Recent changes of Phin10.txt

# Recent changes of Phin10.txt
#   # note
#   -- date (name) --
#   n=... details

-- May 26, 2012 (Kurt Beschorner) --

n=2923: c2804(3078923061......) = 70214172593300381289706186013 * c2775(4385044995......)
# ECM B1=1e6, sigma=948909098
n=2939: c2906(6195233127......) = 6444879122514749266530495806867 * c2875(9612644410......)
# ECM B1=1e6, sigma=974712643
n=2941: c2731(7353374669......) = 8252809180417323588936656933 * c2703(8910147452......)
# ECM B1=1e6, sigma=608431441
n=2951: c2678(2394418933......) = 1793392925247754151225772956256169 * c2645(1335133478......)
# ECM B1=1e6, sigma=3954214399
n=14860L: c2968(3576409999......) = 2488780743440597032917202389845101 * c2935(1437012886......)
# ECM B1=1e6, sigma=2032575349

-- May 25, 2012 (Kurt Beschorner) --

n=12481: c10644(2169609165......) = 39038402888210018306501041 * c10618(5557627887......)
# ECM B1=5e4, sigma=2377774481
n=1068: c349(9448072871......) = 833845535443385228657693694666672878355349 * c308(1133072310......)
# ECM B1=11e7, sigma=3174974279
n=14780M: c2902(7901003041......) = 36990644071321356338684921501 * c2874(2135946329......)
# ECM B1=1e6, sigma=3683116053

-- May 25, 2012 (Serge Batalov) --

n=99888: c33256(2285938561......) = 507158594659660735799020236772273 * c33223(4507344616......)
# ECM B1=1000000, B2=200000000, sigma=8564762573105149
# 507158594659660735799020236772273 is the largest known factor that appears after n=86452.

Largest known factors that appear after the previous one
  1  n=786: 22470645744200057762885095342697894721605325430609487291715500041029950763944163993319007373686738769124162721892380653 (Serge Batalov and Bruce Dodson / Aug 12, 2009)
  2  n=1180M: 75037358034332057078790154693096980495187922731710294362515981973078279750268757439593899891657607361 (NFS@Home / Jan 2, 2012)
  3  n=1220M: 27186363592392725942593454290345801336551729326489701011779461 (Shaopu Lin / Sep 7, 2007)
  4  n=1980L: 53125155761987678805593513985958923168195287588798092019101 (Yousuke Koide / Jan 8, 2012)
  5  n=5100L: 185898550709887865845976723509058449254706894935901 (Frank Boerner / Jun 28, 2010)
  6  n=13980M: 21166873440679239162423181074773929272724025103001 (Kurt Beschorner / Jul 14, 2011)
  7  n=82700L: 7732652742988151960568776872507813340801 (Alfred Reich / Dec 12, 2010)
  8  n=86452: 570418256605571430441854761295221 (Maksym Voznyy / Apr 27, 2012)
  9  n=99888: 507158594659660735799020236772273 (Serge Batalov / May 25, 2012)
  10  n=99964: 631238272453319833476562669 (Serge Batalov / May 16, 2012)
  11  n=100000: 10667937242260969298800001 (Serge Batalov / May 15, 2011)


-- May 24, 2012 (Serge Batalov) --

n=99890: c34209(1648529901......) = 11921759476470866184961 * c34187(1382790773......)
# ECM B1=1000000, B2=200000000, sigma=36914556285894

-- May 23, 2012 (Serge Batalov) --

n=33302: c16643(6120714331......) = 698228845382512022138407 * x16619(8766057678......)
# ECM B1=1000000, B2=200000000, sigma=7883209601122390
n=33302: x16619(8766057678......) = 78702953844147827872969 * c16597(1113815587......)
# ECM B1=1000000, B2=200000000, sigma=350103480874809

-- May 16, 2012 (Serge Batalov) --

n=33326: c15758(2912997458......) = 20446761567925431493 * x15739(1424674244......)
# ECM B1=1000000, B2=200000000, sigma=5376208582445300
n=33326: x15739(1424674244......) = 12301421739006195507253 * c15717(1158137876......)
# ECM B1=1000000, B2=200000000, sigma=1220026326005701
n=99964: c49105(1009999999......) = 631238272453319833476562669 * c49078(1600029725......)
# ECM B1=1000000, B2=200000000, sigma=6324107506428490
# 631238272453319833476562669 is the largest known factor that appears after n=99380M.

