bash-2.05a$ cat p252.data 
130439874405488189727484768796509903946608530841611892186895295776832416251471863574140227977573104895898783928842923844831149032913798729088601617946094119449010595906710130531906171018354491609619193912488538116080712299672322806217820753127014424577
bash-2.05a$ xrunecpp -fp252.data
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%                                                          %
%                           ECPP                           %
%                                                          %
%                  by Fran\c{c}ois MORAIN                  %
%                  morain@inria.inria.fr                   %
%                      Version V3.4.1                      %
%                                                          %
%           "3 is prime, 5 is prime, 7 is prime            %
%              so every odd number is prime"               %
%                                                          %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Working on 130439874405488189727484768796509903946608530841611892186895295776832416251471863574140227977573104895898783928842923844831149032913798729088601617946094119449010595906710130531906171018354491609619193912488538116080712299672322806217820753127014424577
% Performing a quick compositeness test
% This number might be prime
% Entering ECPP
% Starting phase 1: building the sequence of primes
% Pmax=1000000
% N_0=130439874405488189727484768796509903946608530841611892186895295776832416251471863574140227977573104895898783928842923844831149032913798729088601617946094119449010595906710130531906171018354491609619193912488538116080712299672322806217820753127014424577
% next D is 0
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.640866
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Factor=760347109
% Performing last gcd in step 2
% Time for step 2 is 1.860623
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.673414
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.980938
% next D is 3
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.669968
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.964485
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.672720
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.977062
% Cofactor after sieve is a probable prime
% D[[0]]=3
% A[[0]]=611635827269645140989796643725974774056700114295615864752091223122067400185078693543786541948460821549409366027766370356014445
% B[[0]]=-221856644722164055527839008766296846071421376937164916213107702433275182082467715979886040697452833916248171980971780084459069
% m[[0]]=130439874405488189727484768796509903946608530841611892186895295776832416251471863574140227977573104895898783928842923844831148421277971459443460628149450393474236539206595834916041418927131369542219008833794994329538763838850773396851792986756658410133
% Factor= 109^1
% Factor= 3^1
% End of depth 0 at 18.796112 s

% Pmax=1000000
% N_1=398898698487731467056528344943455363751096424592085297207630873935267327986152487994312623784627232097549797947531877201318496701155876022762876538683334536618460364546164632770768865220585227957856296127813438316632305317586462987314351641457670979
% next D is 0
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.714912
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 2.078064
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.686029
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.994252
% next D is 3
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.679625
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=22615687
% P-1: entering step 2
% Factor=82422499
% Performing last gcd in step 2
% Time for step 2 is 1.956234
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.636939
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.878477
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.682622
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.998394
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.687543
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 2.015110
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.692669
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 2.030291
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.700519
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 2.046312
% next D is 8
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.701407
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 2.039353
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.680714
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.977909
% next D is 11
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.683737
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Factor=7458949
% Performing last gcd in step 2
% Time for step 2 is 2.046161
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.637251
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.865445
% next D is 163
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.656674
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.909966
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.675352
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.990084
% next D is 15
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.647763
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.888560
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Factor=11879869
% Time for rho is 0.687863
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.764523
% next D is 40
% Cofactor after sieve is a probable prime
% D[[1]]=40
% A[[1]]=12857135509514858961925702335833309183700018000084478459647260579538445953444098849249614218592975843786068574945282016459526
% B[[1]]=5979734234146401335076849405643337661185064413798597340730230116548416533292041783215600313302447813852133701916390523270059
% m[[1]]=398898698487731467056528344943455363751096424592085297207630873935267327986152487994312623784627232097549797947531877201318483844020366507903914612980998703309276664528164548292309217960005689511902852028964188702413712341742676918739406359441211454
% Factor= 1453^1
% Factor= 7^1
% Factor= 2^1
% End of depth 1 at 90.532879 s

