_220.job.T1
Tue Apr 24 08:48:56 2018 -> making sieve job for q = 175 in 175 .. 176 as file 74447_220.job.T2
Tue Apr 24 08:48:56 2018 -> making sieve job for q = 176 in 176 .. 177 as file 74447_220.job.T3
Tue Apr 24 08:48:56 2018 -> Batch checking input file173
Tue Apr 24 08:48:56 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs173.out spairs.out.T0
Tue Apr 24 08:48:56 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs174.out spairs.out.T1
Tue Apr 24 08:48:56 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs175.out spairs.out.T2
Tue Apr 24 08:48:56 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs176.out spairs.out.T3
Tue Apr 24 09:17:52 2018 Found 8166332 relations, 25.5% of the estimated minimum (32000000).
Tue Apr 24 09:17:52 2018 LatSieveTime: 1735.98
Tue Apr 24 09:17:52 2018 -> making sieve job for q = 177 in 177 .. 178 as file 74447_220.job.T0
Tue Apr 24 09:17:52 2018 -> making sieve job for q = 178 in 178 .. 179 as file 74447_220.job.T1
Tue Apr 24 09:17:52 2018 -> making sieve job for q = 179 in 179 .. 180 as file 74447_220.job.T2
Tue Apr 24 09:17:52 2018 -> making sieve job for q = 180 in 180 .. 181 as file 74447_220.job.T3
Tue Apr 24 09:17:52 2018 -> Batch checking input file177
Tue Apr 24 09:17:52 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs177.out spairs.out.T0
Tue Apr 24 09:17:52 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs178.out spairs.out.T1
Tue Apr 24 09:17:52 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs179.out spairs.out.T2
Tue Apr 24 09:17:52 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs180.out spairs.out.T3
Tue Apr 24 09:48:08 2018 Found 8648993 relations, 27.0% of the estimated minimum (32000000).
Tue Apr 24 09:48:08 2018 LatSieveTime: 1816.54
Tue Apr 24 09:48:08 2018 -> making sieve job for q = 181 in 181 .. 182 as file 74447_220.job.T0
Tue Apr 24 09:48:08 2018 -> making sieve job for q = 182 in 182 .. 183 as file 74447_220.job.T1
Tue Apr 24 09:48:08 2018 -> making sieve job for q = 183 in 183 .. 184 as file 74447_220.job.T2
Tue Apr 24 09:48:08 2018 -> making sieve job for q = 184 in 184 .. 185 as file 74447_220.job.T3
Tue Apr 24 09:48:08 2018 -> Batch checking input file181
Tue Apr 24 09:48:08 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs181.out spairs.out.T0
Tue Apr 24 09:48:09 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs182.out spairs.out.T1
Tue Apr 24 09:48:09 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs183.out spairs.out.T2
Tue Apr 24 09:48:09 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs184.out spairs.out.T3
Tue Apr 24 10:20:49 2018 Found 9153707 relations, 28.6% of the estimated minimum (32000000).
Tue Apr 24 10:20:49 2018 LatSieveTime: 1960.52
Tue Apr 24 10:20:49 2018 -> making sieve job for q = 185 in 185 .. 186 as file 74447_220.job.T0
Tue Apr 24 10:20:49 2018 -> making sieve job for q = 186 in 186 .. 187 as file 74447_220.job.T1
Tue Apr 24 10:20:49 2018 -> making sieve job for q = 187 in 187 .. 188 as file 74447_220.job.T2
Tue Apr 24 10:20:49 2018 -> making sieve job for q = 188 in 188 .. 189 as file 74447_220.job.T3
Tue Apr 24 10:20:49 2018 -> Batch checking input file185
Tue Apr 24 10:20:49 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs185.out spairs.out.T0
Tue Apr 24 10:20:49 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs186.out spairs.out.T1
Tue Apr 24 10:20:49 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs187.out spairs.out.T2
Tue Apr 24 10:20:49 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs188.out spairs.out.T3
Tue Apr 24 10:54:17 2018 Found 9657235 relations, 30.2% of the estimated minimum (32000000).
Tue Apr 24 10:54:17 2018 LatSieveTime: 2007.59
Tue Apr 24 10:54:17 2018 -> making sieve job for q = 189 in 189 .. 190 as file 74447_220.job.T0
Tue Apr 24 10:54:17 2018 -> making sieve job for q = 190 in 190 .. 191 as file 74447_220.job.T1
Tue Apr 24 10:54:17 2018 -> making sieve job for q = 191 in 191 .. 192 as file 74447_220.job.T2
Tue Apr 24 10:54:17 2018 -> making sieve job for q = 192 in 192 .. 193 as file 74447_220.job.T3
Tue Apr 24 10:54:17 2018 -> Batch checking input file189
Tue Apr 24 10:54:17 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs189.out spairs.out.T0
Tue Apr 24 10:54:17 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs190.out spairs.out.T1
Tue Apr 24 10:54:17 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs191.out spairs.out.T2
Tue Apr 24 10:54:17 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs192.out spairs.out.T3
Tue Apr 24 11:30:21 2018 Found 10211416 relations, 31.9% of the estimated minimum (32000000).
Tue Apr 24 11:30:21 2018 LatSieveTime: 2164.38
Tue Apr 24 11:30:21 2018 -> making sieve job for q = 193 in 193 .. 194 as file 74447_220.job.T0
Tue Apr 24 11:30:21 2018 -> making sieve job for q = 194 in 194 .. 195 as file 74447_220.job.T1
Tue Apr 24 11:30:21 2018 -> making sieve job for q = 195 in 195 .. 196 as file 74447_220.job.T2
Tue Apr 24 11:30:21 2018 -> making sieve job for q = 196 in 196 .. 197 as file 74447_220.job.T3
Tue Apr 24 11:30:21 2018 -> Batch checking input file193
Tue Apr 24 11:30:21 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs193.out spairs.out.T0
Tue Apr 24 11:30:21 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs194.out spairs.out.T1
Tue Apr 24 11:30:21 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs195.out spairs.out.T2
Tue Apr 24 11:30:21 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs196.out spairs.out.T3
Tue Apr 24 12:08:30 2018 Found 10791962 relations, 33.7% of the estimated minimum (32000000).
Tue Apr 24 12:08:30 2018 LatSieveTime: 2289.05
Tue Apr 24 12:08:30 2018 -> making sieve job for q = 197 in 197 .. 198 as file 74447_220.job.T0
Tue Apr 24 12:08:30 2018 -> making sieve job for q = 198 in 198 .. 199 as file 74447_220.job.T1
Tue Apr 24 12:08:30 2018 -> making sieve job for q = 199 in 199 .. 200 as file 74447_220.job.T2
Tue Apr 24 12:08:30 2018 -> making sieve job for q = 200 in 200 .. 201 as file 74447_220.job.T3
Tue Apr 24 12:08:30 2018 -> Batch checking input file197
Tue Apr 24 12:08:30 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs197.out spairs.out.T0
Tue Apr 24 12:08:30 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs198.out spairs.out.T1
Tue Apr 24 12:08:30 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs199.out spairs.out.T2
Tue Apr 24 12:08:30 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs200.out spairs.out.T3
Tue Apr 24 12:47:02 2018 Found 11350300 relations, 35.5% of the estimated minimum (32000000).
Tue Apr 24 12:47:02 2018 LatSieveTime: 2311.65
Tue Apr 24 12:47:02 2018 -> making sieve job for q = 201 in 201 .. 202 as file 74447_220.job.T0
Tue Apr 24 12:47:02 2018 -> making sieve job for q = 202 in 202 .. 203 as file 74447_220.job.T1
Tue Apr 24 12:47:02 2018 -> making sieve job for q = 203 in 203 .. 204 as file 74447_220.job.T2
Tue Apr 24 12:47:02 2018 -> making sieve job for q = 204 in 204 .. 205 as file 74447_220.job.T3
Tue Apr 24 12:47:02 2018 -> Batch checking input file201
Tue Apr 24 12:47:02 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs201.out spairs.out.T0
Tue Apr 24 12:47:02 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs202.out spairs.out.T1
Tue Apr 24 12:47:02 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs203.out spairs.out.T2
Tue Apr 24 12:47:02 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs204.out spairs.out.T3
Tue Apr 24 13:29:13 2018 Found 11991233 relations, 37.5% of the estimated minimum (32000000).
Tue Apr 24 13:29:13 2018 LatSieveTime: 2531.54
Tue Apr 24 13:29:13 2018 -> making sieve job for q = 205 in 205 .. 206 as file 74447_220.job.T0
Tue Apr 24 13:29:13 2018 -> making sieve job for q = 206 in 206 .. 207 as file 74447_220.job.T1
Tue Apr 24 13:29:13 2018 -> making sieve job for q = 207 in 207 .. 208 as file 74447_220.job.T2
Tue Apr 24 13:29:13 2018 -> making sieve job for q = 208 in 208 .. 209 as file 74447_220.job.T3
Tue Apr 24 13:29:13 2018 -> Batch checking input file205
Tue Apr 24 13:29:13 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs205.out spairs.out.T0
Tue Apr 24 13:29:13 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs206.out spairs.out.T1
Tue Apr 24 13:29:13 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs207.out spairs.out.T2
Tue Apr 24 13:29:13 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs208.out spairs.out.T3
Tue Apr 24 14:13:41 2018 Found 12662782 relations, 39.6% of the estimated minimum (32000000).
Tue Apr 24 14:13:41 2018 LatSieveTime: 2668.02
Tue Apr 24 14:13:41 2018 -> making sieve job for q = 209 in 209 .. 210 as file 74447_220.job.T0
Tue Apr 24 14:13:41 2018 -> making sieve job for q = 210 in 210 .. 211 as file 74447_220.job.T1
Tue Apr 24 14:13:41 2018 -> making sieve job for q = 211 in 211 .. 212 as file 74447_220.job.T2
Tue Apr 24 14:13:41 2018 -> making sieve job for q = 212 in 212 .. 213 as file 74447_220.job.T3
Tue Apr 24 14:13:41 2018 -> Batch checking input file209
Tue Apr 24 14:13:41 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs209.out spairs.out.T0
Tue Apr 24 14:13:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs210.out spairs.out.T1
Tue Apr 24 14:13:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs211.out spairs.out.T2
Tue Apr 24 14:13:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs212.out spairs.out.T3
Tue Apr 24 15:00:37 2018 Found 13364176 relations, 41.8% of the estimated minimum (32000000).
Tue Apr 24 15:00:37 2018 LatSieveTime: 2815.46
Tue Apr 24 15:00:37 2018 -> making sieve job for q = 213 in 213 .. 214 as file 74447_220.job.T0
Tue Apr 24 15:00:37 2018 -> making sieve job for q = 214 in 214 .. 215 as file 74447_220.job.T1
Tue Apr 24 15:00:37 2018 -> making sieve job for q = 215 in 215 .. 216 as file 74447_220.job.T2
Tue Apr 24 15:00:37 2018 -> making sieve job for q = 216 in 216 .. 217 as file 74447_220.job.T3
Tue Apr 24 15:00:37 2018 -> Batch checking input file213
Tue Apr 24 15:00:37 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs213.out spairs.out.T0
Tue Apr 24 15:00:37 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs214.out spairs.out.T1
Tue Apr 24 15:00:37 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs215.out spairs.out.T2
Tue Apr 24 15:00:37 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs216.out spairs.out.T3
Tue Apr 24 15:50:07 2018 Found 14099811 relations, 44.1% of the estimated minimum (32000000).
Tue Apr 24 15:50:07 2018 LatSieveTime: 2970.26
Tue Apr 24 15:50:07 2018 -> making sieve job for q = 217 in 217 .. 218 as file 74447_220.job.T0
Tue Apr 24 15:50:07 2018 -> making sieve job for q = 218 in 218 .. 219 as file 74447_220.job.T1
Tue Apr 24 15:50:07 2018 -> making sieve job for q = 219 in 219 .. 220 as file 74447_220.job.T2
Tue Apr 24 15:50:07 2018 -> making sieve job for q = 220 in 220 .. 221 as file 74447_220.job.T3
Tue Apr 24 15:50:07 2018 -> Batch checking input file217
Tue Apr 24 15:50:07 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs217.out spairs.out.T0
Tue Apr 24 15:50:07 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs218.out spairs.out.T1
Tue Apr 24 15:50:07 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs219.out spairs.out.T2
Tue Apr 24 15:50:07 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs220.out spairs.out.T3
Tue Apr 24 16:41:28 2018 Found 14836123 relations, 46.4% of the estimated minimum (32000000).
Tue Apr 24 16:41:28 2018 LatSieveTime: 3081.21
Tue Apr 24 16:41:28 2018 -> making sieve job for q = 221 in 221 .. 222 as file 74447_220.job.T0
Tue Apr 24 16:41:28 2018 -> making sieve job for q = 222 in 222 .. 223 as file 74447_220.job.T1
Tue Apr 24 16:41:28 2018 -> making sieve job for q = 223 in 223 .. 224 as file 74447_220.job.T2
Tue Apr 24 16:41:28 2018 -> making sieve job for q = 224 in 224 .. 225 as file 74447_220.job.T3
Tue Apr 24 16:41:28 2018 -> Batch checking input file221
Tue Apr 24 16:41:28 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs221.out spairs.out.T0
Tue Apr 24 16:41:28 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs222.out spairs.out.T1
Tue Apr 24 16:41:28 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs223.out spairs.out.T2
Tue Apr 24 16:41:29 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs224.out spairs.out.T3
Tue Apr 24 17:36:49 2018 Found 15645103 relations, 48.9% of the estimated minimum (32000000).
Tue Apr 24 17:36:49 2018 LatSieveTime: 3320.73
Tue Apr 24 17:36:49 2018 -> making sieve job for q = 225 in 225 .. 226 as file 74447_220.job.T0
Tue Apr 24 17:36:49 2018 -> making sieve job for q = 226 in 226 .. 227 as file 74447_220.job.T1
Tue Apr 24 17:36:49 2018 -> making sieve job for q = 227 in 227 .. 228 as file 74447_220.job.T2
Tue Apr 24 17:36:49 2018 -> making sieve job for q = 228 in 228 .. 229 as file 74447_220.job.T3
Tue Apr 24 17:36:49 2018 -> Batch checking input file225
Tue Apr 24 17:36:49 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs225.out spairs.out.T0
Tue Apr 24 17:36:49 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs226.out spairs.out.T1
Tue Apr 24 17:36:49 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs227.out spairs.out.T2
Tue Apr 24 17:36:49 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs228.out spairs.out.T3
Tue Apr 24 18:38:52 2018 Found 16495289 relations, 51.5% of the estimated minimum (32000000).
Tue Apr 24 18:38:52 2018 LatSieveTime: 3722.78
Tue Apr 24 18:38:52 2018 -> making sieve job for q = 229 in 229 .. 230 as file 74447_220.job.T0
Tue Apr 24 18:38:52 2018 -> making sieve job for q = 230 in 230 .. 231 as file 74447_220.job.T1
Tue Apr 24 18:38:52 2018 -> making sieve job for q = 231 in 231 .. 232 as file 74447_220.job.T2
Tue Apr 24 18:38:52 2018 -> making sieve job for q = 232 in 232 .. 233 as file 74447_220.job.T3
Tue Apr 24 18:38:52 2018 -> Batch checking input file229
Tue Apr 24 18:38:52 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs229.out spairs.out.T0
Tue Apr 24 18:38:52 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs230.out spairs.out.T1
Tue Apr 24 18:38:52 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs231.out spairs.out.T2
Tue Apr 24 18:38:52 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs232.out spairs.out.T3
Tue Apr 24 19:44:20 2018 Found 17383274 relations, 54.3% of the estimated minimum (32000000).
Tue Apr 24 19:44:20 2018 LatSieveTime: 3927.96
Tue Apr 24 19:44:20 2018 -> making sieve job for q = 233 in 233 .. 234 as file 74447_220.job.T0
Tue Apr 24 19:44:20 2018 -> making sieve job for q = 234 in 234 .. 235 as file 74447_220.job.T1
Tue Apr 24 19:44:20 2018 -> making sieve job for q = 235 in 235 .. 236 as file 74447_220.job.T2
Tue Apr 24 19:44:20 2018 -> making sieve job for q = 236 in 236 .. 237 as file 74447_220.job.T3
Tue Apr 24 19:44:20 2018 -> Batch checking input file233
Tue Apr 24 19:44:20 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs233.out spairs.out.T0
Tue Apr 24 19:44:20 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs234.out spairs.out.T1
Tue Apr 24 19:44:20 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs235.out spairs.out.T2
Tue Apr 24 19:44:20 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs236.out spairs.out.T3
Tue Apr 24 20:56:41 2018 Found 18313001 relations, 57.2% of the estimated minimum (32000000).
