Contribution and Reservation

(83·10¹⁸⁷+61)/9 =: 9(2)₁₈₆9_<188>; = 3 · 11 · 92051 · 30067547 · 84311270917687423566615482497229_<32> · [11975936863183358248554497011506440623051685644174883289393187724496404341718218435134527037287517064098894745988460538796464883046662025611401_<143>] (Wataru Sakai / GMP-ECM 6.0.1 B1=11000000, sigma=2282590779 for P32 / Mar 9, 2006) SUBMIT/RESERVE

Status

Expression:	(83·10¹⁸⁷+61)/9
Composite Factor:	119759368631833582485544970115064406230516856441748832893931 877244964043417182184351345270372875170640988947459884605387 96464883046662025611401 (143-digit)
Status:	Not factored. Not reserved. You can submit its factors or reserve it for submitting in the future.

How to factor it

ECM, P-1, P+1

Look for prime factors by GMP-ECM first. Refer to the section "Efforts by ECM". Not only ECM but also P-1/P+1 may be helpful.

SNFS

Use GGNFS and/or Msieve if GMP-ECM cannot find a factor. The SNFS difficulty of this composite number is 189.82-digit and the GNFS difficulty is 142.08-digit. SNFS must be faster than GNFS. It will take about 9 CPU-days to factor this composite number on 64-bit Opteron-2600MHz.

Put factMsieve.pl to which $GGNFS_BIN_PATH and $NUM_CPUS were modified properly in the working directory 92229_187.
Put the following polynomial file 92229_187.poly in there too.
And then, run "perl factMsieve.pl 92229_187".

92229_187.poly ^*1

n: 11975936863183358248554497011506440623051685644174883289393187724496404341718218435134527037287517064098894745988460538796464883046662025611401
m: 20000000000000000000000000000000000000
deg: 5
c5: 2075
c0: 488
skew: 0.75
type: snfs
lss: 1
rlim: 10200000
alim: 10200000
lpbr: 28
lpba: 28
mfbr: 54
mfba: 54
rlambda: 2.5
alambda: 2.5

*1 These parameters were not fully adjusted. The approximate expressions which were used for making the parameters are: deg=expt<=105?4:expt<=210?5:6 or expt<=144?4:6; d=log10(c[deg])+deg*log10(m)[digits]; time=10^(d/30-4)[hours]; skew=|c0/c[deg]|^(1/deg); rlim=round(7*10^(d/60+3)); lpbr=floor(d/25+21); mfbr=floor(d/8+31); rlambda=floor(d/25+18)/10;

Efforts by ECM

The efforts by ECM to find small factors of this 143-digit composite number so far are as follows. According to the reports, unknown prime factors of this composite number are probably 20-digit or more. Please report your efforts by ECM. (Anonymous reports are not acceptable)

Level	B1	Reported runs Total / Required runs (Required runs for lower level)	Name
20	11e3	74	Max Dettweiler	Mar 6, 2009
20	11e3	74 / 74
25	5e4	0 / 204
25	5e4	/ 204
30	25e4	0 / 430 (48)
30	25e4	/ 430 (48)
35	1e6	0 / 904 (118)
35	1e6	/ 904 (118)
40	3e6	0 / 2350 (322)
40	3e6	/ 2350 (322)

Command line to find prime factors up to about 25-digit

echo 11975936863183358248554497011506440623051685644174883289393187724496404341718218435134527037287517064098894745988460538796464883046662025611401 | ecm -n -c 204 5e4

Command line to find prime factors up to about 30-digit

echo 11975936863183358248554497011506440623051685644174883289393187724496404341718218435134527037287517064098894745988460538796464883046662025611401 | ecm -n -c 430 25e4

Command line to find prime factors up to about 35-digit

echo 11975936863183358248554497011506440623051685644174883289393187724496404341718218435134527037287517064098894745988460538796464883046662025611401 | ecm -n -c 904 1e6

Command line to find prime factors up to about 40-digit

echo 11975936863183358248554497011506440623051685644174883289393187724496404341718218435134527037287517064098894745988460538796464883046662025611401 | ecm -n -c 2350 3e6

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