% Pmax=1000000
% N_2=19609610583410257942017910969592732462446977907387931236241808766850227508905343033837018178381045723013951329639754065545102932062745379407330381131697901057382590921648045830906952018484204577322920658193107300285798463363616012129554928691437
% next D is 0
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.664000
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.919963
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.590611
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=5542027
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.660831
% next D is 3
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.634350
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.871377
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.661907
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.955834
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.643100
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.874227
% Cofactor after sieve is a probable prime
% D[[2]]=3
% A[[2]]=-212420826028912838922289425010479349349110602435270595285809270989870904121189835548094528133624840735840513333081520756126
% B[[2]]=105381584417195299502116357921166445980244748426029423890549048711254451337901944502174323195641070499199641029545568128068
% m[[2]]=19609610583410257942017910969592732462446977907387931236241808766850227508905343033837018178381045723013951329639754065545315352888774292246252670556708380406731701524083316426192761289474075481444110493741201828419423304099456525462636449447564
% Factor= 241177^1
% Factor= 2707^1
% Factor= 691^1
% Factor= 3^1
% Factor= 2^2
% End of depth 2 at 112.337877 s

% Pmax=1000000
% N_3=3622309304873149556834978952160973004986541895079664516886469588741637815245247297730715321800494792265095757108268300371181284824488860204479002537140706518312699919389668622907634115742039137156331369995549348242702856030180236353
% next D is 0
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.620577
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.809672
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.597040
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.747239
% next D is 3
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.597553
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.756365
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.594501
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.754788
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.593313
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.739715
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.601158
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Factor=939876181
% Time for step 2 is 0.430950
% Factorization completed using p-1
% D[[3]]=3
% A[[3]]=-96609718907976165233073227409649260509798925513266001446923963750659867404508714166768456583897009112460220305066882
% B[[3]]=41455998488415122863097658817148250005409120777268657941270099643699821878631075534880924650672737804964630214606864
% m[[3]]=3622309304873149556834978952160973004986541895079664516886469588741637815245247297730715321800494792265095757108268396980900192800654093277706412186401216317238213185391115546871384775609443645870498138452133245251815316250485303236
% Factor= 939876181^1
% Factor= 3^1
% Factor= 2^2
% End of depth 3 at 135.136761 s

% Pmax=1000000
% N_4=321169016559457984323839616500946752987468063721440391597574133787384295822583402055126248752165401123999736470630237638797036464871508899116220588848076531657366364072793714344892058323287058407262170566356517165159733263
% next D is 0
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.574162
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Factor=133880407
% Performing last gcd in step 2
% Time for step 2 is 1.577430
% Cofactor after sieve is a probable prime
% D[[4]]=1
% Factor= 4969^1
% Factor= 2^4
% End of depth 4 at 139.590292 s

% Pmax=1000000
% N_5=4039658590252792115161999603805428066354750248055951796105530964321094483580491573444433597707856222630304594367959318258163569944550071683389773959147672213440410093489556680731687189616711843520604882350026629668441
% next D is 0
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.557801
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.629389
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.551625
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.620169
% next D is 4
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.542914
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.568355
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.560916
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.631600
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.541690
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.597355
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.505186
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.482317
% next D is 7
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.509005
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Factor=35116019
% Factor=4764341
% Performing last gcd in step 2
% Time for step 2 is 1.566972
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.468645
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.373846
% next D is 8
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.520426
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.524025
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.528952
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=195013459
% Factor=4740257
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.366749
% next D is 11
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.548098
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.607555
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.536134
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.568576
% next D is 19
% Cofactor after sieve is a probable prime
% D[[5]]=19
% A[[5]]=2854194747032947841357512735127036198583895292664656603811040110789557055561255147602805447917689408619001958
% B[[5]]=649380543166481460595071456149318531860802023862782238807283709156398086538331612611746241206491925741180600
% m[[5]]=4039658590252792115161999603805428066354750248055951796105530964321094483580491573444433597707856222630304591513764571225215728587037336556353575375252379548783806282449445891174631628361564240715156964660618010666484
% Factor= 2^2
% End of depth 5 at 182.293071 s