Tue Apr 24 20:56:41 2018 LatSieveTime: 4341.52
Tue Apr 24 20:56:41 2018 -> making sieve job for q = 237 in 237 .. 238 as file 74447_220.job.T0
Tue Apr 24 20:56:41 2018 -> making sieve job for q = 238 in 238 .. 239 as file 74447_220.job.T1
Tue Apr 24 20:56:41 2018 -> making sieve job for q = 239 in 239 .. 240 as file 74447_220.job.T2
Tue Apr 24 20:56:41 2018 -> making sieve job for q = 240 in 240 .. 241 as file 74447_220.job.T3
Tue Apr 24 20:56:41 2018 -> Batch checking input file237
Tue Apr 24 20:56:41 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs237.out spairs.out.T0
Tue Apr 24 20:56:41 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs238.out spairs.out.T1
Tue Apr 24 20:56:41 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs239.out spairs.out.T2
Tue Apr 24 20:56:41 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs240.out spairs.out.T3
Tue Apr 24 22:12:59 2018 Found 19288330 relations, 60.3% of the estimated minimum (32000000).
Tue Apr 24 22:12:59 2018 LatSieveTime: 4577.43
Tue Apr 24 22:12:59 2018 -> making sieve job for q = 241 in 241 .. 242 as file 74447_220.job.T0
Tue Apr 24 22:12:59 2018 -> making sieve job for q = 242 in 242 .. 243 as file 74447_220.job.T1
Tue Apr 24 22:12:59 2018 -> making sieve job for q = 243 in 243 .. 244 as file 74447_220.job.T2
Tue Apr 24 22:12:59 2018 -> making sieve job for q = 244 in 244 .. 245 as file 74447_220.job.T3
Tue Apr 24 22:12:59 2018 -> Batch checking input file241
Tue Apr 24 22:12:59 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs241.out spairs.out.T0
Tue Apr 24 22:12:59 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs242.out spairs.out.T1
Tue Apr 24 22:12:59 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs243.out spairs.out.T2
Tue Apr 24 22:12:59 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs244.out spairs.out.T3
Tue Apr 24 23:36:23 2018 Found 20310592 relations, 63.5% of the estimated minimum (32000000).
Tue Apr 24 23:36:23 2018 LatSieveTime: 5004.54
Tue Apr 24 23:36:23 2018 -> making sieve job for q = 245 in 245 .. 246 as file 74447_220.job.T0
Tue Apr 24 23:36:23 2018 -> making sieve job for q = 246 in 246 .. 247 as file 74447_220.job.T1
Tue Apr 24 23:36:23 2018 -> making sieve job for q = 247 in 247 .. 248 as file 74447_220.job.T2
Tue Apr 24 23:36:23 2018 -> making sieve job for q = 248 in 248 .. 249 as file 74447_220.job.T3
Tue Apr 24 23:36:23 2018 -> Batch checking input file245
Tue Apr 24 23:36:23 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs245.out spairs.out.T0
Tue Apr 24 23:36:23 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs246.out spairs.out.T1
Tue Apr 24 23:36:23 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs247.out spairs.out.T2
Tue Apr 24 23:36:23 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs248.out spairs.out.T3
Wed Apr 25 00:53:33 2018 Found 21378907 relations, 66.8% of the estimated minimum (32000000).
Wed Apr 25 00:53:33 2018 LatSieveTime: 4629.85
Wed Apr 25 00:53:33 2018 -> making sieve job for q = 249 in 249 .. 250 as file 74447_220.job.T0
Wed Apr 25 00:53:33 2018 -> making sieve job for q = 250 in 250 .. 251 as file 74447_220.job.T1
Wed Apr 25 00:53:33 2018 -> making sieve job for q = 251 in 251 .. 252 as file 74447_220.job.T2
Wed Apr 25 00:53:33 2018 -> making sieve job for q = 252 in 252 .. 253 as file 74447_220.job.T3
Wed Apr 25 00:53:33 2018 -> Batch checking input file249
Wed Apr 25 00:53:33 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs249.out spairs.out.T0
Wed Apr 25 00:53:33 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs250.out spairs.out.T1
Wed Apr 25 00:53:33 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs251.out spairs.out.T2
Wed Apr 25 00:53:33 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs252.out spairs.out.T3
Wed Apr 25 02:14:50 2018 Found 22498003 relations, 70.3% of the estimated minimum (32000000).
Wed Apr 25 02:14:50 2018 LatSieveTime: 4877.14
Wed Apr 25 02:14:50 2018 -> making sieve job for q = 253 in 253 .. 254 as file 74447_220.job.T0
Wed Apr 25 02:14:50 2018 -> making sieve job for q = 254 in 254 .. 255 as file 74447_220.job.T1
Wed Apr 25 02:14:50 2018 -> making sieve job for q = 255 in 255 .. 256 as file 74447_220.job.T2
Wed Apr 25 02:14:50 2018 -> making sieve job for q = 256 in 256 .. 257 as file 74447_220.job.T3
Wed Apr 25 02:14:50 2018 -> Batch checking input file253
Wed Apr 25 02:14:50 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs253.out spairs.out.T0
Wed Apr 25 02:14:50 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs254.out spairs.out.T1
Wed Apr 25 02:14:50 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs255.out spairs.out.T2
Wed Apr 25 02:14:50 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs256.out spairs.out.T3
Wed Apr 25 03:38:01 2018 Found 23667305 relations, 74.0% of the estimated minimum (32000000).
Wed Apr 25 03:38:01 2018 LatSieveTime: 4990.83
Wed Apr 25 03:38:01 2018 -> making sieve job for q = 257 in 257 .. 258 as file 74447_220.job.T0
Wed Apr 25 03:38:01 2018 -> making sieve job for q = 258 in 258 .. 259 as file 74447_220.job.T1
Wed Apr 25 03:38:01 2018 -> making sieve job for q = 259 in 259 .. 260 as file 74447_220.job.T2
Wed Apr 25 03:38:01 2018 -> making sieve job for q = 260 in 260 .. 261 as file 74447_220.job.T3
Wed Apr 25 03:38:01 2018 -> Batch checking input file257
Wed Apr 25 03:38:01 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs257.out spairs.out.T0
Wed Apr 25 03:38:01 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs258.out spairs.out.T1
Wed Apr 25 03:38:01 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs259.out spairs.out.T2
Wed Apr 25 03:38:01 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs260.out spairs.out.T3
Wed Apr 25 05:08:41 2018 Found 24894946 relations, 77.8% of the estimated minimum (32000000).
Wed Apr 25 05:08:41 2018 LatSieveTime: 5439.94
Wed Apr 25 05:08:41 2018 -> making sieve job for q = 261 in 261 .. 262 as file 74447_220.job.T0
Wed Apr 25 05:08:41 2018 -> making sieve job for q = 262 in 262 .. 263 as file 74447_220.job.T1
Wed Apr 25 05:08:41 2018 -> making sieve job for q = 263 in 263 .. 264 as file 74447_220.job.T2
Wed Apr 25 05:08:41 2018 -> making sieve job for q = 264 in 264 .. 265 as file 74447_220.job.T3
Wed Apr 25 05:08:41 2018 -> Batch checking input file261
Wed Apr 25 05:08:41 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs261.out spairs.out.T0
Wed Apr 25 05:08:41 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs262.out spairs.out.T1
Wed Apr 25 05:08:41 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs263.out spairs.out.T2
Wed Apr 25 05:08:41 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs264.out spairs.out.T3
Wed Apr 25 06:41:34 2018 Found 26176394 relations, 81.8% of the estimated minimum (32000000).
Wed Apr 25 06:41:34 2018 LatSieveTime: 5572.9
Wed Apr 25 06:41:34 2018 -> making sieve job for q = 265 in 265 .. 266 as file 74447_220.job.T0
Wed Apr 25 06:41:34 2018 -> making sieve job for q = 266 in 266 .. 267 as file 74447_220.job.T1
Wed Apr 25 06:41:34 2018 -> making sieve job for q = 267 in 267 .. 268 as file 74447_220.job.T2
Wed Apr 25 06:41:34 2018 -> making sieve job for q = 268 in 268 .. 269 as file 74447_220.job.T3
Wed Apr 25 06:41:34 2018 -> Batch checking input file265
Wed Apr 25 06:41:34 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs265.out spairs.out.T0
Wed Apr 25 06:41:34 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs266.out spairs.out.T1
Wed Apr 25 06:41:34 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs267.out spairs.out.T2
Wed Apr 25 06:41:34 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs268.out spairs.out.T3
Wed Apr 25 08:34:12 2018 Found 27518001 relations, 86.0% of the estimated minimum (32000000).
Wed Apr 25 08:34:12 2018 LatSieveTime: 6758.36
Wed Apr 25 08:34:12 2018 -> making sieve job for q = 269 in 269 .. 270 as file 74447_220.job.T0
Wed Apr 25 08:34:12 2018 -> making sieve job for q = 270 in 270 .. 271 as file 74447_220.job.T1
Wed Apr 25 08:34:12 2018 -> making sieve job for q = 271 in 271 .. 272 as file 74447_220.job.T2
Wed Apr 25 08:34:12 2018 -> making sieve job for q = 272 in 272 .. 273 as file 74447_220.job.T3
Wed Apr 25 08:34:12 2018 -> Batch checking input file269
Wed Apr 25 08:34:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs269.out spairs.out.T0
Wed Apr 25 08:34:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs270.out spairs.out.T1
Wed Apr 25 08:34:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs271.out spairs.out.T2
Wed Apr 25 08:34:12 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs272.out spairs.out.T3
Wed Apr 25 10:33:38 2018 Found 28884934 relations, 90.3% of the estimated minimum (32000000).
Wed Apr 25 10:33:38 2018 LatSieveTime: 7165.78
Wed Apr 25 10:33:38 2018 -> making sieve job for q = 273 in 273 .. 274 as file 74447_220.job.T0
Wed Apr 25 10:33:38 2018 -> making sieve job for q = 274 in 274 .. 275 as file 74447_220.job.T1
Wed Apr 25 10:33:38 2018 -> making sieve job for q = 275 in 275 .. 276 as file 74447_220.job.T2
Wed Apr 25 10:33:38 2018 -> making sieve job for q = 276 in 276 .. 277 as file 74447_220.job.T3
Wed Apr 25 10:33:38 2018 -> Batch checking input file273
Wed Apr 25 10:33:38 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs273.out spairs.out.T0
Wed Apr 25 10:33:38 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs274.out spairs.out.T1
Wed Apr 25 10:33:38 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs275.out spairs.out.T2
Wed Apr 25 10:33:38 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs276.out spairs.out.T3
Wed Apr 25 11:39:42 2018 Found 29744156 relations, 93.0% of the estimated minimum (32000000).
Wed Apr 25 11:39:42 2018 LatSieveTime: 3963.93
Wed Apr 25 11:39:42 2018 -> making sieve job for q = 277 in 277 .. 278 as file 74447_220.job.T0
Wed Apr 25 11:39:42 2018 -> making sieve job for q = 278 in 278 .. 279 as file 74447_220.job.T1
Wed Apr 25 11:39:42 2018 -> making sieve job for q = 279 in 279 .. 280 as file 74447_220.job.T2
Wed Apr 25 11:39:42 2018 -> making sieve job for q = 280 in 280 .. 281 as file 74447_220.job.T3
Wed Apr 25 11:39:42 2018 -> Batch checking input file277
Wed Apr 25 11:39:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs277.out spairs.out.T0
Wed Apr 25 11:39:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs278.out spairs.out.T1
Wed Apr 25 11:39:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs279.out spairs.out.T2
Wed Apr 25 11:39:42 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs280.out spairs.out.T3
Wed Apr 25 12:47:46 2018 Found 30621524 relations, 95.7% of the estimated minimum (32000000).
Wed Apr 25 12:47:46 2018 LatSieveTime: 4083.68
Wed Apr 25 12:47:46 2018 -> making sieve job for q = 281 in 281 .. 282 as file 74447_220.job.T0
Wed Apr 25 12:47:46 2018 -> making sieve job for q = 282 in 282 .. 283 as file 74447_220.job.T1
Wed Apr 25 12:47:46 2018 -> making sieve job for q = 283 in 283 .. 284 as file 74447_220.job.T2
Wed Apr 25 12:47:46 2018 -> making sieve job for q = 284 in 284 .. 285 as file 74447_220.job.T3
Wed Apr 25 12:47:46 2018 -> Batch checking input file281
Wed Apr 25 12:47:46 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs281.out spairs.out.T0
Wed Apr 25 12:47:46 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs282.out spairs.out.T1
Wed Apr 25 12:47:46 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs283.out spairs.out.T2
Wed Apr 25 12:47:46 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs284.out spairs.out.T3
Wed Apr 25 13:57:09 2018 Found 31519803 relations, 98.5% of the estimated minimum (32000000).
Wed Apr 25 13:57:09 2018 LatSieveTime: 4163.29
Wed Apr 25 13:57:09 2018 -> making sieve job for q = 285 in 285 .. 286 as file 74447_220.job.T0
Wed Apr 25 13:57:09 2018 -> making sieve job for q = 286 in 286 .. 287 as file 74447_220.job.T1
Wed Apr 25 13:57:09 2018 -> making sieve job for q = 287 in 287 .. 288 as file 74447_220.job.T2
Wed Apr 25 13:57:09 2018 -> making sieve job for q = 288 in 288 .. 289 as file 74447_220.job.T3
Wed Apr 25 13:57:09 2018 -> Batch checking input file285
Wed Apr 25 13:57:09 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs285.out spairs.out.T0
Wed Apr 25 13:57:09 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs286.out spairs.out.T1
Wed Apr 25 13:57:09 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs287.out spairs.out.T2
Wed Apr 25 13:57:09 2018 -> NFS_factory 74447_220.poly SNFS_220_relations/spairs288.out spairs.out.T3
Wed Apr 25 15:07:51 2018 Found 32438324 relations, 101.4% of the estimated minimum (32000000).
Wed Apr 25 15:07:51 2018  
Wed Apr 25 15:07:51 2018  
Wed Apr 25 15:07:51 2018  Msieve v. 1.52 (SVN unknown)
Wed Apr 25 15:07:51 2018  random seeds: 8edb3010 0fc0d0d1
Wed Apr 25 15:07:51 2018  factoring 39201617233921837007762856238177006530257675242423745369746631891045188281562337706126412543570640299921440809863149882061852633235429383096089725212074821294346417514423 (170 digits)
Wed Apr 25 15:07:51 2018  no P-1/P+1/ECM available, skipping
Wed Apr 25 15:07:51 2018  commencing number field sieve (170-digit input)
Wed Apr 25 15:07:51 2018  R0: -10000000000000000000000000000000000000000000000000000000
Wed Apr 25 15:07:51 2018  R1: 1
Wed Apr 25 15:07:51 2018  A0: 23
Wed Apr 25 15:07:51 2018  A1: 0
Wed Apr 25 15:07:51 2018  A2: 0
Wed Apr 25 15:07:51 2018  A3: 0
Wed Apr 25 15:07:51 2018  A4: 67
Wed Apr 25 15:07:51 2018  skew 1.00, size 1.096e-022, alpha -0.539, combined = 1.771e-013 rroots = 0
Wed Apr 25 15:07:51 2018  
Wed Apr 25 15:07:51 2018  commencing relation filtering
Wed Apr 25 15:07:51 2018  estimated available RAM is 16321.6 MB
Wed Apr 25 15:07:51 2018  commencing duplicate removal, pass 1
Wed Apr 25 15:12:00 2018  error -15 reading relation 29038116
Wed Apr 25 15:12:29 2018  found 1813018 hash collisions in 32438322 relations
Wed Apr 25 15:12:36 2018  added 950851 free relations
Wed Apr 25 15:12:36 2018  commencing duplicate removal, pass 2
Wed Apr 25 15:12:45 2018  found 0 duplicates and 33389173 unique relations
Wed Apr 25 15:12:45 2018  memory use: 98.6 MB
Wed Apr 25 15:12:45 2018  reading ideals above 720000
Wed Apr 25 15:12:46 2018  commencing singleton removal, initial pass
Wed Apr 25 15:18:33 2018  memory use: 689.0 MB
Wed Apr 25 15:18:33 2018  reading all ideals from disk
Wed Apr 25 15:18:34 2018  memory use: 1296.5 MB
Wed Apr 25 15:18:37 2018  keeping 25010215 ideals with weight <= 200, target excess is 194345
Wed Apr 25 15:18:40 2018  commencing in-memory singleton removal
Wed Apr 25 15:18:43 2018  begin with 33389173 relations and 25010215 unique ideals
Wed Apr 25 15:19:03 2018  reduce to 31994555 relations and 23588125 ideals in 7 passes
Wed Apr 25 15:19:03 2018  max relations containing the same ideal: 200
Wed Apr 25 15:19:13 2018  removing 2285473 relations and 1285473 ideals in 1000000 cliques
Wed Apr 25 15:19:13 2018  commencing in-memory singleton removal
Wed Apr 25 15:19:16 2018  begin with 29709082 relations and 23588125 unique ideals
Wed Apr 25 15:19:29 2018  reduce to 29616347 relations and 22206866 ideals in 5 passes
Wed Apr 25 15:19:29 2018  max relations containing the same ideal: 193
Wed Apr 25 15:19:38 2018  removing 2104165 relations and 1104165 ideals in 1000000 cliques