Largest known factors that appear after the previous one
  1  n=786: 22470645744200057762885095342697894721605325430609487291715500041029950763944163993319007373686738769124162721892380653 (Serge Batalov and Bruce Dodson / Aug 12, 2009)
  2  n=1180M: 75037358034332057078790154693096980495187922731710294362515981973078279750268757439593899891657607361 (NFS@Home / Jan 2, 2012)
  3  n=1220M: 27186363592392725942593454290345801336551729326489701011779461 (Shaopu Lin / Sep 7, 2007)
  4  n=1980L: 53125155761987678805593513985958923168195287588798092019101 (Yousuke Koide / Jan 8, 2012)
  5  n=5100L: 185898550709887865845976723509058449254706894935901 (Frank Boerner / Jun 28, 2010)
  6  n=13980M: 21166873440679239162423181074773929272724025103001 (Kurt Beschorner / Jul 14, 2011)
  7  n=82700L: 7732652742988151960568776872507813340801 (Alfred Reich / Dec 12, 2010)
  8  n=86452: 570418256605571430441854761295221 (Maksym Voznyy / Apr 27, 2012)
  9  n=96769: 232405044211150158012128920618163 (Serge Batalov / Jun 2, 2011)
  10  n=98345: 31476775338259256593745673622081 (Serge Batalov / Jun 2, 2011)
  11  n=99220L: 30847430620382008736997413844941 (Alfred Reich / Dec 19, 2010)
  12  n=99380M: 6592290434322258947071767721 (Alfred Reich / Apr 26, 2010)
  13  n=99964: 631238272453319833476562669 (Serge Batalov / May 16, 2012)
  14  n=100000: 10667937242260969298800001 (Serge Batalov / May 15, 2011)


-- May 15, 2012 (M.Yamaga) --

# via yoyo@home
n=1059: c642(8840498010......) = 18845059790305644506208462756813674936893 * c602(4691148825......)
# ECM B1=110000000, sigma=2302692400

-- May 11, 2012 (Serge Batalov) --

n=5766: c1836(3308332527......) = 104274315198051542548629408277973929 * c1801(3172720454......)
# ECM B1=1000000, sigma=3247336838

-- May 9, 2012 (Serge Batalov) --

n=5882: c2748(3740097242......) = 4568004545617286874649621164767 * c2717(8187595273......)
# ECM B1=500000, B2=100000000, sigma=2603053401920451

-- May 8, 2012 (Serge Batalov) --

n=3376: c1658(5617475722......) = 4141680318531350547940014932753 * c1628(1356327695......)
# ECM B1=3000000, B2=1000000000, sigma=4632880701531239
n=3602: c1769(3284551520......) = 337404209535185765240396972124803971 * c1733(9734767460......)

-- May 7, 2012 (Serge Batalov) --

n=3448: c1708(5836488555......) = 334604559375674569265038978541053577 * c1673(1744294389......)
# ECM B1=500000, B2=100000000 sigma=8011728369711297

-- May 7, 2012 (Maksym Voznyy) --

n=61681: c61681(1111111111......) = 139216722293995279 * c61663(7981161262......)
# mfaktc-repunit
n=61613: c61613(1111111111......) = 36661858208748427 * c61596(3030700475......)
# mfaktc-repunit
n=60353: c60353(1111111111......) = 49937331685150627 * c60336(2225010975......)
# mfaktc
# 74533 of 100000 Phi_n(10) factorizations were cracked.
# 7345 of 9592 R_prime factorizations were cracked.

-- May 6, 2012 (Serge Batalov) --

n=99820M: c15840(3572835377......) = 35301326489630513685208921 * c15815(1012096635......)
# ECM B1=1000000, sigma=924061245
n=98522: c49260(9090909090......) = 1736420748464826317144321167099 * c49230(5235429891......)
# ECM B1=250000, B2=80000000, sigma=2860317445917742
# 74530 of 100000 Phi_n(10) factorizations were cracked.
n=99874: c49906(1482507629......) = 441220927667792572801 * c49885(3360012041......)
n=99870: c26612(9444978746......) = 39431583007184181489702241 * c26587(2395282670......)
# 39431583007184181489702241 is the largest known factor that appears after n=99380M.