% Pmax=1000000
% N_6=1009914647563198028790499900951357016588687562013987949026382741080273620895122893361108399426964055657576147878441142806303932146759334139088393843813094887195951570612361472793657907090391060178789241165154502666621
% next D is 0
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.538907
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.580652
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.543966
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.586049
% next D is 4
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.535390
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.558883
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.508963
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.499918
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.540337
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.592102
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.498092
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=1631427573509
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.379147
% next D is 11
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.553310
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.618345
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.524482
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Factor=7686589
% Performing last gcd in step 2
% Time for step 2 is 1.441023
% next D is 19
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.514426
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.510253
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.533026
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.560969
% next D is 67
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.510837
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.508629
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.442187
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.300606
% next D is 163
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.541819
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.596663
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.543537
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=1825969
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.515317
% next D is 20
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.513009
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.510882
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.541975
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.594276
% next D is 115
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.522587
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.558976
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.522169
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=726448711
% Factor=44839807
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.372867
% next D is 187
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.529999
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=5789677
% Factor=540670993
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.402743
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.550894
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.612283
% next D is 235
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.542997
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.499099
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.531987
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.545112
% next D is 340
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.537760
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=65454859
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.513223
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Factor=1033007
% Time for rho is 0.590853
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Factor=4042697
% Performing last gcd in step 2
% Time for step 2 is 1.479707
% next D is 1012
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.536955
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.581178
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.505970
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.492442
% next D is 292
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.510501
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=1793419
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.476832
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.540048
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.598365
% next D is 1387
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.516527
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.514105
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.523257
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.534454
% next D is 1507
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.516479
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.525081
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.526618
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=78885196211
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.438216
% next D is 1555
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.542376
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.594646
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Factor=1246579
% Time for rho is 0.595551
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.518441
% next D is 3355
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.511792
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.499480
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.545890
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.587709
% next D is 244
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.534014
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.549783
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.505048
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=4912543
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.469998
% next D is 2515
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.506357
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.504069
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.543945
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.591591
% next D is 1955
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.517313
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.521830
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.505427
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.491668
% next D is 2740
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.540723
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=231735353
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.501848
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Factor=2922107
% Time for rho is 0.545648
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=34123861
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.326782
% next D is 5140
% Cofactor after sieve is a probable prime
% D[[6]]=5140
% A[[6]]=380239118748071105552975149951980571181158599564810669732270365690563566568741981757812910850336068824568032
% B[[6]]=27528113690397599036081856254053117660476103710092259202673784936755973166615188992161379488343369723500933
% m[[6]]=1009914647563198028790499900951357016588687562013987949026382741080273620895122893361108399426964055657576147498202024058232826593784184187107822662654495322385281838341995782230091338348409302365878390829085678098590
% Factor= 1621^1
% Factor= 19^1
% Factor= 5^1
% Factor= 2^1
% End of depth 6 at 336.954625 s

% Pmax=1000000
% N_7=3279050123585824308550601970685272302960120659807097467535902922433434919624412784055029057524478248182006388188584123050205612499705133891060822308044077153106535401610428202961431664496929453442898765638772941
% next D is 0
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.444946
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.297348
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.503726
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.473107
% next D is 4
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.484805
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.418987
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.508828
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=7889641
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.476695
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.506541
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.490946
% Cofactor after sieve is a probable prime
% D[[7]]=4
% A[[7]]=-3621093551420845444298601465200249380129408471510663086859004423773688890377882926920658152794908887363700
% B[[7]]=-31152793621384039490590493395243615002245330340124874673503921528134522071163403616161227746187523675021
% m[[7]]=3279050123585824308550601970685272302960120659807097467535902922433434919624412784055029057524478248182010009282135543895649911101170334140440951716515587816193394406034201891851809547423850111595693674526136642
% Factor= 7^2
% Factor= 293^1
% Factor= 17^1
% Factor= 2^1
% End of depth 7 at 353.793130 s