Wed Apr 25 15:19:38 2018  commencing in-memory singleton removal
Wed Apr 25 15:19:41 2018  begin with 27512182 relations and 22206866 unique ideals
Wed Apr 25 15:19:50 2018  reduce to 27465326 relations and 21054790 ideals in 4 passes
Wed Apr 25 15:19:50 2018  max relations containing the same ideal: 188
Wed Apr 25 15:19:58 2018  removing 2055699 relations and 1055699 ideals in 1000000 cliques
Wed Apr 25 15:19:58 2018  commencing in-memory singleton removal
Wed Apr 25 15:20:01 2018  begin with 25409627 relations and 21054790 unique ideals
Wed Apr 25 15:20:09 2018  reduce to 25377871 relations and 19966712 ideals in 4 passes
Wed Apr 25 15:20:09 2018  max relations containing the same ideal: 175
Wed Apr 25 15:20:16 2018  removing 1785128 relations and 906782 ideals in 878346 cliques
Wed Apr 25 15:20:16 2018  commencing in-memory singleton removal
Wed Apr 25 15:20:19 2018  begin with 23592743 relations and 19966712 unique ideals
Wed Apr 25 15:20:27 2018  reduce to 23572826 relations and 19039706 ideals in 4 passes
Wed Apr 25 15:20:27 2018  max relations containing the same ideal: 169
Wed Apr 25 15:20:33 2018  removing 883594 relations and 449027 ideals in 434567 cliques
Wed Apr 25 15:20:33 2018  commencing in-memory singleton removal
Wed Apr 25 15:20:35 2018  begin with 22689232 relations and 19039706 unique ideals
Wed Apr 25 15:20:43 2018  reduce to 22677430 relations and 18578757 ideals in 4 passes
Wed Apr 25 15:20:43 2018  max relations containing the same ideal: 166
Wed Apr 25 15:20:48 2018  removing 694311 relations and 351841 ideals in 342470 cliques
Wed Apr 25 15:20:48 2018  commencing in-memory singleton removal
Wed Apr 25 15:20:50 2018  begin with 21983119 relations and 18578757 unique ideals
Wed Apr 25 15:20:56 2018  reduce to 21975095 relations and 18218823 ideals in 3 passes
Wed Apr 25 15:20:56 2018  max relations containing the same ideal: 163
Wed Apr 25 15:21:01 2018  removing 575690 relations and 291167 ideals in 284523 cliques
Wed Apr 25 15:21:01 2018  commencing in-memory singleton removal
Wed Apr 25 15:21:03 2018  begin with 21399405 relations and 18218823 unique ideals
Wed Apr 25 15:21:08 2018  reduce to 21393545 relations and 17921758 ideals in 3 passes
Wed Apr 25 15:21:08 2018  max relations containing the same ideal: 162
Wed Apr 25 15:21:14 2018  removing 497262 relations and 251141 ideals in 246121 cliques
Wed Apr 25 15:21:14 2018  commencing in-memory singleton removal
Wed Apr 25 15:21:16 2018  begin with 20896283 relations and 17921758 unique ideals
Wed Apr 25 15:21:21 2018  reduce to 20891781 relations and 17666078 ideals in 3 passes
Wed Apr 25 15:21:21 2018  max relations containing the same ideal: 160
Wed Apr 25 15:21:26 2018  removing 445176 relations and 224648 ideals in 220528 cliques
Wed Apr 25 15:21:26 2018  commencing in-memory singleton removal
Wed Apr 25 15:21:28 2018  begin with 20446605 relations and 17666078 unique ideals
Wed Apr 25 15:21:34 2018  reduce to 20442800 relations and 17437593 ideals in 4 passes
Wed Apr 25 15:21:34 2018  max relations containing the same ideal: 157
Wed Apr 25 15:21:39 2018  removing 411607 relations and 207564 ideals in 204043 cliques
Wed Apr 25 15:21:39 2018  commencing in-memory singleton removal
Wed Apr 25 15:21:41 2018  begin with 20031193 relations and 17437593 unique ideals
Wed Apr 25 15:21:46 2018  reduce to 20027721 relations and 17226535 ideals in 3 passes
Wed Apr 25 15:21:46 2018  max relations containing the same ideal: 156
Wed Apr 25 15:21:51 2018  removing 388897 relations and 196120 ideals in 192777 cliques
Wed Apr 25 15:21:51 2018  commencing in-memory singleton removal
Wed Apr 25 15:21:53 2018  begin with 19638824 relations and 17226535 unique ideals
Wed Apr 25 15:21:59 2018  reduce to 19635600 relations and 17027175 ideals in 4 passes
Wed Apr 25 15:21:59 2018  max relations containing the same ideal: 152
Wed Apr 25 15:22:04 2018  removing 377289 relations and 190235 ideals in 187054 cliques
Wed Apr 25 15:22:04 2018  commencing in-memory singleton removal
Wed Apr 25 15:22:05 2018  begin with 19258311 relations and 17027175 unique ideals
Wed Apr 25 15:22:10 2018  reduce to 19255183 relations and 16833802 ideals in 3 passes
Wed Apr 25 15:22:10 2018  max relations containing the same ideal: 149
Wed Apr 25 15:22:15 2018  removing 374751 relations and 188951 ideals in 185800 cliques
Wed Apr 25 15:22:15 2018  commencing in-memory singleton removal
Wed Apr 25 15:22:17 2018  begin with 18880432 relations and 16833802 unique ideals
Wed Apr 25 15:22:22 2018  reduce to 18877200 relations and 16641602 ideals in 3 passes
Wed Apr 25 15:22:22 2018  max relations containing the same ideal: 145
Wed Apr 25 15:22:26 2018  removing 380261 relations and 191785 ideals in 188476 cliques
Wed Apr 25 15:22:26 2018  commencing in-memory singleton removal
Wed Apr 25 15:22:28 2018  begin with 18496939 relations and 16641602 unique ideals
Wed Apr 25 15:22:32 2018  reduce to 18493512 relations and 16446372 ideals in 3 passes
Wed Apr 25 15:22:32 2018  max relations containing the same ideal: 143
Wed Apr 25 15:22:37 2018  removing 394862 relations and 199247 ideals in 195615 cliques
Wed Apr 25 15:22:37 2018  commencing in-memory singleton removal
Wed Apr 25 15:22:38 2018  begin with 18098650 relations and 16446372 unique ideals
Wed Apr 25 15:22:43 2018  reduce to 18094702 relations and 16243145 ideals in 3 passes
Wed Apr 25 15:22:43 2018  max relations containing the same ideal: 141
Wed Apr 25 15:22:47 2018  removing 418991 relations and 211606 ideals in 207385 cliques
Wed Apr 25 15:22:47 2018  commencing in-memory singleton removal
Wed Apr 25 15:22:49 2018  begin with 17675711 relations and 16243145 unique ideals
Wed Apr 25 15:22:53 2018  reduce to 17671151 relations and 16026952 ideals in 3 passes
Wed Apr 25 15:22:53 2018  max relations containing the same ideal: 137
Wed Apr 25 15:22:57 2018  removing 455546 relations and 230367 ideals in 225179 cliques
Wed Apr 25 15:22:57 2018  commencing in-memory singleton removal
Wed Apr 25 15:22:59 2018  begin with 17215605 relations and 16026952 unique ideals
Wed Apr 25 15:23:03 2018  reduce to 17209819 relations and 15790765 ideals in 3 passes
Wed Apr 25 15:23:03 2018  max relations containing the same ideal: 135
Wed Apr 25 15:23:07 2018  removing 508408 relations and 257538 ideals in 250870 cliques
Wed Apr 25 15:23:07 2018  commencing in-memory singleton removal
Wed Apr 25 15:23:09 2018  begin with 16701411 relations and 15790765 unique ideals
Wed Apr 25 15:23:14 2018  reduce to 16693751 relations and 15525493 ideals in 4 passes
Wed Apr 25 15:23:14 2018  max relations containing the same ideal: 132
Wed Apr 25 15:23:18 2018  removing 579283 relations and 294090 ideals in 285193 cliques
Wed Apr 25 15:23:18 2018  commencing in-memory singleton removal
Wed Apr 25 15:23:20 2018  begin with 16114468 relations and 15525493 unique ideals
Wed Apr 25 15:23:25 2018  reduce to 16103660 relations and 15220482 ideals in 4 passes
Wed Apr 25 15:23:25 2018  max relations containing the same ideal: 127
Wed Apr 25 15:23:29 2018  removing 679083 relations and 345897 ideals in 333186 cliques
Wed Apr 25 15:23:29 2018  commencing in-memory singleton removal
Wed Apr 25 15:23:30 2018  begin with 15424577 relations and 15220482 unique ideals
Wed Apr 25 15:23:35 2018  reduce to 15408739 relations and 14858573 ideals in 4 passes
Wed Apr 25 15:23:35 2018  max relations containing the same ideal: 122
Wed Apr 25 15:23:39 2018  removing 668735 relations and 344010 ideals in 324725 cliques
Wed Apr 25 15:23:39 2018  commencing in-memory singleton removal
Wed Apr 25 15:23:41 2018  begin with 14740004 relations and 14858573 unique ideals
Wed Apr 25 15:23:47 2018  reduce to 14717272 relations and 14491506 ideals in 5 passes
Wed Apr 25 15:23:47 2018  max relations containing the same ideal: 120
Wed Apr 25 15:23:52 2018  relations with 0 large ideals: 8691
Wed Apr 25 15:23:52 2018  relations with 1 large ideals: 729
Wed Apr 25 15:23:52 2018  relations with 2 large ideals: 5908
Wed Apr 25 15:23:52 2018  relations with 3 large ideals: 53471
Wed Apr 25 15:23:52 2018  relations with 4 large ideals: 292902
Wed Apr 25 15:23:52 2018  relations with 5 large ideals: 1356912
Wed Apr 25 15:23:52 2018  relations with 6 large ideals: 2293078
Wed Apr 25 15:23:52 2018  relations with 7+ large ideals: 10705581
Wed Apr 25 15:23:52 2018  commencing 2-way merge
Wed Apr 25 15:24:01 2018  reduce to 14141022 relation sets and 13915256 unique ideals
Wed Apr 25 15:24:01 2018  commencing full merge
Wed Apr 25 15:27:17 2018  memory use: 1511.7 MB
Wed Apr 25 15:27:20 2018  found 6924507 cycles, need 6893456
Wed Apr 25 15:27:20 2018  weight of 6893456 cycles is about 482556249 (70.00/cycle)
Wed Apr 25 15:27:20 2018  distribution of cycle lengths:
Wed Apr 25 15:27:20 2018  1 relations: 338223
Wed Apr 25 15:27:20 2018  2 relations: 916748
Wed Apr 25 15:27:20 2018  3 relations: 1129879
Wed Apr 25 15:27:20 2018  4 relations: 1054542
Wed Apr 25 15:27:20 2018  5 relations: 906552
Wed Apr 25 15:27:20 2018  6 relations: 722041
Wed Apr 25 15:27:20 2018  7 relations: 549701
Wed Apr 25 15:27:20 2018  8 relations: 403191
Wed Apr 25 15:27:20 2018  9 relations: 288759
Wed Apr 25 15:27:20 2018  10+ relations: 583820
Wed Apr 25 15:27:20 2018  heaviest cycle: 20 relations
Wed Apr 25 15:27:25 2018  commencing cycle optimization
Wed Apr 25 15:27:32 2018  start with 35091145 relations
Wed Apr 25 15:28:28 2018  pruned 2312547 relations
Wed Apr 25 15:28:28 2018  memory use: 993.4 MB
Wed Apr 25 15:28:28 2018  distribution of cycle lengths:
Wed Apr 25 15:28:28 2018  1 relations: 338223
Wed Apr 25 15:28:28 2018  2 relations: 961898
Wed Apr 25 15:28:28 2018  3 relations: 1231499
Wed Apr 25 15:28:28 2018  4 relations: 1135863
Wed Apr 25 15:28:28 2018  5 relations: 973215
Wed Apr 25 15:28:28 2018  6 relations: 739872
Wed Apr 25 15:28:28 2018  7 relations: 539195
Wed Apr 25 15:28:28 2018  8 relations: 366602
Wed Apr 25 15:28:28 2018  9 relations: 242003
Wed Apr 25 15:28:28 2018  10+ relations: 365086
Wed Apr 25 15:28:28 2018  heaviest cycle: 20 relations
Wed Apr 25 15:28:36 2018  RelProcTime: 1245
Wed Apr 25 15:28:36 2018  elapsed time 00:20:45
Wed Apr 25 15:28:36 2018 LatSieveTime: 5487.06
Wed Apr 25 15:28:36 2018 -> Running matrix solving step ...
Wed Apr 25 15:28:36 2018  
Wed Apr 25 15:28:36 2018  
Wed Apr 25 15:28:36 2018  Msieve v. 1.52 (SVN unknown)
Wed Apr 25 15:28:36 2018  random seeds: 85e63780 de47596e
Wed Apr 25 15:28:36 2018  factoring 39201617233921837007762856238177006530257675242423745369746631891045188281562337706126412543570640299921440809863149882061852633235429383096089725212074821294346417514423 (170 digits)
Wed Apr 25 15:28:37 2018  no P-1/P+1/ECM available, skipping
Wed Apr 25 15:28:37 2018  commencing number field sieve (170-digit input)
Wed Apr 25 15:28:37 2018  R0: -10000000000000000000000000000000000000000000000000000000
Wed Apr 25 15:28:37 2018  R1: 1
Wed Apr 25 15:28:37 2018  A0: 23
Wed Apr 25 15:28:37 2018  A1: 0
Wed Apr 25 15:28:37 2018  A2: 0
Wed Apr 25 15:28:37 2018  A3: 0
Wed Apr 25 15:28:37 2018  A4: 67
Wed Apr 25 15:28:37 2018  skew 1.00, size 1.096e-022, alpha -0.539, combined = 1.771e-013 rroots = 0
Wed Apr 25 15:28:37 2018  
Wed Apr 25 15:28:37 2018  commencing linear algebra
Wed Apr 25 15:28:38 2018  read 6893456 cycles
Wed Apr 25 15:28:45 2018  cycles contain 14660080 unique relations
Wed Apr 25 15:30:52 2018  read 14660080 relations
Wed Apr 25 15:31:11 2018  using 20 quadratic characters above 134217498
Wed Apr 25 15:32:01 2018  building initial matrix
Wed Apr 25 15:34:22 2018  memory use: 2128.6 MB
Wed Apr 25 15:34:26 2018  read 6893456 cycles
Wed Apr 25 15:34:28 2018  matrix is 6893279 x 6893456 (2012.3 MB) with weight 601637672 (87.28/col)
Wed Apr 25 15:34:28 2018  sparse part has weight 451685121 (65.52/col)
Wed Apr 25 15:35:16 2018  filtering completed in 2 passes
Wed Apr 25 15:35:18 2018  matrix is 6893038 x 6893215 (2012.3 MB) with weight 601631501 (87.28/col)
Wed Apr 25 15:35:18 2018  sparse part has weight 451683872 (65.53/col)
Wed Apr 25 15:35:37 2018  matrix starts at (0, 0)
Wed Apr 25 15:35:39 2018  matrix is 6893038 x 6893215 (2012.3 MB) with weight 601631501 (87.28/col)
Wed Apr 25 15:35:39 2018  sparse part has weight 451683872 (65.53/col)
Wed Apr 25 15:35:39 2018  saving the first 48 matrix rows for later
Wed Apr 25 15:35:41 2018  matrix includes 64 packed rows
Wed Apr 25 15:35:42 2018  matrix is 6892990 x 6893215 (1918.8 MB) with weight 474453621 (68.83/col)
Wed Apr 25 15:35:42 2018  sparse part has weight 434080537 (62.97/col)
Wed Apr 25 15:35:42 2018  using block size 8192 and superblock size 786432 for processor cache size 8192 kB
Wed Apr 25 15:36:01 2018  commencing Lanczos iteration (4 threads)
Wed Apr 25 15:36:01 2018  memory use: 1577.5 MB
Wed Apr 25 15:36:28 2018  linear algebra at 0.0%, ETA 32h47m
Wed Apr 25 15:36:37 2018  checkpointing every 210000 dimensions
Fri Apr 27 02:55:40 2018  lanczos halted after 109015 iterations (dim = 6892983)
Fri Apr 27 02:55:47 2018  recovered 33 nontrivial dependencies
Fri Apr 27 02:55:49 2018  BLanczosTime: 127632
Fri Apr 27 02:55:49 2018  elapsed time 35:27:13
Fri Apr 27 02:55:49 2018 -> Running square root step ...
Fri Apr 27 02:55:49 2018  
Fri Apr 27 02:55:49 2018  
Fri Apr 27 02:55:49 2018  Msieve v. 1.52 (SVN unknown)
Fri Apr 27 02:55:49 2018  random seeds: 37996e20 a0090577
Fri Apr 27 02:55:49 2018  factoring 39201617233921837007762856238177006530257675242423745369746631891045188281562337706126412543570640299921440809863149882061852633235429383096089725212074821294346417514423 (170 digits)
Fri Apr 27 02:55:50 2018  no P-1/P+1/ECM available, skipping
Fri Apr 27 02:55:50 2018  commencing number field sieve (170-digit input)
Fri Apr 27 02:55:50 2018  R0: -10000000000000000000000000000000000000000000000000000000
Fri Apr 27 02:55:50 2018  R1: 1
Fri Apr 27 02:55:50 2018  A0: 23
Fri Apr 27 02:55:50 2018  A1: 0
Fri Apr 27 02:55:50 2018  A2: 0
Fri Apr 27 02:55:50 2018  A3: 0
Fri Apr 27 02:55:50 2018  A4: 67
Fri Apr 27 02:55:50 2018  skew 1.00, size 1.096e-022, alpha -0.539, combined = 1.771e-013 rroots = 0
Fri Apr 27 02:55:50 2018  
Fri Apr 27 02:55:50 2018  commencing square root phase
Fri Apr 27 02:55:50 2018  reading relations for dependency 1
Fri Apr 27 02:55:51 2018  read 3446555 cycles
Fri Apr 27 02:55:54 2018  cycles contain 7330148 unique relations
Fri Apr 27 02:57:22 2018  read 7330148 relations
Fri Apr 27 02:58:03 2018  multiplying 7330148 relations
Fri Apr 27 03:01:11 2018  multiply complete, coefficients have about 238.54 million bits
Fri Apr 27 03:01:13 2018  initial square root is modulo 363359197
Fri Apr 27 03:05:57 2018  sqrtTime: 607
Fri Apr 27 03:05:57 2018  prp71 factor: 61421895243690840942806464447336112508834327405858944494536598541554517
Fri Apr 27 03:05:57 2018  prp99 factor: 638235226679179434287901925440302589992330961965891283041852960854971574995663216710032819328345819
Fri Apr 27 03:05:57 2018  elapsed time 00:10:08
Fri Apr 27 03:05:58 2018 -> Computing 1.52479e+09 scale for this machine...
Fri Apr 27 03:05:58 2018 -> procrels -speedtest> PIPE
Fri Apr 27 03:06:00 2018 -> Factorization summary written to s222-74447_220.txt
software ソフトウェア
GGNFS; NFS_factory, Msieve