Largest known factors that appear after the previous one
  1  n=786: 22470645744200057762885095342697894721605325430609487291715500041029950763944163993319007373686738769124162721892380653 (Serge Batalov and Bruce Dodson / Aug 12, 2009)
  2  n=1180M: 75037358034332057078790154693096980495187922731710294362515981973078279750268757439593899891657607361 (NFS@Home / Jan 2, 2012)
  3  n=1220M: 27186363592392725942593454290345801336551729326489701011779461 (Shaopu Lin / Sep 7, 2007)
  4  n=1980L: 53125155761987678805593513985958923168195287588798092019101 (Yousuke Koide / Jan 8, 2012)
  5  n=5100L: 185898550709887865845976723509058449254706894935901 (Frank Boerner / Jun 28, 2010)
  6  n=13980M: 21166873440679239162423181074773929272724025103001 (Kurt Beschorner / Jul 14, 2011)
  7  n=82700L: 7732652742988151960568776872507813340801 (Alfred Reich / Dec 12, 2010)
  8  n=86452: 570418256605571430441854761295221 (Maksym Voznyy / Apr 27, 2012)
  9  n=96769: 232405044211150158012128920618163 (Serge Batalov / Jun 2, 2011)
  10  n=98345: 31476775338259256593745673622081 (Serge Batalov / Jun 2, 2011)
  11  n=99220L: 30847430620382008736997413844941 (Alfred Reich / Dec 19, 2010)
  12  n=99380M: 6592290434322258947071767721 (Alfred Reich / Apr 26, 2010)
  13  n=99870: 39431583007184181489702241 (Serge Batalov / May 6, 2012)
  14  n=99874: 20466106492496275108462693 (Alfred Reich / Mar 29, 2010)
  15  n=100000: 10667937242260969298800001 (Serge Batalov / May 15, 2011)

n=99878: c49924(4737628956......) = 13586873150252863 * c49908(3486916308......)
n=99914: c49951(3032901215......) = 98327021757497653942607 * c49928(3084504301......)

-- May 5, 2012 (Serge Batalov) --

n=99850: c39912(3492023238......) = 3466896815416536624401 * c39891(1007247525......)
# ECM B1=250000, B2=80000000, sigma=8749721233680630
n=19974: c6637(1381890426......) = 71354110816262539 * c6620(1936665470......)
# ECM B1=250000
n=33310: c13294(4859306436......) = 33961028965749922481 * c13275(1430847823......)
# ECM B1=250000
n=99872: c49920(9999999999......) = 15031176835009 * c49907(6652839035......)
# ECM B1=250000
n=99890: c34224(9091000909......) = 5514610868117891 * c34209(1648529901......)
# ECM B1=250000
# 74529 of 100000 Phi_n(10) factorizations were cracked.

-- May 4, 2012 (Serge Batalov) --

n=99514: c49704(2151758023......) = 773419733239989432211 * c49683(2782134888......)
# ECM B1=250000, B2=80000000, sigma=7320072486933804
n=99574: c49764(3698676264......) = 1627398746517684253 * c49746(2272753541......)
# ECM B1=250000, B2=80000000, sigma=6769561162947175
n=33312: c11060(1485359879......) = 1840675312648142493793 * c11038(8069646339......)
# ECM B1=250000, B2=80000000, sigma=5170465590171823

-- May 3, 2012 (Serge Batalov) --

n=99998: c49976(7883878168......) = 923151458098665458093 * c49955(8540178428......)
# ECM B1=250000, B2=80000000, sigma=2028802673397890

-- May 1, 2012 (Serge Batalov) --

n=99986: c49992(9090909090......) = 9781001521190781949019 * c49970(9294456269......)
# ECM B1=250000, B2=80000000, sigma=663857642663700
n=99266: c49632(9090909090......) = 2987064748903163451463 * c49611(3043425521......)
# ECM B1=250000, B2=80000000, sigma=6586319993065266
n=99662: c49830(9090909090......) = 87947226275228318643011 * c49808(1033677749......)
# ECM B1=250000, B2=80000000, sigma=2025756039529617
# 74527 of 100000 Phi_n(10) factorizations were cracked.

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