% Pmax=1000000
% N_8=6717465396231853100046712140184276378729213172928756760456884984232808999963970811645536830823411101332020881968081861882602688381503456277611969804677340867118303442948924058056962472546390798494879879309
% next D is 0
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.467411
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=65887897
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.264542
% Cofactor after sieve is a probable prime
% D[[8]]=1
% Factor= 23671^1
% Factor= 281^1
% Factor= 5^1
% Factor= 2^1
% End of depth 8 at 357.468274 s

% Pmax=1000000
% N_9=100990962802989153958929460815744724481992443159930018734831695408075635291136921473586188105953199506882242682467320206709723617566842023425994475644512698874567802952257662281428233393179888397381
% next D is 0
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.435760
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.290326
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.461636
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.348817
% next D is 3
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.404633
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.444013
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.304202
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.459740
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.356502
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.471725
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=19013377
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.311995
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.437286
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.288077
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.444853
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.307208
% next D is 4
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.445180
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.308813
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Factor=21006673
% Time for rho is 0.472540
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.180723
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.466240
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.365984
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.402762
% next D is 7
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.437893
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.278089
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.420718
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=117766837063
% Factor=49648537
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.047954
% next D is 11
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.447438
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.309986
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.470405
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.381179
% next D is 19
% Cofactor after sieve is a probable prime
% D[[9]]=19
% A[[9]]=512767122500889487838857297750740777812402305394166726132363546723538069074280421578609567271847493
% B[[9]]=86155834727457483516305323838264936177610904853907574747129833407374070075236619274218554673969355
% m[[9]]=100990962802989153958929460815744724481992443159930018734831695408075635291136921473586188105953198994115120181577832367852425866826064211023689081477786566511021079414188588001006654783612616549889
% Factor= 157^1
% Factor= 47^1
% Factor= 19^1
% End of depth 9 at 400.520881 s

% Pmax=1000000
% N_10=720329832190848524325286273391378980763278743803040054884285386039155464591100787252488841776828974073759246949578336587131517370247460510436366940876217477129414764617859986740512940589672089
% next D is 0
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.395516
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.438284
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.288239
% next D is 4
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.368035
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.398931
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.391716
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.421350
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.235033
% next D is 8
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.434237
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.275028
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.438104
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% Factor=67653589121
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.171286
% next D is 19
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.437028
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.283557
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.430952
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Factor=1439131997
% Performing last gcd in step 2
% Time for step 2 is 1.249736
% next D is 43
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.421121
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.235373
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.404029
% next D is 20
% itmax=1000 ngcd=10 b1=5000 b2=50000
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.428832
% Entering P-1 with b1=5000 b2=50000 nbgcd=10
% P-1: entering step 2
% Performing last gcd in step 2
% Time for step 2 is 1.269557
% Cofactor after sieve is a probable prime
% D[[10]]=20
% A[[10]]=-813053863757533948077320280758173175931385737525994556255670454270992464533433120298667916272326
% B[[10]]=-333186340010536710632348673998726374336285554208805600830563745220056650006074393501557097809852
% m[[10]]=720329832190848524325286273391378980763278743803040054884285386039155464591100787252488841776829787127623004483526413907412275543423391896173892935432473147583685757082393419860811608505944416
% Factor= 60821^1
% Factor= 59581^1
% Factor= 3^1
% Factor= 2^5
% End of depth 10 at 426.847055 s