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 14:59:08 UTC 2013 年 1 月 10 日 (木) 23 時 59 分 8 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:55:49 UTC 2013 年 1 月 12 日 (土) 6 時 55 分 49 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:46:59 UTC 2013 年 1 月 15 日 (火) 23 時 46 分 59 秒 (日本時間)
5043e6500 / 6801Dmitry DomanovMarch 21, 2014 11:47:47 UTC 2014 年 3 月 21 日 (金) 20 時 47 分 47 秒 (日本時間)
5511e7200 / 17519Dmitry DomanovApril 28, 2014 12:58:50 UTC 2014 年 4 月 28 日 (月) 21 時 58 分 50 秒 (日本時間)

67×10221+239

c196

name 名前Warut Roonguthai
date 日付January 7, 2013 23:15:04 UTC 2013 年 1 月 8 日 (火) 8 時 15 分 4 秒 (日本時間)
composite number 合成数
4669839129497114710519979742784682935964935062825286288425457147564218681360518623403924290122657753055711619339799834344227025145581824887329812469354093629855695906652530701021434727300571990911<196>
prime factors 素因数
3570162387452808873138560706111316031<37>
1308018690104706500962162354095891153931247177834842409906939646080785822504293372894054231411040000749419009720177772381686556917801275604950644557760701580481<160>
factorization results 素因数分解の結果
Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=3304366424
Step 1 took 12231ms
Step 2 took 7067ms
********** Factor found in step 2: 3570162387452808873138560706111316031
Found probable prime factor of 37 digits: 3570162387452808873138560706111316031
Probable prime cofactor 1308018690104706500962162354095891153931247177834842409906939646080785822504293372894054231411040000749419009720177772381686556917801275604950644557760701580481 has 160 digits
software ソフトウェア
GMP-ECM 6.3

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
3025e40--
351e6118 / 904Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)

67×10222+239

c186

name 名前Erik Branger
date 日付March 18, 2020 23:30:21 UTC 2020 年 3 月 19 日 (木) 8 時 30 分 21 秒 (日本時間)
composite number 合成数
222108543714221923102400893421476602373399804372346248432827665923845706454031305019765885647455608105314647283406153317349575068590879453067296456101029309854056307499236460039984323209<186>
prime factors 素因数
1700895459258408279590570184981411556655963981051<49>
130583300993149466071626183864796340696901746438809450108287783170713067880714356919301470624148725242549932471944384394384840577093181259<138>
factorization results 素因数分解の結果
Number: 74447_222
N = 222108543714221923102400893421476602373399804372346248432827665923845706454031305019765885647455608105314647283406153317349575068590879453067296456101029309854056307499236460039984323209 (186 digits)
SNFS difficulty: 224 digits.
Divisors found:
r1=1700895459258408279590570184981411556655963981051 (pp49)
r2=130583300993149466071626183864796340696901746438809450108287783170713067880714356919301470624148725242549932471944384394384840577093181259 (pp138)
Version: Msieve v. 1.52 (SVN unknown)
Total time: 125.00 hours.
Factorization parameters were as follows:
n: 222108543714221923102400893421476602373399804372346248432827665923845706454031305019765885647455608105314647283406153317349575068590879453067296456101029309854056307499236460039984323209
m: 10000000000000000000000000000000000000000000000000000000
deg: 4
c4: 6700
c0: 23
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: 33769157
Relations: 13041488 relations
Total pre-computation time approximately 1000 CPU-days.
Pre-computation saved approximately 18 G rational relations.
Total batch smoothness checking time: 49.06 hours.
Total relation processing time: 0.43 hours.
Pruned matrix : 10978413 x 10978638
Matrix solve time: 75.25 hours.
time per square root: 0.26 hours.
Prototype def-par.txt line would be: snfs,224,4,0,0,0,0,0,0,0,0,536870912,44739242,29,28,58,56,2.8,2.8,100000
total time: 125.00 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

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 14:59:17 UTC 2013 年 1 月 10 日 (木) 23 時 59 分 17 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:55:58 UTC 2013 年 1 月 12 日 (土) 6 時 55 分 58 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:47:10 UTC 2013 年 1 月 15 日 (火) 23 時 47 分 10 秒 (日本時間)
5043e6500 / 6801Dmitry DomanovMarch 21, 2014 11:48:04 UTC 2014 年 3 月 21 日 (金) 20 時 48 分 4 秒 (日本時間)
5511e7200 / 17519Dmitry DomanovApril 28, 2014 12:59:09 UTC 2014 年 4 月 28 日 (月) 21 時 59 分 9 秒 (日本時間)

67×10223+239

c186

name 名前Dmitry Domanov
date 日付April 29, 2014 10:07:38 UTC 2014 年 4 月 29 日 (火) 19 時 7 分 38 秒 (日本時間)
composite number 合成数
646026964894990529092416715677115283095015593937609345898256074616267727695490257325706228079850523781929195173808351981969103002631402226600497998663856443510004634318617215724036159577<186>
prime factors 素因数
63258961761336444410723686951227906340255051<44>
10212418081288190273132702683826951794156207198031282699094626619020409405743937885545925332961338824706614299335004901137537131754355852613227<143>
factorization results 素因数分解の結果
Using B1=110000000, B2=776278396540, polynomial Dickson(30), sigma=3870239956
Step 1 took 803263ms
Step 2 took 261067ms
********** Factor found in step 2: 63258961761336444410723686951227906340255051
Found probable prime factor of 44 digits: 63258961761336444410723686951227906340255051

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 14:59:42 UTC 2013 年 1 月 10 日 (木) 23 時 59 分 42 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:56:09 UTC 2013 年 1 月 12 日 (土) 6 時 56 分 9 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:47:21 UTC 2013 年 1 月 15 日 (火) 23 時 47 分 21 秒 (日本時間)
5043e6500 / 6801Dmitry DomanovMarch 21, 2014 11:48:16 UTC 2014 年 3 月 21 日 (金) 20 時 48 分 16 秒 (日本時間)
5511e7200 / 17519Dmitry DomanovApril 28, 2014 12:59:25 UTC 2014 年 4 月 28 日 (月) 21 時 59 分 25 秒 (日本時間)

67×10224+239

c185

composite cofactor 合成数の残り
45787834320807959114976708051588697646164267771782939992373719525890582076026660255080517130416193366295994041292418885916580126263689922317829554828367096455607951656261497634650642643<185>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 14:59:50 UTC 2013 年 1 月 10 日 (木) 23 時 59 分 50 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:56:19 UTC 2013 年 1 月 12 日 (土) 6 時 56 分 19 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:47:32 UTC 2013 年 1 月 15 日 (火) 23 時 47 分 32 秒 (日本時間)
5043e62292 / 6801500Dmitry DomanovMarch 21, 2014 11:48:32 UTC 2014 年 3 月 21 日 (金) 20 時 48 分 32 秒 (日本時間)
1792Dmitry DomanovDecember 24, 2023 11:23:20 UTC 2023 年 12 月 24 日 (日) 20 時 23 分 20 秒 (日本時間)
5511e7200 / 16880Dmitry DomanovApril 28, 2014 13:01:17 UTC 2014 年 4 月 28 日 (月) 22 時 1 分 17 秒 (日本時間)

67×10227+239

c209

name 名前Warut Roonguthai
date 日付January 8, 2013 09:46:59 UTC 2013 年 1 月 8 日 (火) 18 時 46 分 59 秒 (日本時間)
composite number 合成数
85040078689706654825372037964173985488306900286716194437414648250937457714507234587347898638856645935085396196531523194057813985069714351072848238652640698497331755088047597137352332009664256179768279566865579<209>
prime factors 素因数
158213954724373911160375910802267689<36>
composite cofactor 合成数の残り
537500493163550671022733839273047990691011137627975029641513298657467256733849725057194544561563127932631332989509397141093082155666385712040992766031716496707032768978489011<174>
factorization results 素因数分解の結果
Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=3735765969
Step 1 took 12105ms
Step 2 took 7239ms
********** Factor found in step 2: 158213954724373911160375910802267689
Found probable prime factor of 36 digits: 158213954724373911160375910802267689
Composite cofactor 537500493163550671022733839273047990691011137627975029641513298657467256733849725057194544561563127932631332989509397141093082155666385712040992766031716496707032768978489011 has 174 digits
software ソフトウェア
GMP-ECM 6.3

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:00:05 UTC 2013 年 1 月 11 日 (金) 0 時 0 分 5 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:56:31 UTC 2013 年 1 月 12 日 (土) 6 時 56 分 31 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:47:51 UTC 2013 年 1 月 15 日 (火) 23 時 47 分 51 秒 (日本時間)
5043e62292 / 6801500Dmitry DomanovMarch 21, 2014 11:48:44 UTC 2014 年 3 月 21 日 (金) 20 時 48 分 44 秒 (日本時間)
1792Dmitry DomanovDecember 24, 2023 11:13:16 UTC 2023 年 12 月 24 日 (日) 20 時 13 分 16 秒 (日本時間)
5511e7200 / 16880Dmitry DomanovApril 28, 2014 13:01:33 UTC 2014 年 4 月 28 日 (月) 22 時 1 分 33 秒 (日本時間)

67×10228+239

c223

name 名前Bob Backstrom
date 日付October 27, 2018 12:41:26 UTC 2018 年 10 月 27 日 (土) 21 時 41 分 26 秒 (日本時間)
composite number 合成数
3732256393536244415332844574861738004848256760522888006628041712365917992745719087990284101027835558120228456427327091106662484311293133812477066816358000707123323276852038928882522884998540799160765941455826210990470101089<223>
prime factors 素因数
7140458117469082642770304278593404199503011201759212296476646447545348343216746239<82>
522691448102651048643272320016386271198960198641929150113708143169480329559617518909236219495531170662421048839038701732893466483450993621151<141>
factorization results 素因数分解の結果
Number: n
N=3732256393536244415332844574861738004848256760522888006628041712365917992745719087990284101027835558120228456427327091106662484311293133812477066816358000707123323276852038928882522884998540799160765941455826210990470101089
  ( 223 digits)
SNFS difficulty: 229 digits.
Divisors found:

Sat Oct 27 23:36:51 2018  p82 factor: 7140458117469082642770304278593404199503011201759212296476646447545348343216746239
Sat Oct 27 23:36:51 2018  p141 factor: 522691448102651048643272320016386271198960198641929150113708143169480329559617518909236219495531170662421048839038701732893466483450993621151
Sat Oct 27 23:36:51 2018  elapsed time 22:55:25 (Msieve 1.54 - dependency 3)

Version:
Total time: 0.00 hours.
Scaled time: 0.00 units (timescale=2.119).
Factorization parameters were as follows:
#
# N = 67x10^228+23 = 74(227)7
#
n: 3732256393536244415332844574861738004848256760522888006628041712365917992745719087990284101027835558120228456427327091106662484311293133812477066816358000707123323276852038928882522884998540799160765941455826210990470101089
m: 100000000000000000000000000000000000000
deg: 6
c6: 67
c0: 23
skew: 0.84
# Murphy_E = 1.135e-12
type: snfs
lss: 1
rlim: 47000000
alim: 47000000
lpbr: 30
lpba: 30
mfbr: 59
mfba: 59
rlambda: 2.7
alambda: 2.7
Factor base limits: 47000000/47000000
Large primes per side: 3
Large prime bits: 30/30
Max factor residue bits: 59/59
Sieved  special-q in [100000, 85100000)
Primes: , ,
Relations:
Max relations in full relation-set: 28
Initial matrix:
Pruned matrix :

Msieve: found 18712364 hash collisions in 107356203 relations (91046790 unique)
Msieve: matrix is 6631567 x 6631792 (2331.0 MB)

Sieving start time: 2018/10/25 07:34:52
Sieving end time  : 2018/10/27 00:37:59

Total sieving time: 41hrs 3min 7secs.

Total relation processing time: 21hrs 31min 55sec.
Matrix solve time: 0.00 hours.
Total square root time: 0hrs 44min 34sec.