% Pmax=1000000
% N_11=2070612463330347405135246938375408444462924438528230258488128362814480731335533010100852193515214909088620466868844269439768609907885694096597680793227078005769759305534293184240921
% next D is 0
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.369449
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.376208
% next D is 4
% Cofactor after sieve is a probable prime
% D[[11]]=4
% A[[11]]=1184858230405386068906730449789914295145946166982548902189497902492535940605372034427479880
% B[[11]]=1311350527811119489640661237089653348139135103344189401340655806626788767792766865332987389
% m[[11]]=2070612463330347405135246938375408444462924438528230258488128362814480731335533010100852192330356678683234397962113819649854314761939527114048778603729175513233818700162258756761042
% Factor= 2^1
% End of depth 11 at 428.842160 s

% Pmax=1000000
% N_12=1035306231665173702567623469187704222231462219264115129244064181407240365667766505050426096165178339341617198981056909824927157380969763557024389301864587756616909350081129378380521
% next D is 0
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.355002
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.356811
% next D is 4
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.399750
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.412724
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.378709
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.404293
% next D is 8
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.400670
% Cofactor after sieve is a probable prime
% D[[12]]=8
% A[[12]]=-1332861815997478061333885194741293825030151644100647012207700356909796938327524191553515614
% B[[12]]=-543680088162675834649049269249363425518525118446086252103572751014177154168243755280981306
% m[[12]]=1035306231665173702567623469187704222231462219264115129244064181407240365667766505050426097498040155339095260314942104566220982411121407657671401509564944666413847677605320931896136
% Factor= 73^1
% Factor= 59^1
% Factor= 41^1
% Factor= 3^1
% Factor= 2^3
% End of depth 12 at 433.645436 s

% Pmax=1000000
% N_13=244286157263646649755178153258663864986159376413164410282198996671904964141321866145871935056100806622961878166508601182000228029979888963530583015162720704811662164071468297
% next D is 0
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.361669
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.364420
% next D is 3
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.361849
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.376343
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.336417
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.338868
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.370510
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.360724
% next D is 4
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.364467
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.328678
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.339273
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.353469
% next D is 7
% Cofactor after sieve is a probable prime
% D[[13]]=7
% A[[13]]=828300828351707189761485367882887705854985215697257164634321543786102405443043980268790
% B[[13]]=203912574686331937043649425396660883916922086731997286312849078465198097370093679218328
% m[[13]]=244286157263646649755178153258663864986159376413164410282198996671904964141321866145871106755272454915772116681140718294294373044764191706365948693618934602406219120091199508
% Factor= 13^2
% Factor= 359^1
% Factor= 2^2
% End of depth 13 at 441.042830 s

% Pmax=1000000
% N_14=1006601824857207931941035063121853377174265202539781816198014688532845033629418775633626884159122376900710869612915224301125632694220433594163392286343288401403549966587
% next D is 0
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.334470
% Cofactor after sieve is a probable prime
% D[[14]]=1
% Factor= 4397^1
% Factor= 389^1
% Factor= 2^2
% End of depth 14 at 442.206750 s

% Pmax=1000000
% N_15=147126754578695560121477290125052161817251129178953781907565904150125294827306707663151214364889238119925023314697977690608990924260177626683329935510962487481759
% next D is 0
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.319221
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.297667
% next D is 7
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.325807
% Cofactor after sieve is a probable prime
% D[[15]]=7
% A[[15]]=-207255782103157501897107415088012756629748047138332906263403983344272531111526808
% B[[15]]=-279170214103866526736379993442299169659269078049511270065037643728536453616345814
% m[[15]]=147126754578695560121477290125052161817251129178953781907565904150125294827306707870406996468046740017032438402710734320357038062593083890087313279783493599008568
% Factor= 5639^1
% Factor= 23^1
% Factor= 11^1
% Factor= 7^1
% Factor= 2^3
% End of depth 15 at 444.357663 s

% Pmax=1000000
% N_16=1841539388392360357110530174338562760731970905150578510056329895259937207632829172950547831164309391062130406078227063502818583235725093748567631506855459
% next D is 0
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.304320
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.300583
% next D is 7
% itmax=1000 ngcd=10 b1=0 b2=0
% Entering Rho with itmax=1000 nbgcd=10
% Time for rho is 0.300422
% Cofactor after sieve is a probable prime
% D[[16]]=7
% A[[16]]=-83223285389472263286474083419630068433208982693224744109687725235807778094444
% B[[16]]=-7928630962277463001962757016729682583022170928159627689435977741818640274810
% m[[16]]=1841539388392360357110530174338562760731970905150578510056329895259937207632912396235937303427595865145550036146660272485511807979834781473803439284949904
% Factor= 38567^1
% Factor= 29^1
% Factor= 2^4
% End of depth 16 at 446.429667 s

% Pmax=1000000
% N_17=102907534648187276704676175626437978999151661346989660517809685834455645461643574831033929725721151253659665498524526534069673643395035636248530283
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000245
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000277
% next D is 7
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000272
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000245
% next D is 8
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000257
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000257
% next D is 19
% Cofactor after sieve is a probable prime
% D[[17]]=19
% A[[17]]=15551791415498503830776588037097989211641828791124373140624670077967606856
% B[[17]]=2989207977846271796099576718422265301004163863177475321356929558448867722
% m[[17]]=102907534648187276704676175626437978999151661346989660517809685834455645446091783415535425894944563216561676286882697742945300502770365558280923428
% Factor= 2797^1
% Factor= 17^1
% Factor= 2^2
% End of depth 17 at 448.263037 s

% Pmax=30000
% N_18=541060456834987469266841445805579397038589987943961284768395159911121398168688002983950376952956756275429957974314379602858632688228803751293
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000265
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000255
% next D is 4
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000316
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is -0.009625
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000265
% Cofactor after sieve is a probable prime
% D[[18]]=4
% A[[18]]=-46512553281562678155650903942748303565422407972009706071553848137085866
% B[[18]]=-453931319073386011643722016144943762488274474653899916532725470917202
% m[[18]]=541060456834987469266841445805579397038589987943961284768395159911121444681241284546628532603860699023733523396722351612564704242076940837160
% Factor= 397^1
% Factor= 241^1
% Factor= 17^1
% Factor= 5^1
% Factor= 2^3
% End of depth 18 at 448.487789 s

% Pmax=30000
% N_19=8316284398595204042320722569097056902829772044666849134686545846212985060046413584963694215707701264237294773602887405058390458369381
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000270
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000246
% next D is 4
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000267
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is -0.009655
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000261
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000246
% next D is 7
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000251
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000257
% next D is 11
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000269
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000289
% next D is 19
% Cofactor after sieve is a probable prime
% D[[19]]=19
% A[[19]]=4944173527445238709774750683330020322166651435714665797470073455210
% B[[19]]=681341004540253827776189056137863043836486054499374186892110486636
% m[[19]]=8316284398595204042320722569097056902829772044666849134686545846208040886518968346253919465024371243915128122167172739260920384914172
% Factor= 61^1
% Factor= 11^1
% Factor= 2^2
% End of depth 19 at 448.898552 s

% Pmax=30000
% N_20=3098466616466171401758838513076399740249542490561419200702885933758584532980241559707123496655876022323073070852150797042071678433
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000262
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000241
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000261
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000236
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.003586
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000269
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000201
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000210
% next D is 4
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000220
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000204
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000211
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000216
% next D is 8
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000209
% Cofactor after sieve is a probable prime
% D[[20]]=8
% A[[20]]=-109142503502658525262245087610847974003593013828769253066836556350
% B[[20]]=-7760318896772679917397754681523930829292911396647258826226862148
% m[[20]]=3098466616466171401758838513076399740249542490561419200702885933867727036482900084969368584266723996326666084680920050108908234784
% Factor= 691^1
% Factor= 73^1
% Factor= 2^5
% End of depth 20 at 449.353944 s