Prototype def-par.txt line would be:
snfs,229,6,0,0,0,0,0,0,0,0,47000000,47000000,30,30,59,59,2.7,2.7,100000
total time: 0.00 hours.
 --------- CPU info (if available) ----------
[    0.044000] smpboot: CPU0: AMD Ryzen 7 1700 Eight-Core Processor (family: 0x17, model: 0x1, stepping: 0x1)
[    0.000000] Memory: 16285120K/16703460K available (12300K kernel code, 2472K rwdata, 4248K rodata, 2408K init, 2416K bss, 418340K reserved, 0K cma-reserved)
[    0.076570] x86/mm: Memory block size: 128MB
[    0.028000] Calibrating delay loop (skipped), value calculated using timer frequency.. 5989.19 BogoMIPS (lpj=11978392)
[    0.074211] smpboot: Total of 16 processors activated (95827.13 BogoMIPS)

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:00:19 UTC 2013 年 1 月 11 日 (金) 0 時 0 分 19 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:56:45 UTC 2013 年 1 月 12 日 (土) 6 時 56 分 45 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 11, 2013 21:56:45 UTC 2013 年 1 月 12 日 (土) 6 時 56 分 45 秒 (日本時間)
5043e6400 / 6680Dmitry DomanovApril 4, 2014 10:42:09 UTC 2014 年 4 月 4 日 (金) 19 時 42 分 9 秒 (日本時間)
5511e7250 / 17555Dmitry DomanovMay 16, 2014 08:10:23 UTC 2014 年 5 月 16 日 (金) 17 時 10 分 23 秒 (日本時間)

67×10229+239

c189

composite cofactor 合成数の残り
717339674413041035845737302312583611193050034853090396877054853530392347700231601716569221538823781546998837552066245406622670718343453438762911984395018497783896356889951355525097260968481<189>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:00:25 UTC 2013 年 1 月 11 日 (金) 0 時 0 分 25 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:57:00 UTC 2013 年 1 月 12 日 (土) 6 時 57 分 0 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:44:54 UTC 2013 年 1 月 15 日 (火) 23 時 44 分 54 秒 (日本時間)
5043e62192 / 6680400Dmitry DomanovApril 4, 2014 10:42:29 UTC 2014 年 4 月 4 日 (金) 19 時 42 分 29 秒 (日本時間)
1792Dmitry DomanovDecember 24, 2023 12:14:04 UTC 2023 年 12 月 24 日 (日) 21 時 14 分 4 秒 (日本時間)
5511e7250 / 16916Dmitry DomanovMay 16, 2014 08:10:49 UTC 2014 年 5 月 16 日 (金) 17 時 10 分 49 秒 (日本時間)

67×10230+239

c205

name 名前Dmitry Domanov
date 日付January 14, 2013 06:26:49 UTC 2013 年 1 月 14 日 (月) 15 時 26 分 49 秒 (日本時間)
composite number 合成数
7670351548520588671807649892552284158829367009375325704315652019098539500333328740230560436504610586211897687014571689541101806233050452893499544085175245384095181727840827226508020020882600525735938052253<205>
prime factors 素因数
1704287385517647378748849528100552181929<40>
4500620971380864867007300100502490741810633841624926971676406477478522840864737815981978966326116521607278304585548173478981788368239725679076716623093161694672108757<166>
factorization results 素因数分解の結果
Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=1453332741
Step 1 took 81312ms
Step 2 took 25878ms
********** Factor found in step 2: 1704287385517647378748849528100552181929
Found probable prime factor of 40 digits: 1704287385517647378748849528100552181929

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:00:33 UTC 2013 年 1 月 11 日 (金) 0 時 0 分 33 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:57:14 UTC 2013 年 1 月 12 日 (土) 6 時 57 分 14 秒 (日本時間)
4511e61000 / 4194Dmitry DomanovJanuary 11, 2013 21:57:14 UTC 2013 年 1 月 12 日 (土) 6 時 57 分 14 秒 (日本時間)

67×10232+239

c230

name 名前Warut Roonguthai
date 日付January 8, 2013 20:29:02 UTC 2013 年 1 月 9 日 (水) 5 時 29 分 2 秒 (日本時間)
composite number 合成数
11318905951717263865659790853648235433243795719088405723649755883297011470950957038839051914922372577838595779906407852279830385349619042792222053283327420472015272076090078218708293210345817917659182673626949132498775193012687311<230>
prime factors 素因数
845306195393761900474434554950291037<36>
composite cofactor 合成数の残り
13390302843391172319656143094608596497787859679702893116081582468066484091300458267310036683608497503225384202658552450670026156741009245031180232784664516489791673037972387948484530580473816603<194>
factorization results 素因数分解の結果
Using B1=1000000, B2=1045563762, polynomial Dickson(6), sigma=4122686269
Step 1 took 14227ms
Step 2 took 8050ms
********** Factor found in step 2: 845306195393761900474434554950291037
Found probable prime factor of 36 digits: 845306195393761900474434554950291037
Composite cofactor 13390302843391172319656143094608596497787859679702893116081582468066484091300458267310036683608497503225384202658552450670026156741009245031180232784664516489791673037972387948484530580473816603 has 194 digits
software ソフトウェア
GMP-ECM 6.3

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e6418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
300Ignacio SantosJanuary 8, 2013 17:49:17 UTC 2013 年 1 月 9 日 (水) 2 時 49 分 17 秒 (日本時間)
403e61110110Ignacio SantosJanuary 8, 2013 17:49:17 UTC 2013 年 1 月 9 日 (水) 2 時 49 分 17 秒 (日本時間)
1000Dmitry DomanovJanuary 11, 2013 21:57:28 UTC 2013 年 1 月 12 日 (土) 6 時 57 分 28 秒 (日本時間)
4511e6103232Ignacio SantosJanuary 8, 2013 17:49:17 UTC 2013 年 1 月 9 日 (水) 2 時 49 分 17 秒 (日本時間)
1000Dmitry DomanovJanuary 15, 2013 14:45:05 UTC 2013 年 1 月 15 日 (火) 23 時 45 分 5 秒 (日本時間)
5043e62192 / 6675400Dmitry DomanovApril 4, 2014 10:42:42 UTC 2014 年 4 月 4 日 (金) 19 時 42 分 42 秒 (日本時間)
1792Dmitry DomanovDecember 24, 2023 18:15:47 UTC 2023 年 12 月 25 日 (月) 3 時 15 分 47 秒 (日本時間)
5511e7250 / 16914Dmitry DomanovMay 16, 2014 08:11:05 UTC 2014 年 5 月 16 日 (金) 17 時 11 分 5 秒 (日本時間)

67×10233+239

c219

composite cofactor 合成数の残り
492504888858780241298227421145408073882030734920639540266743043674352540366074241291809642106130283942282369964146368449343418891084674568994165761739411003643784246740098287122642803284398332087387852973018515981060559<219>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:01:02 UTC 2013 年 1 月 11 日 (金) 0 時 1 分 2 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 21:59:54 UTC 2013 年 1 月 12 日 (土) 6 時 59 分 54 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 11, 2013 21:59:54 UTC 2013 年 1 月 12 日 (土) 6 時 59 分 54 秒 (日本時間)
5043e62192 / 6680400Dmitry DomanovApril 4, 2014 10:42:57 UTC 2014 年 4 月 4 日 (金) 19 時 42 分 57 秒 (日本時間)
1792Dmitry DomanovDecember 25, 2023 22:01:46 UTC 2023 年 12 月 26 日 (火) 7 時 1 分 46 秒 (日本時間)
5511e7250 / 16916Dmitry DomanovMay 16, 2014 08:11:24 UTC 2014 年 5 月 16 日 (金) 17 時 11 分 24 秒 (日本時間)

67×10235+239

c229

composite cofactor 合成数の残り
3903011060603235292083900733566268528663920030402475529620687850707753093213451940829629972939259238909231440790649378145189762854038273986681190295108239147414147111372484693599388664969649108295665344460503296072451815682784279<229>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:01:08 UTC 2013 年 1 月 11 日 (金) 0 時 1 分 8 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 22:00:10 UTC 2013 年 1 月 12 日 (土) 7 時 0 分 10 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 11, 2013 22:00:10 UTC 2013 年 1 月 12 日 (土) 7 時 0 分 10 秒 (日本時間)
5043e62192 / 6680400Dmitry DomanovApril 4, 2014 10:43:12 UTC 2014 年 4 月 4 日 (金) 19 時 43 分 12 秒 (日本時間)
1792Dmitry DomanovDecember 25, 2023 22:01:52 UTC 2023 年 12 月 26 日 (火) 7 時 1 分 52 秒 (日本時間)
5511e7250 / 16916Dmitry DomanovMay 16, 2014 08:11:50 UTC 2014 年 5 月 16 日 (金) 17 時 11 分 50 秒 (日本時間)

67×10236+239

c195

composite cofactor 合成数の残り
261817242209953771478647564923725654153233251245097830207257162990085775200403307747773721516289489271517254336028584901226057713579506600434040851925523166492498298344669333657270037077600552893<195>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:01:18 UTC 2013 年 1 月 11 日 (金) 0 時 1 分 18 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 22:00:22 UTC 2013 年 1 月 12 日 (土) 7 時 0 分 22 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:44:39 UTC 2013 年 1 月 15 日 (火) 23 時 44 分 39 秒 (日本時間)
5043e62192 / 6680400Dmitry DomanovApril 4, 2014 10:43:27 UTC 2014 年 4 月 4 日 (金) 19 時 43 分 27 秒 (日本時間)
1792Dmitry DomanovDecember 24, 2023 18:15:59 UTC 2023 年 12 月 25 日 (月) 3 時 15 分 59 秒 (日本時間)
5511e7250 / 16916Dmitry DomanovMay 16, 2014 08:12:16 UTC 2014 年 5 月 16 日 (金) 17 時 12 分 16 秒 (日本時間)

67×10237+239

c190

name 名前Dmitry Domanov
date 日付January 11, 2013 20:20:28 UTC 2013 年 1 月 12 日 (土) 5 時 20 分 28 秒 (日本時間)
composite number 合成数
2324504179760569271565250464053204104223895903562223569162838963464816542613044299074485296729019689959618739324182963328814509057423050109812619378731222433770114964686442467471922420283257<190>
prime factors 素因数
7397003628583616787381197876431273916861040064972060435129<58>
314249430780077485225888214588223142593454506724653730970992139509991615852735872193379583190354329526748755365565936022104880356033<132>
factorization results 素因数分解の結果
Using B1=3000000, B2=5706890290, polynomial Dickson(6), sigma=2832644662
Step 1 took 22837ms
Step 2 took 9208ms
********** Factor found in step 2: 7397003628583616787381197876431273916861040064972060435129
Found probable prime factor of 58 digits: 7397003628583616787381197876431273916861040064972060435129

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:01:25 UTC 2013 年 1 月 11 日 (金) 0 時 1 分 25 秒 (日本時間)

67×10238+239

c216

composite cofactor 合成数の残り
660723302284196173051578688493424886539062371449255868455091215036370162515217638620017699377776173887149551417831901275554738277283959901769267887450584586218143793882893075403110789246018378450760509726856963322653<216>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:01:39 UTC 2013 年 1 月 11 日 (金) 0 時 1 分 39 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 22:00:42 UTC 2013 年 1 月 12 日 (土) 7 時 0 分 42 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 11, 2013 22:00:42 UTC 2013 年 1 月 12 日 (土) 7 時 0 分 42 秒 (日本時間)
5043e62192 / 6680400Dmitry DomanovApril 4, 2014 10:43:41 UTC 2014 年 4 月 4 日 (金) 19 時 43 分 41 秒 (日本時間)
1792Dmitry DomanovDecember 25, 2023 22:01:58 UTC 2023 年 12 月 26 日 (火) 7 時 1 分 58 秒 (日本時間)
5511e7250 / 16916Dmitry DomanovMay 16, 2014 08:12:35 UTC 2014 年 5 月 16 日 (金) 17 時 12 分 35 秒 (日本時間)

67×10240+239

c174

composite cofactor 合成数の残り
283951737633889959643041292559104475644975504142464080818290363616357994018517255945187636549543260350721248074081860584542375636373295260154377784491093165897188073610630303<174>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:01:52 UTC 2013 年 1 月 11 日 (金) 0 時 1 分 52 秒 (日本時間)
403e61000Dmitry DomanovJanuary 11, 2013 22:00:54 UTC 2013 年 1 月 12 日 (土) 7 時 0 分 54 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:44:22 UTC 2013 年 1 月 15 日 (火) 23 時 44 分 22 秒 (日本時間)
5043e6920 / 7283500Dmitry DomanovMay 16, 2014 08:13:13 UTC 2014 年 5 月 16 日 (金) 17 時 13 分 13 秒 (日本時間)
420Dmitry DomanovMay 23, 2014 06:00:25 UTC 2014 年 5 月 23 日 (金) 15 時 0 分 25 秒 (日本時間)

67×10242+239

c199

composite cofactor 合成数の残り
8483408084390224747260487695434231550369188367904614332713309890398202386548410375433970665046676256628545836481480174420099797067890308179043602371804948288101273308238683929882718123454567161966039<199>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:01:59 UTC 2013 年 1 月 11 日 (金) 0 時 1 分 59 秒 (日本時間)
403e61500500Warut RoonguthaiJanuary 10, 2013 15:04:32 UTC 2013 年 1 月 11 日 (金) 0 時 4 分 32 秒 (日本時間)
1000Dmitry DomanovJanuary 11, 2013 22:01:05 UTC 2013 年 1 月 12 日 (土) 7 時 1 分 5 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 11, 2013 22:01:05 UTC 2013 年 1 月 12 日 (土) 7 時 1 分 5 秒 (日本時間)
5043e6800 / 7167400Dmitry DomanovApril 4, 2014 10:43:59 UTC 2014 年 4 月 4 日 (金) 19 時 43 分 59 秒 (日本時間)
400Dmitry DomanovMay 16, 2014 08:13:38 UTC 2014 年 5 月 16 日 (金) 17 時 13 分 38 秒 (日本時間)
5511e740 / 17408Dmitry DomanovMay 22, 2014 05:28:09 UTC 2014 年 5 月 22 日 (木) 14 時 28 分 9 秒 (日本時間)

67×10243+239

c241

composite cofactor 合成数の残り
3034832631245187298998958191783303890927209312859537074783711555012003442496716039316936177922725007926801648774742945146532590478778819585994473886850568464918240702994066222765774335281061738460841599855052769850976129003034832631245187299<241>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:02:07 UTC 2013 年 1 月 11 日 (金) 0 時 2 分 7 秒 (日本時間)
403e61500500Warut RoonguthaiJanuary 10, 2013 15:04:24 UTC 2013 年 1 月 11 日 (金) 0 時 4 分 24 秒 (日本時間)
1000Dmitry DomanovJanuary 11, 2013 22:01:27 UTC 2013 年 1 月 12 日 (土) 7 時 1 分 27 秒 (日本時間)
4511e62000Dmitry DomanovJanuary 11, 2013 22:01:27 UTC 2013 年 1 月 12 日 (土) 7 時 1 分 27 秒 (日本時間)
5043e62392 / 7039600Dmitry DomanovJanuary 17, 2013 15:23:30 UTC 2013 年 1 月 18 日 (金) 0 時 23 分 30 秒 (日本時間)
1792Dmitry DomanovDecember 25, 2023 22:02:02 UTC 2023 年 12 月 26 日 (火) 7 時 2 分 2 秒 (日本時間)

67×10244+239

c225

composite cofactor 合成数の残り
100051011715656739742271687249891338964261997728588166728465224801453432627736858441833356467784337444591890068437420494592857853959819463455207509017613485686586120113481361852296323933633586385331865364075299703478740129569<225>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:02:25 UTC 2013 年 1 月 11 日 (金) 0 時 2 分 25 秒 (日本時間)
403e61500500Warut RoonguthaiJanuary 10, 2013 15:04:15 UTC 2013 年 1 月 11 日 (金) 0 時 4 分 15 秒 (日本時間)
1000Dmitry DomanovJanuary 11, 2013 22:01:54 UTC 2013 年 1 月 12 日 (土) 7 時 1 分 54 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:36:09 UTC 2013 年 1 月 15 日 (火) 23 時 36 分 9 秒 (日本時間)
5043e62672 / 7264400Dmitry DomanovApril 4, 2014 10:44:19 UTC 2014 年 4 月 4 日 (金) 19 時 44 分 19 秒 (日本時間)
480Dmitry DomanovMay 5, 2014 12:44:22 UTC 2014 年 5 月 5 日 (月) 21 時 44 分 22 秒 (日本時間)
1792Dmitry DomanovDecember 25, 2023 22:02:09 UTC 2023 年 12 月 26 日 (火) 7 時 2 分 9 秒 (日本時間)

67×10246+239

c176

name 名前Dmitry Domanov
date 日付January 16, 2013 10:36:33 UTC 2013 年 1 月 16 日 (水) 19 時 36 分 33 秒 (日本時間)
composite number 合成数
23636683078437280690809161462226533439926081815743352055790067373565935285770070479328861052332399178903341420640104023463415534823785363527980654786584173588127961950026609911<176>
prime factors 素因数
465752868674650900512179380466447091677381<42>
50749409543515995787308183791767522597630537249066317316735532565433880224763808585032728615830062463227651908958671950971376429333131<134>
factorization results 素因数分解の結果
Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=1037702736
Step 1 took 118354ms
Step 2 took 37427ms
********** Factor found in step 2: 465752868674650900512179380466447091677381
Found probable prime factor of 42 digits: 465752868674650900512179380466447091677381

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:02:31 UTC 2013 年 1 月 11 日 (金) 0 時 2 分 31 秒 (日本時間)
403e61500500Warut RoonguthaiJanuary 10, 2013 15:04:08 UTC 2013 年 1 月 11 日 (金) 0 時 4 分 8 秒 (日本時間)
1000Dmitry DomanovJanuary 11, 2013 22:02:06 UTC 2013 年 1 月 12 日 (土) 7 時 2 分 6 秒 (日本時間)
4511e61000 / 4083Dmitry DomanovJanuary 15, 2013 14:36:21 UTC 2013 年 1 月 15 日 (火) 23 時 36 分 21 秒 (日本時間)

67×10247+239

c209

name 名前Dmitry Domanov
date 日付December 26, 2023 04:57:00 UTC 2023 年 12 月 26 日 (火) 13 時 57 分 0 秒 (日本時間)
composite number 合成数
14080553052579755267736120082413576540935311236752196445014167554785824551205052681207812498496611126182442237329346864576249688573137226917858343389036401690236405845220731522381118115195644884735509063060607<209>
prime factors 素因数
1013619863891676215057003799979514216845621499011<49>
13891354692398292804177280687319250160819068887906052832595929476956331591281581979976610215579400457550814768886696513870872869541012059562008589659054419345237<161>
factorization results 素因数分解の結果
GPU: factor 1013619863891676215057003799979514216845621499011 found in Step 1 with curve 123 (-sigma 3:1561828886)
Computing 1792 Step 1 took 3568ms of CPU time / 2514156ms of GPU time
Throughput: 0.713 curves per second (on average 1402.99ms per Step 1)
********** Factor found in step 1: 1013619863891676215057003799979514216845621499011
Found prime factor of 49 digits: 1013619863891676215057003799979514216845621499011
Prime cofactor 13891354692398292804177280687319250160819068887906052832595929476956331591281581979976610215579400457550814768886696513870872869541012059562008589659054419345237 has 161 digits
Peak memory usage: 9458MB

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:02:39 UTC 2013 年 1 月 11 日 (金) 0 時 2 分 39 秒 (日本時間)
403e61500500Warut RoonguthaiJanuary 10, 2013 15:04:00 UTC 2013 年 1 月 11 日 (金) 0 時 4 分 0 秒 (日本時間)
1000Dmitry DomanovJanuary 11, 2013 22:02:17 UTC 2013 年 1 月 12 日 (土) 7 時 2 分 17 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 15, 2013 14:44:07 UTC 2013 年 1 月 15 日 (火) 23 時 44 分 7 秒 (日本時間)
5043e62672 / 7264400Dmitry DomanovApril 4, 2014 10:44:33 UTC 2014 年 4 月 4 日 (金) 19 時 44 分 33 秒 (日本時間)
480Dmitry DomanovMay 15, 2014 12:07:57 UTC 2014 年 5 月 15 日 (木) 21 時 7 分 57 秒 (日本時間)
1792Dmitry DomanovDecember 25, 2023 22:02:14 UTC 2023 年 12 月 26 日 (火) 7 時 2 分 14 秒 (日本時間)

67×10248+239

c213

name 名前Dmitry Domanov
date 日付January 14, 2013 06:23:00 UTC 2013 年 1 月 14 日 (月) 15 時 23 分 0 秒 (日本時間)
composite number 合成数
120992293213903907373525222555531817447260714081708292715392476008888824857595467924641414622642806689497222567083559400322942555789542796722018529313046696748922438786100557972856604492454237680622188478540991993<213>
prime factors 素因数
8417464763972200868512012140622262968224117653<46>
14373958977739474972057078845228623183586679452215837939872703738572614471476063899467532081471697891197433980848764869202589955718984837130761135299223809397758285781<167>
factorization results 素因数分解の結果
Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=1831059433
Step 1 took 132783ms
Step 2 took 34220ms
********** Factor found in step 2: 8417464763972200868512012140622262968224117653
Found probable prime factor of 46 digits: 8417464763972200868512012140622262968224117653

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:02:45 UTC 2013 年 1 月 11 日 (金) 0 時 2 分 45 秒 (日本時間)
403e61500500Warut RoonguthaiJanuary 10, 2013 15:03:53 UTC 2013 年 1 月 11 日 (金) 0 時 3 分 53 秒 (日本時間)
1000Dmitry DomanovJanuary 11, 2013 22:02:25 UTC 2013 年 1 月 12 日 (土) 7 時 2 分 25 秒 (日本時間)
4511e61000 / 4083Dmitry DomanovJanuary 13, 2013 21:17:22 UTC 2013 年 1 月 14 日 (月) 6 時 17 分 22 秒 (日本時間)

67×10249+239

c220

composite cofactor 合成数の残り
6169919093671987314201591366960172073868553242810315917720137402630693013831979257579639168946247893609608384906043338837466127106506478544835937551380091863866618990692294263295447392425373639963871430444655145778236091<220>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:02:53 UTC 2013 年 1 月 11 日 (金) 0 時 2 分 53 秒 (日本時間)
403e61500500Warut RoonguthaiJanuary 10, 2013 15:03:42 UTC 2013 年 1 月 11 日 (金) 0 時 3 分 42 秒 (日本時間)
1000Dmitry DomanovJanuary 11, 2013 22:02:35 UTC 2013 年 1 月 12 日 (土) 7 時 2 分 35 秒 (日本時間)
4511e61000Dmitry DomanovJanuary 13, 2013 21:16:45 UTC 2013 年 1 月 14 日 (月) 6 時 16 分 45 秒 (日本時間)
5043e62672 / 7264880Dmitry DomanovMay 15, 2014 12:06:11 UTC 2014 年 5 月 15 日 (木) 21 時 6 分 11 秒 (日本時間)
1792Dmitry DomanovDecember 25, 2023 22:02:19 UTC 2023 年 12 月 26 日 (火) 7 時 2 分 19 秒 (日本時間)

67×10250+239

c230

composite cofactor 合成数の残り
48030158202259031317621315420888106458755515465289758253359720713261350966778301270236168932142500517488996119184342010867110198038655357591205951946812088677410054509346001280050952803560634051088856851418570090408058741924366247<230>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
351e61418118Makoto KamadaJanuary 7, 2013 13:00:00 UTC 2013 年 1 月 7 日 (月) 22 時 0 分 0 秒 (日本時間)
1300Warut RoonguthaiJanuary 10, 2013 15:03:04 UTC 2013 年 1 月 11 日 (金) 0 時 3 分 4 秒 (日本時間)
403e61500500Warut RoonguthaiJanuary 10, 2013 15:03:29 UTC 2013 年 1 月 11 日 (金) 0 時 3 分 29 秒 (日本時間)
1000Dmitry DomanovJanuary 11, 2013 22:02:43 UTC 2013 年 1 月 12 日 (土) 7 時 2 分 43 秒 (日本時間)
4511e62000Dmitry DomanovJanuary 13, 2013 21:12:20 UTC 2013 年 1 月 14 日 (月) 6 時 12 分 20 秒 (日本時間)
5043e62392 / 7039600Dmitry DomanovJanuary 14, 2013 06:15:48 UTC 2013 年 1 月 14 日 (月) 15 時 15 分 48 秒 (日本時間)
1792Dmitry DomanovDecember 25, 2023 22:00:45 UTC 2023 年 12 月 26 日 (火) 7 時 0 分 45 秒 (日本時間)

67×10251+239

c246

composite cofactor 合成数の残り
166805351623565035178377286170041325652419921169782528394192016909979657962887900554732358697132693184186444366419373998436560825185576555353472116879663407713333401549253251030079062998074244663666510591629453513053900510367114429491962932265799<246>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:51:56 UTC 2020 年 12 月 7 日 (月) 23 時 51 分 56 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 7, 2020 15:33:18 UTC 2020 年 12 月 8 日 (火) 0 時 33 分 18 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:53:33 UTC 2023 年 11 月 17 日 (金) 19 時 53 分 33 秒 (日本時間)
5043e61792 / 6673Dmitry DomanovDecember 11, 2023 08:35:04 UTC 2023 年 12 月 11 日 (月) 17 時 35 分 4 秒 (日本時間)

67×10252+239

c213

composite cofactor 合成数の残り
223655480169111269153183364126267625876300546942845725301003152339155898533637316538695797883580887535873468574723149248060672489181516282887015816024251589664588431514428014639048259313638569372870457931432139797<213>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:52:30 UTC 2020 年 12 月 7 日 (月) 23 時 52 分 30 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 7, 2020 15:33:56 UTC 2020 年 12 月 8 日 (火) 0 時 33 分 56 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:43:35 UTC 2023 年 11 月 17 日 (金) 19 時 43 分 35 秒 (日本時間)
5043e61792 / 6673NFS@home + Dmitry DomanovDecember 2, 2023 07:54:13 UTC 2023 年 12 月 2 日 (土) 16 時 54 分 13 秒 (日本時間)

67×10253+239

c206

composite cofactor 合成数の残り
60786298033521233162548997635824215245120032992151155677777861210369670113076133432647674233661977456316239462452437503803984657536484015297096776786452975465461545715386950276182103217443186618770141421211<206>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:52:58 UTC 2020 年 12 月 7 日 (月) 23 時 52 分 58 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 7, 2020 15:34:15 UTC 2020 年 12 月 8 日 (火) 0 時 34 分 15 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:43:48 UTC 2023 年 11 月 17 日 (金) 19 時 43 分 48 秒 (日本時間)
5043e61792 / 6673NFS@home + Dmitry DomanovDecember 2, 2023 07:54:21 UTC 2023 年 12 月 2 日 (土) 16 時 54 分 21 秒 (日本時間)

67×10254+239

c211

composite cofactor 合成数の残り
3430910235485124853581668435039572512944433682999732807416506139525398745954585743382830014629156675938265795535806726682425781859654281455493219377431906161139828103472914310352821670096154947766885607626944291<211>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:53:19 UTC 2020 年 12 月 7 日 (月) 23 時 53 分 19 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 7, 2020 15:34:35 UTC 2020 年 12 月 8 日 (火) 0 時 34 分 35 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:43:58 UTC 2023 年 11 月 17 日 (金) 19 時 43 分 58 秒 (日本時間)
5043e61792 / 6673NFS@home + Dmitry DomanovDecember 2, 2023 07:54:32 UTC 2023 年 12 月 2 日 (土) 16 時 54 分 32 秒 (日本時間)

67×10255+239

c202

composite cofactor 合成数の残り
1271286133023988908654377290878925201930530917560713990405286354119868818665827416860923990993944474561645232928869896978753358024690860690977831978984596708116743981230184332445308365441749610629339773<202>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:53:50 UTC 2020 年 12 月 7 日 (月) 23 時 53 分 50 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 7, 2020 15:34:56 UTC 2020 年 12 月 8 日 (火) 0 時 34 分 56 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:44:07 UTC 2023 年 11 月 17 日 (金) 19 時 44 分 7 秒 (日本時間)
5043e61792 / 6673NFS@home + Dmitry DomanovDecember 2, 2023 07:54:41 UTC 2023 年 12 月 2 日 (土) 16 時 54 分 41 秒 (日本時間)

67×10258+239

c254

composite cofactor 合成数の残り
12106815360043136402429096977940117522844386042612737490090933025278126978086483499585206049865984781913791162494603883974786743868394941664123331947374022713469807861226261381084058703237199798412489318445925812688050916567237186788103445690000836635151<254>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:54:30 UTC 2020 年 12 月 7 日 (月) 23 時 54 分 30 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 7, 2020 15:35:52 UTC 2020 年 12 月 8 日 (火) 0 時 35 分 52 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:53:47 UTC 2023 年 11 月 17 日 (金) 19 時 53 分 47 秒 (日本時間)
5043e61792 / 6673Dmitry DomanovDecember 19, 2023 19:23:45 UTC 2023 年 12 月 20 日 (水) 4 時 23 分 45 秒 (日本時間)

67×10259+239

c203

composite cofactor 合成数の残り
21994689418336872814660722488148676882764969215167937766131840415483809611768754292855004047257646617047270522534666945173999730237085063107268722792661875313698268999653668492912520792696184240542666573<203>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:54:53 UTC 2020 年 12 月 7 日 (月) 23 時 54 分 53 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 7, 2020 15:36:12 UTC 2020 年 12 月 8 日 (火) 0 時 36 分 12 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:44:17 UTC 2023 年 11 月 17 日 (金) 19 時 44 分 17 秒 (日本時間)
5043e61792 / 6673Dmitry DomanovDecember 6, 2023 06:17:22 UTC 2023 年 12 月 6 日 (水) 15 時 17 分 22 秒 (日本時間)

67×10260+239

c237

composite cofactor 合成数の残り
109414804407047783143983857979342625521247705515395162068787312102184335700711968176432212324275144605850845129524304703268810932858192077600683270597961508461482018393148992882384953474327531542443322211410683088705783655478087798462779<237>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:55:12 UTC 2020 年 12 月 7 日 (月) 23 時 55 分 12 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 7, 2020 15:36:33 UTC 2020 年 12 月 8 日 (火) 0 時 36 分 33 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:53:57 UTC 2023 年 11 月 17 日 (金) 19 時 53 分 57 秒 (日本時間)
5043e61792 / 6673Dmitry DomanovDecember 10, 2023 17:28:20 UTC 2023 年 12 月 11 日 (月) 2 時 28 分 20 秒 (日本時間)

67×10261+239

c223

composite cofactor 合成数の残り
8351253934656840053716885724239741516812188087612410173598358275794817744925113096236868700092333580097088899249957623748451969537556665657094432016815749788267877674897943417122653698084544394759441238626405206957623603099<223>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:55:46 UTC 2020 年 12 月 7 日 (月) 23 時 55 分 46 秒 (日本時間)
403e60--
4511e642002100Eric JeancolasDecember 8, 2020 00:38:35 UTC 2020 年 12 月 8 日 (火) 9 時 38 分 35 秒 (日本時間)
2100Eric JeancolasDecember 8, 2020 17:50:53 UTC 2020 年 12 月 9 日 (水) 2 時 50 分 53 秒 (日本時間)
5043e61792 / 6604Dmitry DomanovDecember 6, 2023 06:17:17 UTC 2023 年 12 月 6 日 (水) 15 時 17 分 17 秒 (日本時間)

67×10262+239

c242

name 名前Dmitry Domanov
date 日付December 12, 2023 04:37:23 UTC 2023 年 12 月 12 日 (火) 13 時 37 分 23 秒 (日本時間)
composite number 合成数
14394256205469076883565857744384394434133582896073971287624847576097080461930015762078994796576280002953736631372782348586908145080460423723908136931759876215383789966748667467928542875995260673393283573947879248949910126577400312051630722877<242>
prime factors 素因数
4009281613909213769491854677416683150189118694713<49>
3590233261622669499023508561554821389293091633777282519347397247747196519103252358519269266572703889079867081660330249258936199611429741315281206497697270476680955869074051502672858117862907429<193>
factorization results 素因数分解の結果
Resuming ECM residue saved by @a3d9eafbe9ce with GMP-ECM 7.0.5-dev on Mon Dec 11 17:59:43 2023 
Input number is 14394256205469076883565857744384394434133582896073971287624847576097080461930015762078994796576280002953736631372782348586908145080460423723908136931759876215383789966748667467928542875995260673393283573947879248949910126577400312051630722877 (242 digits)
Using B1=43000000-43000000, B2=240490660426, polynomial Dickson(12), sigma=3:1408066816
Step 1 took 0ms
Step 2 took 64196ms
********** Factor found in step 2: 4009281613909213769491854677416683150189118694713
Found prime factor of 49 digits: 4009281613909213769491854677416683150189118694713
Prime cofactor 3590233261622669499023508561554821389293091633777282519347397247747196519103252358519269266572703889079867081660330249258936199611429741315281206497697270476680955869074051502672858117862907429 has 193 digits

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:56:10 UTC 2020 年 12 月 7 日 (月) 23 時 56 分 10 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 8, 2020 17:51:39 UTC 2020 年 12 月 9 日 (水) 2 時 51 分 39 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:54:05 UTC 2023 年 11 月 17 日 (金) 19 時 54 分 5 秒 (日本時間)
5043e61792 / 6673Dmitry DomanovDecember 11, 2023 08:34:34 UTC 2023 年 12 月 11 日 (月) 17 時 34 分 34 秒 (日本時間)

67×10263+239

c214

composite cofactor 合成数の残り
9235176603042427566483160189662700827436482281185940077379984001680061642145169737621026147012952472729404807385821697326010845078340715304484877567606069321257297546311020557306887275589607209301622672903465446681<214>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:56:38 UTC 2020 年 12 月 7 日 (月) 23 時 56 分 38 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 8, 2020 00:32:29 UTC 2020 年 12 月 8 日 (火) 9 時 32 分 29 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:44:35 UTC 2023 年 11 月 17 日 (金) 19 時 44 分 35 秒 (日本時間)
5043e61792 / 6673Dmitry DomanovDecember 6, 2023 06:17:04 UTC 2023 年 12 月 6 日 (水) 15 時 17 分 4 秒 (日本時間)