% Pmax=22000
% N_21=1919534559097751051780498850854181787022940801103113415577288928758528832347216217419518431860419183736263012633640972303459
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000213
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000208
% next D is 8
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000209
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000204
% next D is 11
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000223
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000198
% next D is 43
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000216
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000215
% next D is 67
% Cofactor after sieve is a probable prime
% D[[21]]=67
% A[[21]]=87611957264918790404989653131574777419272099004384286037758368
% B[[21]]=184600439879482298832823724631448502204138216429612819790494
% m[[21]]=1919534559097751051780498850854181787022940801103113415577288841146571567428425812429865300285641764464164008249354934545092
% Factor= 241^1
% Factor= 89^1
% Factor= 2^2
% End of depth 21 at 449.669320 s

% Pmax=22000
% N_22=22373240700006422814356133745794463460102345110530950342408606941425842316989437880901968626575152273581099448101950377
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000217
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000213
% next D is 4
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000207
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000203
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000282
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000196
% next D is 8
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000633
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000207
% next D is 19
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000209
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000207
% next D is 43
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000204
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000198
% next D is 67
% Cofactor after sieve is a probable prime
% D[[22]]=67
% A[[22]]=265238952070701641821978904467197525403124315482494964789469
% B[[22]]=16902380431338582320551474030941255376542470473853176551229
% m[[22]]=22373240700006422814356133745794463460102345110530950342408341702473771615347615901997501429049749149265616953137160909
% Factor= 19^1
% End of depth 22 at 450.052474 s

% Pmax=22000
% N_23=1177538984210864358650322828726024392636965532133207912758333773814409032386716626420921127844723639435032471217745311
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000207
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000200
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000217
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000200
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000204
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000198
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000190
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000209
% next D is 11
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000208
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000186
% next D is 19
% Cofactor after sieve is a probable prime
% D[[23]]=19
% A[[23]]=42768484405603981941271493880768303715075235655460272146687
% B[[23]]=12313904589380734608874965676481046343599355208705931066315
% m[[23]]=1177538984210864358650322828726024392636965532133207912758291005330003428404775354927040359541008564199377010945598625
% Factor= 3^2
% Factor= 17047^1
% Factor= 23^2
% Factor= 7^1
% Factor= 5^3
% End of depth 23 at 450.346561 s

% Pmax=22000
% N_24=16581396268693846813946065185848433994320933513999906070144753635601207287819957991378348176400600962417181
% next D is 0
% Cofactor after sieve is a probable prime
% D[[24]]=-1
% Factor= 29^1
% Factor= 13^1
% Factor= 5^1
% Factor= 3^1
% Factor= 2^2
% End of depth 24 at 450.388444 s

% Pmax=15000
% N_25=733041391188941061624494482132998850323648696463302655620899807055756290354551635339449521503121174289
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000212
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000221
% next D is 4
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000217
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000191
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000229
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 7
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000214
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000194
% next D is 8
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000195
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000219
% next D is 67
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000197
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000218
% next D is 20
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000193
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 35
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000196
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 40
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000201
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000203
% next D is 115
% Cofactor after sieve is a probable prime
% D[[25]]=115
% A[[25]]=1711854117238045080802977859589613692046469833254659
% B[[25]]=3868542081206634431392598508409545130216528632965
% m[[25]]=733041391188941061624494482132998850323648696463300943766782569010675487376692045725757475033287919631
% Factor= 17^1
% End of depth 25 at 450.762413 s

% Pmax=15000
% N_26=43120081834643591860264381301941108842567570380194173162751915824157381610393649748573969119605171743
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000209
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000189
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000209
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000206
% Cofactor after sieve is a probable prime
% D[[26]]=3
% A[[26]]=254877342028454773843298766942487967982044523282532
% B[[26]]=-189312675979083564017087732950901954951158217417146
% m[[26]]=43120081834643591860264381301941108842567570380193918285409887369383538311626707260605987075081889212
% Factor= 13^2
% Factor= 2^2
% End of depth 26 at 450.875736 s