67×10264+239

c215

name 名前Dmitry Domanov
date 日付November 22, 2023 06:55:25 UTC 2023 年 11 月 22 日 (水) 15 時 55 分 25 秒 (日本時間)
composite number 合成数
11587215411659219749052497678201243697344947762365421464808292081646045496063200826697061849131254131710389947272287753402835026121184377207648608075215872163102812543028477620751250368692293312778754061168259266977<215>
prime factors 素因数
3655243400305092030182595457243252730548760241949<49>
3170025670709663324046968436420711789658423535434687916997610318615916851723930168967427071912584390875745319263407939314890012657515591369978402271337257594871980373<166>
factorization results 素因数分解の結果
Resuming ECM residue saved by @6e668a51a15d with GMP-ECM 7.0.5-dev on Sat Nov 18 08:12:25 2023 
Input number is 11587215411659219749052497678201243697344947762365421464808292081646045496063200826697061849131254131710389947272287753402835026121184377207648608075215872163102812543028477620751250368692293312778754061168259266977 (215 digits)
Using B1=11000000-11000000, B2=35133391030, polynomial Dickson(12), sigma=3:1036664527
Step 1 took 0ms
Step 2 took 17712ms
********** Factor found in step 2: 3655243400305092030182595457243252730548760241949
Found prime factor of 49 digits: 3655243400305092030182595457243252730548760241949
Prime cofactor 3170025670709663324046968436420711789658423535434687916997610318615916851723930168967427071912584390875745319263407939314890012657515591369978402271337257594871980373 has 166 digits

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 8, 2020 00:33:43 UTC 2020 年 12 月 8 日 (火) 9 時 33 分 43 秒 (日本時間)
403e60--
4511e63892 / 44252100Eric JeancolasDecember 8, 2020 00:34:15 UTC 2020 年 12 月 8 日 (火) 9 時 34 分 15 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:44:45 UTC 2023 年 11 月 17 日 (金) 19 時 44 分 45 秒 (日本時間)

67×10265+239

c245

name 名前Eric Jeancolas
date 日付December 7, 2020 15:16:01 UTC 2020 年 12 月 8 日 (火) 0 時 16 分 1 秒 (日本時間)
composite number 合成数
46747652976214449800779248811998919360777053935959068350472799517109406760878643954801942837985198037719159816384820382152649810236440983607962411068291621193354649312878714248416555815008488892925159370981950507085391263326405768845777209596869<245>
prime factors 素因数
1386910615534031779670842986524304695147<40>
33706319969448214051876692183550675789097762942110119356444549303309611705684884163695680477010487447328320894305662826023416114228415381651849715080813203292406637540967597001193742923242194911425976675727<206>
factorization results 素因数分解の結果
GMP-ECM 7.0.4 [configured with GMP 6.1.2, --enable-asm-redc] [ECM]
Input number is 46747652976214449800779248811998919360777053935959068350472799517109406760878643954801942837985198037719159816384820382152649810236440983607962411068291621193354649312878714248416555815008488892925159370981950507085391263326405768845777209596869 (245 digits)
Run 31 out of 2100:
Using B1=11000000, B2=35133391030, polynomial Dickson(12), sigma=1:621702723
Step 1 took 97271ms
Step 2 took 32199ms
********** Factor found in step 2: 1386910615534031779670842986524304695147
Found prime factor of 40 digits: 1386910615534031779670842986524304695147
Prime cofactor 33706319969448214051876692183550675789097762942110119356444549303309611705684884163695680477010487447328320894305662826023416114228415381651849715080813203292406637540967597001193742923242194911425976675727 has 206 digits
software ソフトウェア
GMP-ECM 7.0.4
execution environment 実行環境
Linux Ubuntu 18.04 LTS
Intel(R) Core(TM) i5-3320M CPU @ 2.60GHz

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:56:58 UTC 2020 年 12 月 7 日 (月) 23 時 56 分 58 秒 (日本時間)
403e60 / 1916--
4511e631 / 4425Eric JeancolasDecember 7, 2020 15:14:06 UTC 2020 年 12 月 8 日 (火) 0 時 14 分 6 秒 (日本時間)

67×10267+239

c189

composite cofactor 合成数の残り
154685973745653632831206226487304137018743890057632558746742932429484850522733203055720564483407362720341502872648526885489839807943652485582178855509521417216729762680550580541842162965627<189>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:57:25 UTC 2020 年 12 月 7 日 (月) 23 時 57 分 25 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 8, 2020 00:36:19 UTC 2020 年 12 月 8 日 (火) 9 時 36 分 19 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:44:55 UTC 2023 年 11 月 17 日 (金) 19 時 44 分 55 秒 (日本時間)
5043e61792 / 6673Dmitry DomanovDecember 6, 2023 06:17:10 UTC 2023 年 12 月 6 日 (水) 15 時 17 分 10 秒 (日本時間)

67×10268+239

c243

composite cofactor 合成数の残り
137940310080189723189629269946043942201351440565819052927048231272956564109386164593825448931519614009953756864533811355319326367867763048034574499963254289025588510204322427507199374359521880450949377609836609352655550240631803230956769775249<243>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:57:45 UTC 2020 年 12 月 7 日 (月) 23 時 57 分 45 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 8, 2020 00:40:16 UTC 2020 年 12 月 8 日 (火) 9 時 40 分 16 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:54:14 UTC 2023 年 11 月 17 日 (金) 19 時 54 分 14 秒 (日本時間)
5043e61792 / 6673Dmitry DomanovDecember 10, 2023 22:57:59 UTC 2023 年 12 月 11 日 (月) 7 時 57 分 59 秒 (日本時間)

67×10270+239

c255

composite cofactor 合成数の残り
817117318287361931089428257296295811708951349537528699260352516185593478106377639961423221812404980349832466959757925656041849476387636061088969703286687216679218513882629117304328368143817770429752738067932758561520725164026820025772851134607026191324319<255>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:58:31 UTC 2020 年 12 月 7 日 (月) 23 時 58 分 31 秒 (日本時間)
403e60--
4511e638922100Eric JeancolasDecember 9, 2020 20:20:15 UTC 2020 年 12 月 10 日 (木) 5 時 20 分 15 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:54:22 UTC 2023 年 11 月 17 日 (金) 19 時 54 分 22 秒 (日本時間)
5043e61792 / 6673Dmitry DomanovDecember 19, 2023 19:24:09 UTC 2023 年 12 月 20 日 (水) 4 時 24 分 9 秒 (日本時間)

67×10271+239

c269

composite cofactor 合成数の残り
16386626556118081541810355369677403575708660454423166287573067234084183236725609606965539168928999437474013745200185878151979846895101132389267982488321471372318829945948590016386626556118081541810355369677403575708660454423166287573067234084183236725609606965539168929<269>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:58:53 UTC 2020 年 12 月 7 日 (月) 23 時 58 分 53 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 22:41:06 UTC 2020 年 12 月 13 日 (日) 7 時 41 分 6 秒 (日本時間)
4511e638922100Eric JeancolasDecember 15, 2020 05:08:40 UTC 2020 年 12 月 15 日 (火) 14 時 8 分 40 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:54:32 UTC 2023 年 11 月 17 日 (金) 19 時 54 分 32 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 15, 2023 23:08:15 UTC 2023 年 12 月 16 日 (土) 8 時 8 分 15 秒 (日本時間)

67×10272+239

c244

composite cofactor 合成数の残り
6579316262246097442807316908138602421703998067802428913586658385706900304641580175345633294151752070632130528781796444269910633538182471423706126633739870313689071676164234402129367085188874668463497690961153401431170866562967875382261879010809<244>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:59:13 UTC 2020 年 12 月 7 日 (月) 23 時 59 分 13 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 22:39:33 UTC 2020 年 12 月 13 日 (日) 7 時 39 分 33 秒 (日本時間)
4511e638922100Eric JeancolasDecember 15, 2020 05:09:03 UTC 2020 年 12 月 15 日 (火) 14 時 9 分 3 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:54:40 UTC 2023 年 11 月 17 日 (金) 19 時 54 分 40 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 10, 2023 22:57:48 UTC 2023 年 12 月 11 日 (月) 7 時 57 分 48 秒 (日本時間)

67×10273+239

c266

composite cofactor 合成数の残り
21918183195330710680082252712842403931858000205385153474502966618407767040193956580935534879793124854974619704007085817564343050484076439417886644765605825193323291017182686764414547074240308009123026982438634420205037321721304946746203225905575198156986470143996441<266>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:59:36 UTC 2020 年 12 月 7 日 (月) 23 時 59 分 36 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 22:41:51 UTC 2020 年 12 月 13 日 (日) 7 時 41 分 51 秒 (日本時間)
4511e638922100Eric JeancolasDecember 15, 2020 05:10:03 UTC 2020 年 12 月 15 日 (火) 14 時 10 分 3 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:54:50 UTC 2023 年 11 月 17 日 (金) 19 時 54 分 50 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 17, 2023 19:44:21 UTC 2023 年 12 月 18 日 (月) 4 時 44 分 21 秒 (日本時間)

67×10274+239

c260

name 名前Dmitry Domanov
date 日付November 23, 2023 17:38:01 UTC 2023 年 11 月 24 日 (金) 2 時 38 分 1 秒 (日本時間)
composite number 合成数
17555997147720215052126641812389124572857548751091696301460599366345748625122424628803306593080044625567725873393362023773555363373460680588905517200050420198801788763881556393296446085961053670107310387358122671576893063715136554519321869784877031078838844347<260>
prime factors 素因数
35834283271273405666339175183182078100507197<44>
composite cofactor 合成数の残り
489921816346024152951571896128611563816661262810812580550772933535693811271317427109495055765270208437958505922987871387559813710443483084210787410434028671585074415579892472795509353643113363186630311922129714500951<216>
factorization results 素因数分解の結果
Resuming ECM residue saved by @fc4e8b0b725e with GMP-ECM 7.0.5-dev on Fri Nov 17 16:38:06 2023 
Input number is 17555997147720215052126641812389124572857548751091696301460599366345748625122424628803306593080044625567725873393362023773555363373460680588905517200050420198801788763881556393296446085961053670107310387358122671576893063715136554519321869784877031078838844347 (260 digits)
Using B1=11000000-11000000, B2=35133391030, polynomial Dickson(12), sigma=3:2827951723
Step 1 took 0ms
Step 2 took 10020ms
********** Factor found in step 2: 35834283271273405666339175183182078100507197
Found prime factor of 44 digits: 35834283271273405666339175183182078100507197
Composite cofactor 489921816346024152951571896128611563816661262810812580550772933535693811271317427109495055765270208437958505922987871387559813710443483084210787410434028671585074415579892472795509353643113363186630311922129714500951 has 216 digits

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 14:59:55 UTC 2020 年 12 月 7 日 (月) 23 時 59 分 55 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 22:42:23 UTC 2020 年 12 月 13 日 (日) 7 時 42 分 23 秒 (日本時間)
4511e638922100Eric JeancolasDecember 15, 2020 05:10:26 UTC 2020 年 12 月 15 日 (火) 14 時 10 分 26 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:54:59 UTC 2023 年 11 月 17 日 (金) 19 時 54 分 59 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 6, 2023 21:59:38 UTC 2023 年 12 月 7 日 (木) 6 時 59 分 38 秒 (日本時間)

67×10275+239

c249

composite cofactor 合成数の残り
279445727380290117016371815028031257345422591540315805309989956836669757294025469837351620483141191383105675043095410871549325332945136966595598447358369113006496627465903085792061507372467717213252172515380249133354310633253677811846759055214671909<249>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:00:50 UTC 2020 年 12 月 8 日 (火) 0 時 0 分 50 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 16:07:01 UTC 2020 年 12 月 13 日 (日) 1 時 7 分 1 秒 (日本時間)
4511e638922100Eric JeancolasDecember 15, 2020 05:07:07 UTC 2020 年 12 月 15 日 (火) 14 時 7 分 7 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:55:07 UTC 2023 年 11 月 17 日 (金) 19 時 55 分 7 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 11, 2023 21:37:12 UTC 2023 年 12 月 12 日 (火) 6 時 37 分 12 秒 (日本時間)

67×10277+239

c200

composite cofactor 合成数の残り
96293695048262481883223744113956058415368955582298777836938104119131417971821859040980637787330377613935269808554627652492656075761011788632471703442985256007571785621335814923305767144145249468103347<200>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:01:12 UTC 2020 年 12 月 8 日 (火) 0 時 1 分 12 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 16:07:29 UTC 2020 年 12 月 13 日 (日) 1 時 7 分 29 秒 (日本時間)
4511e638922100Eric JeancolasDecember 15, 2020 05:07:36 UTC 2020 年 12 月 15 日 (火) 14 時 7 分 36 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:45:07 UTC 2023 年 11 月 17 日 (金) 19 時 45 分 7 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 6, 2023 21:59:56 UTC 2023 年 12 月 7 日 (木) 6 時 59 分 56 秒 (日本時間)

67×10278+239

c257

composite cofactor 合成数の残り
42963531286873033578583621208555197250442036297829048976205393173096785020572173156630194826001503580055300980445641536080822868541825970263781558413728277490012582024727751947270113044433434275983642510217767674869829286341650615615655779265882394639656987<257>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:01:38 UTC 2020 年 12 月 8 日 (火) 0 時 1 分 38 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 16:06:25 UTC 2020 年 12 月 13 日 (日) 1 時 6 分 25 秒 (日本時間)
4511e638922100Eric JeancolasDecember 15, 2020 05:11:56 UTC 2020 年 12 月 15 日 (火) 14 時 11 分 56 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:55:16 UTC 2023 年 11 月 17 日 (金) 19 時 55 分 16 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 17, 2023 19:45:11 UTC 2023 年 12 月 18 日 (月) 4 時 45 分 11 秒 (日本時間)

67×10281+239

c226

composite cofactor 合成数の残り
3391240427736929695130574263657098734539249715338267870189350375766874570289077116464720021321564429906830929683671814550436850608791107165797919059235620443750556318597410092417277019464952957275870347066928753510903512442887<226>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:02:02 UTC 2020 年 12 月 8 日 (火) 0 時 2 分 2 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 10:42:31 UTC 2020 年 12 月 12 日 (土) 19 時 42 分 31 秒 (日本時間)
4511e638922100Eric JeancolasDecember 15, 2020 05:11:36 UTC 2020 年 12 月 15 日 (火) 14 時 11 分 36 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:45:19 UTC 2023 年 11 月 17 日 (金) 19 時 45 分 19 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 8, 2023 23:30:30 UTC 2023 年 12 月 9 日 (土) 8 時 30 分 30 秒 (日本時間)

67×10282+239

c257

composite cofactor 合成数の残り
52966345972646873498190482028299393467579528759160806255790838668727840204699162014922826759333682391918543574771211060481505799832375622526550378594826521289878836702283123156765512915130416097508879474338005439294300982564160420793713144480240928362330377<257>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:02:19 UTC 2020 年 12 月 8 日 (火) 0 時 2 分 19 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 01:05:50 UTC 2020 年 12 月 12 日 (土) 10 時 5 分 50 秒 (日本時間)
4511e638922100Eric JeancolasDecember 22, 2020 21:58:58 UTC 2020 年 12 月 23 日 (水) 6 時 58 分 58 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:55:25 UTC 2023 年 11 月 17 日 (金) 19 時 55 分 25 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 17, 2023 19:45:22 UTC 2023 年 12 月 18 日 (月) 4 時 45 分 22 秒 (日本時間)

67×10283+239

c246

composite cofactor 合成数の残り
127570341241035772788777164848610465570747360317066702836676143054254043726584296634714556586913131783669497082520886756437912925078817390434618287501566612524934994673215636804948724352411816061748944262421048622983984181299171502747349199714339<246>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:02:40 UTC 2020 年 12 月 8 日 (火) 0 時 2 分 40 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 10:43:41 UTC 2020 年 12 月 12 日 (土) 19 時 43 分 41 秒 (日本時間)
4511e638922100Eric JeancolasDecember 22, 2020 21:58:24 UTC 2020 年 12 月 23 日 (水) 6 時 58 分 24 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:55:34 UTC 2023 年 11 月 17 日 (金) 19 時 55 分 34 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 10, 2023 22:57:36 UTC 2023 年 12 月 11 日 (月) 7 時 57 分 36 秒 (日本時間)

67×10284+239

c278

composite cofactor 合成数の残り
54044774224043482715267212326906385247299570175457488812146922767589652193887515062661729491014463406013149029037636078994197390052017127224536346857037851257859451208551257794113496429652986651755471466726693471422732633976208828943070630316861365385724047076289433900591316781<278>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:03:02 UTC 2020 年 12 月 8 日 (火) 0 時 3 分 2 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 00:45:10 UTC 2020 年 12 月 12 日 (土) 9 時 45 分 10 秒 (日本時間)
4511e638922100Eric JeancolasDecember 22, 2020 21:57:59 UTC 2020 年 12 月 23 日 (水) 6 時 57 分 59 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:55:46 UTC 2023 年 11 月 17 日 (金) 19 時 55 分 46 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 15, 2023 23:08:06 UTC 2023 年 12 月 16 日 (土) 8 時 8 分 6 秒 (日本時間)

67×10285+239

c240

composite cofactor 合成数の残り
117244177784478493042858211520337566622964002830455911242709613652682985217029844897675669964750911029721954799134780314385151367684657274387141777844282274931900066559711165078694445839264723783402577437981542112535337215681596635398642763<240>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:03:34 UTC 2020 年 12 月 8 日 (火) 0 時 3 分 34 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 13:45:30 UTC 2020 年 12 月 12 日 (土) 22 時 45 分 30 秒 (日本時間)
4511e638922100Eric JeancolasDecember 22, 2020 21:57:33 UTC 2020 年 12 月 23 日 (水) 6 時 57 分 33 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:56:33 UTC 2023 年 11 月 17 日 (金) 19 時 56 分 33 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 10, 2023 17:28:34 UTC 2023 年 12 月 11 日 (月) 2 時 28 分 34 秒 (日本時間)

67×10286+239

c255

composite cofactor 合成数の残り
238150339041772897916455340755328779331298246580204969896081543531076054405049547996410580612399234101049792317292821917656868103631245685857999344032977028673080217326084522819623592197961484204102847863740310963018023078141759634896464780635600229428309<255>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:03:53 UTC 2020 年 12 月 8 日 (火) 0 時 3 分 53 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 10:41:43 UTC 2020 年 12 月 12 日 (土) 19 時 41 分 43 秒 (日本時間)
4511e638922100Eric JeancolasDecember 22, 2020 21:57:01 UTC 2020 年 12 月 23 日 (水) 6 時 57 分 1 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:57:13 UTC 2023 年 11 月 17 日 (金) 19 時 57 分 13 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 18, 2023 00:24:11 UTC 2023 年 12 月 18 日 (月) 9 時 24 分 11 秒 (日本時間)

67×10287+239

c256

composite cofactor 合成数の残り
3042238077736101186988435518614011430952393773467543907477317701853433774226585838778102132511575966585563509896046695301468339084462874253503461616695384369902669091902348535687176326406245684824543617717223921446438942851652313553339093367544689358168769<256>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:04:20 UTC 2020 年 12 月 8 日 (火) 0 時 4 分 20 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 01:06:20 UTC 2020 年 12 月 12 日 (土) 10 時 6 分 20 秒 (日本時間)
4511e638922100Eric JeancolasDecember 22, 2020 21:56:26 UTC 2020 年 12 月 23 日 (水) 6 時 56 分 26 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:57:04 UTC 2023 年 11 月 17 日 (金) 19 時 57 分 4 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 18, 2023 00:23:52 UTC 2023 年 12 月 18 日 (月) 9 時 23 分 52 秒 (日本時間)

67×10288+239

c255

composite cofactor 合成数の残り
278613851766271860670559671628095288740353740472077393336021996396085565730634057481986527108108469749298567868724740944080433904935327795027759736529551424067954972369878373880356322086966445912273497858806015231760968263382116005999677586087072795499007<255>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:04:49 UTC 2020 年 12 月 8 日 (火) 0 時 4 分 49 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 10:41:56 UTC 2020 年 12 月 12 日 (土) 19 時 41 分 56 秒 (日本時間)
4511e638922100Eric JeancolasDecember 22, 2020 21:55:48 UTC 2020 年 12 月 23 日 (水) 6 時 55 分 48 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:56:54 UTC 2023 年 11 月 17 日 (金) 19 時 56 分 54 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 18, 2023 00:24:01 UTC 2023 年 12 月 18 日 (月) 9 時 24 分 1 秒 (日本時間)

67×10289+239

c233

composite cofactor 合成数の残り
21711971102063356717632033035520596097568608002624868426811547626178671078108064072064480329217240736212238208547454882609649497844826917250209871696294045363700670058951215163069078968607568618587929639419883862421053542738523262301<233>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:05:08 UTC 2020 年 12 月 8 日 (火) 0 時 5 分 8 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 10:44:04 UTC 2020 年 12 月 12 日 (土) 19 時 44 分 4 秒 (日本時間)
4511e638922100Eric JeancolasDecember 22, 2020 21:54:58 UTC 2020 年 12 月 23 日 (水) 6 時 54 分 58 秒 (日本時間)
1792Dmitry DomanovNovember 17, 2023 10:56:44 UTC 2023 年 11 月 17 日 (金) 19 時 56 分 44 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 10, 2023 17:28:43 UTC 2023 年 12 月 11 日 (月) 2 時 28 分 43 秒 (日本時間)

67×10290+239

c272

composite cofactor 合成数の残り
63490973599509038695927410213428861139237454028146312157099230841200346391570223961969661089444746347908019865269589935272733273781182961763003296043466257534918603984530488346588647771066849677600272246380694167330442767352540216389545145771190810471973531715567763478491<272>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:05:24 UTC 2020 年 12 月 8 日 (火) 0 時 5 分 24 秒 (日本時間)
403e61000Dmitry DomanovDecember 11, 2020 08:35:54 UTC 2020 年 12 月 11 日 (金) 17 時 35 分 54 秒 (日本時間)
4511e638922100Eric JeancolasDecember 30, 2020 09:07:43 UTC 2020 年 12 月 30 日 (水) 18 時 7 分 43 秒 (日本時間)
1792Dmitry DomanovNovember 27, 2023 19:23:37 UTC 2023 年 11 月 28 日 (火) 4 時 23 分 37 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 15, 2023 23:07:57 UTC 2023 年 12 月 16 日 (土) 8 時 7 分 57 秒 (日本時間)

67×10291+239

c226

name 名前Dmitry Domanov
date 日付December 15, 2023 21:10:11 UTC 2023 年 12 月 16 日 (土) 6 時 10 分 11 秒 (日本時間)
composite number 合成数
4206254988295558982003803973925222586712862231667213622075320522251504524475981973324886766067514159353861857880431000438330525395532106169914913872789762541283928752443924295480821590242627056523712245343450340973252201735817<226>
prime factors 素因数
26210576622466882773560345741994722324119907<44>
composite cofactor 合成数の残り
160479299974274101314457993705658935699008863178031783306261511252574956815881365642714693880356599060941493956297901053802705996153358811708649708695334979592885071874627865083204131<183>
factorization results 素因数分解の結果
Resuming ECM residue saved by @3c06c76291de with GMP-ECM 7.0.5-dev on Sun Dec 10 17:45:12 2023 
Input number is 4206254988295558982003803973925222586712862231667213622075320522251504524475981973324886766067514159353861857880431000438330525395532106169914913872789762541283928752443924295480821590242627056523712245343450340973252201735817 (226 digits)
Using B1=43000000-43000000, B2=240490660426, polynomial Dickson(12), sigma=3:1023552902
Step 1 took 0ms
Step 2 took 57740ms
********** Factor found in step 2: 26210576622466882773560345741994722324119907
Found prime factor of 44 digits: 26210576622466882773560345741994722324119907
Composite cofactor 160479299974274101314457993705658935699008863178031783306261511252574956815881365642714693880356599060941493956297901053802705996153358811708649708695334979592885071874627865083204131 has 183 digits

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:05:42 UTC 2020 年 12 月 8 日 (火) 0 時 5 分 42 秒 (日本時間)
403e61000Dmitry DomanovDecember 12, 2020 10:43:09 UTC 2020 年 12 月 12 日 (土) 19 時 43 分 9 秒 (日本時間)
4511e642002100Eric JeancolasDecember 30, 2020 09:08:06 UTC 2020 年 12 月 30 日 (水) 18 時 8 分 6 秒 (日本時間)
2100Eric JeancolasDecember 30, 2020 09:10:56 UTC 2020 年 12 月 30 日 (水) 18 時 10 分 56 秒 (日本時間)
5043e61792 / 6566Dmitry DomanovDecember 8, 2023 23:31:01 UTC 2023 年 12 月 9 日 (土) 8 時 31 分 1 秒 (日本時間)

67×10293+239

c287

composite cofactor 合成数の残り
16407169285506787497779124341098182922898565656119969280587575309611059456689420986122740304550023207451188102022354787742152891108156890083849965095951293197288122168644488478837975508019284379468037990609471754508312387439013051856638827153241205314636722338714348564938734858506078113<287>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:06:05 UTC 2020 年 12 月 8 日 (火) 0 時 6 分 5 秒 (日本時間)
403e61000Dmitry DomanovDecember 9, 2020 22:19:47 UTC 2020 年 12 月 10 日 (木) 7 時 19 分 47 秒 (日本時間)
4511e638922100Eric JeancolasDecember 30, 2020 09:07:06 UTC 2020 年 12 月 30 日 (水) 18 時 7 分 6 秒 (日本時間)
1792Dmitry DomanovNovember 27, 2023 19:24:21 UTC 2023 年 11 月 28 日 (火) 4 時 24 分 21 秒 (日本時間)
5043e61792 / 6635NFS@home + Dmitry DomanovDecember 1, 2023 23:07:01 UTC 2023 年 12 月 2 日 (土) 8 時 7 分 1 秒 (日本時間)

67×10294+239

c253

composite cofactor 合成数の残り
1187970029336734301855140675098293757294153669449638205301957132497819146827546478254501893894917802912311788592527003984465987563110847973854496582560116577439686485759069267503471890632108914923709039277197057481333271023912112498754975362284079292337<253>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:06:27 UTC 2020 年 12 月 8 日 (火) 0 時 6 分 27 秒 (日本時間)
403e61000Dmitry DomanovDecember 11, 2020 17:50:18 UTC 2020 年 12 月 12 日 (土) 2 時 50 分 18 秒 (日本時間)
4511e638922100Eric JeancolasDecember 30, 2020 09:06:31 UTC 2020 年 12 月 30 日 (水) 18 時 6 分 31 秒 (日本時間)
1792Dmitry DomanovNovember 27, 2023 19:24:35 UTC 2023 年 11 月 28 日 (火) 4 時 24 分 35 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 18, 2023 00:23:40 UTC 2023 年 12 月 18 日 (月) 9 時 23 分 40 秒 (日本時間)

67×10295+239

c284

composite cofactor 合成数の残り
23270580304819178083223468939469660871515002119552786138063276725762272554171589660348056119905071236421296421702233586503183898291728212700187672393736411734322918183002040717440918146563777331555776355809072044570118245858063110158628675567597317871680310931634053328970049475676689<284>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:06:48 UTC 2020 年 12 月 8 日 (火) 0 時 6 分 48 秒 (日本時間)
403e61000Dmitry DomanovDecember 9, 2020 22:20:24 UTC 2020 年 12 月 10 日 (木) 7 時 20 分 24 秒 (日本時間)
4511e638922100Eric JeancolasDecember 30, 2020 09:04:48 UTC 2020 年 12 月 30 日 (水) 18 時 4 分 48 秒 (日本時間)
1792Dmitry DomanovNovember 27, 2023 19:24:48 UTC 2023 年 11 月 28 日 (火) 4 時 24 分 48 秒 (日本時間)
5043e61792 / 6635NFS@home + Dmitry DomanovDecember 1, 2023 23:06:50 UTC 2023 年 12 月 2 日 (土) 8 時 6 分 50 秒 (日本時間)

67×10296+239

c249

composite cofactor 合成数の残り
342177993716975342594083235657994440201367454673270441426718243401794013799227989524607487201823568441868605052763152824995376918758724121165608271769219883206821408573563627308666972925118319014103078531373058129865378442394184276697846673275940477<249>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:07:25 UTC 2020 年 12 月 8 日 (火) 0 時 7 分 25 秒 (日本時間)
403e61000Dmitry DomanovDecember 11, 2020 17:50:44 UTC 2020 年 12 月 12 日 (土) 2 時 50 分 44 秒 (日本時間)
4511e638922100Eric JeancolasDecember 30, 2020 09:05:35 UTC 2020 年 12 月 30 日 (水) 18 時 5 分 35 秒 (日本時間)
1792Dmitry DomanovNovember 27, 2023 19:24:59 UTC 2023 年 11 月 28 日 (火) 4 時 24 分 59 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 11, 2023 21:37:27 UTC 2023 年 12 月 12 日 (火) 6 時 37 分 27 秒 (日本時間)

67×10297+239

c271

name 名前Dmitry Domanov
date 日付December 16, 2023 07:24:19 UTC 2023 年 12 月 16 日 (土) 16 時 24 分 19 秒 (日本時間)
composite number 合成数
8435677836857617495342769824342365534168322188416708974785757591559321751901342884428556098761207380109843913566979488292774421395007715973402014055636262355996531707731935140085018383584708475021353888363678450967125252403859378653164908566193124167284611991832701595871<271>
prime factors 素因数
51824070500456847231221701543097048899474382581<47>
composite cofactor 合成数の残り
162775284831847665403975096590752413585156542942941955050736998971032053167151878683071394576771527071095227958617022033066542557825062687414428455421783693993400951576604466062898267527217816069535603403229007944043514201091<225>
factorization results 素因数分解の結果
Resuming ECM residue saved by @50b1db03e144 with GMP-ECM 7.0.5-dev on Fri Dec 15 22:58:25 2023 
Input number is 8435677836857617495342769824342365534168322188416708974785757591559321751901342884428556098761207380109843913566979488292774421395007715973402014055636262355996531707731935140085018383584708475021353888363678450967125252403859378653164908566193124167284611991832701595871 (271 digits)
Using B1=43000000-43000000, B2=240490660426, polynomial Dickson(12), sigma=3:1279583774
Step 1 took 0ms
Step 2 took 67355ms
********** Factor found in step 2: 51824070500456847231221701543097048899474382581
Found prime factor of 47 digits: 51824070500456847231221701543097048899474382581
Composite cofactor 162775284831847665403975096590752413585156542942941955050736998971032053167151878683071394576771527071095227958617022033066542557825062687414428455421783693993400951576604466062898267527217816069535603403229007944043514201091 has 225 digits

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:08:08 UTC 2020 年 12 月 8 日 (火) 0 時 8 分 8 秒 (日本時間)
403e61000Dmitry DomanovDecember 11, 2020 08:35:11 UTC 2020 年 12 月 11 日 (金) 17 時 35 分 11 秒 (日本時間)
4511e638922100Eric JeancolasDecember 30, 2020 09:03:50 UTC 2020 年 12 月 30 日 (水) 18 時 3 分 50 秒 (日本時間)
1792Dmitry DomanovNovember 27, 2023 19:25:19 UTC 2023 年 11 月 28 日 (火) 4 時 25 分 19 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 15, 2023 21:52:39 UTC 2023 年 12 月 16 日 (土) 6 時 52 分 39 秒 (日本時間)

67×10298+239

c279

composite cofactor 合成数の残り
109295557168231048780537053039993776812242950339188945079767844817849796467394113936763792230442210828960930937628957666439925888206686409800281820765820974173137181172015374167147189420978871418856279704372224075166500231728394315284576111979012804652842485734022782789335287891<279>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:08:28 UTC 2020 年 12 月 8 日 (火) 0 時 8 分 28 秒 (日本時間)
403e61000Dmitry DomanovDecember 9, 2020 23:12:45 UTC 2020 年 12 月 10 日 (木) 8 時 12 分 45 秒 (日本時間)
4511e638922100Eric JeancolasDecember 30, 2020 09:04:11 UTC 2020 年 12 月 30 日 (水) 18 時 4 分 11 秒 (日本時間)
1792Dmitry DomanovNovember 27, 2023 19:25:34 UTC 2023 年 11 月 28 日 (火) 4 時 25 分 34 秒 (日本時間)
5043e61792 / 6635Dmitry DomanovDecember 6, 2023 22:00:28 UTC 2023 年 12 月 7 日 (木) 7 時 0 分 28 秒 (日本時間)

67×10300+239

c278

composite cofactor 合成数の残り
71487622656834997505615837204151325673168216761149897288597612169906020802303302635163170502379060956540541829705270136162150798471709879588710543995735874362472146585828854052080752367396193639226052014992017725605563772376009379101733331088090853259918544010438986012395279189<278>

ECM

level レベルB1reported runs 報告された回数name 名前date 日付
2011e374Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
255e4214Makoto KamadaDecember 7, 2020 12:00:00 UTC 2020 年 12 月 7 日 (月) 21 時 0 分 0 秒 (日本時間)
3025e40--
351e61200Eric JeancolasDecember 7, 2020 15:08:47 UTC 2020 年 12 月 8 日 (火) 0 時 8 分 47 秒 (日本時間)
403e61000Dmitry DomanovDecember 8, 2020 08:57:41 UTC 2020 年 12 月 8 日 (火) 17 時 57 分 41 秒 (日本時間)
4511e62000Dmitry DomanovDecember 8, 2020 16:04:54 UTC 2020 年 12 月 9 日 (水) 1 時 4 分 54 秒 (日本時間)
5043e62432 / 7060640Dmitry DomanovDecember 9, 2020 22:21:12 UTC 2020 年 12 月 10 日 (木) 7 時 21 分 12 秒 (日本時間)
1792Dmitry DomanovDecember 25, 2023 22:01:04 UTC 2023 年 12 月 26 日 (火) 7 時 1 分 4 秒 (日本時間)