% Pmax=15000
% N_27=63787103305685786775539025594587439116224216538748399830487999067135411703589803639949685022310487
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000195
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000200
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000199
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000235
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 19
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000213
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000204
% next D is 43
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000199
% Cofactor after sieve is a probable prime
% D[[27]]=43
% A[[27]]=-12318956547953498763087560181602579639733718841759
% B[[27]]=-1550631700175821024325567618658484026771688423287
% m[[27]]=63787103305685786775539025594587439116224216538760718787035952565898499263771406219589418741152247
% Factor= 13^1
% End of depth 27 at 451.093281 s

% Pmax=15000
% N_28=4906700254283522059656848122660572239709555118366209137464304043530653789520877401506878364704019
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000209
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000208
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 8
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000193
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000194
% next D is 11
% itmax=0 ngcd=0 b1=0 b2=0
% Entering Rho with itmax=0 nbgcd=0
% Time for rho is 0.000220
% Cofactor after sieve is a probable prime
% D[[28]]=11
% A[[28]]=-3163977407124703417901644727535553360694235108976
% B[[28]]=-934979240622171003872712660318233575936698996150
% m[[28]]=4906700254283522059656848122660572239709555118369373114871428746948555434248412954867572599812996
% Factor= 53^1
% Factor= 47^1
% Factor= 3^2
% Factor= 2^2
% End of depth 28 at 451.289813 s

% Pmax=15000
% N_29=54715868842092890624658193080206211692198081073747414189654185589773801621932434038846208571
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 8
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 11
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 19
% Cofactor after sieve is a probable prime
% D[[29]]=19
% A[[29]]=12797040063976141668446936713388611622572305928
% B[[29]]=1702926907127550118917152089987646462913192570
% m[[29]]=54715868842092890624658193080206211692198081060950374125678043921326864908543822416273902644
% Factor= 2^2
% End of depth 29 at 451.506425 s

% Pmax=15000
% N_30=13678967210523222656164548270051552923049520265237593531419510980331716227135955604068475661
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 4
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% Cofactor after sieve is a probable prime
% D[[30]]=4
% A[[30]]=-5946062822605299319456875629018569192836178260
% B[[30]]=-2200011690407802775153534217152796227179103181
% m[[30]]=13678967210523222656164548270051552923049520271183656354024810299788591856154524796904653922
% Factor= 277^1
% Factor= 2^1
% End of depth 30 at 451.672751 s

% Pmax=15000
% N_31=24691276553291015624845755000093055817778917457010210025315542057380129704250044759755693
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 4
% itmax=0 ngcd=0 b1=0 b2=0
% Cofactor after sieve is a probable prime
% D[[31]]=4
% A[[31]]=-129007623909264315992379414880750506292523204
% B[[31]]=-143284803090252628248234189204833080963017267
% m[[31]]=24691276553291015624845755000093055817778917586017833934579858049759544585000551052278898
% Factor= 89^1
% Factor= 73^1
% Factor= 2^1
% End of depth 31 at 451.807428 s

% Pmax=14000
% N_32=1900205983784132339914249268900496830674074002310130362827447902859746389487498157017
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 4
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 7
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 8
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 43
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 67
% Cofactor after sieve is a probable prime
% D[[32]]=67
% A[[32]]=1608159298360201332007019933443343712786481
% B[[32]]=273579031835795592655931130747129178909089
% m[[32]]=1900205983784132339914249268900496830674072394150832002626115895839812946143785370537
% Factor= 29^1
% End of depth 32 at 452.041154 s

% Pmax=14000
% N_33=65524344268418356548767216168982649333588703246580413883659168822062515384268461053
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 4
% Cofactor after sieve is a probable prime
% D[[33]]=4
% A[[33]]=98191507438641960494977101789354275632036
% B[[33]]=251224901701941435317205302430371988352277
% m[[33]]=65524344268418356548767216168982649333588605055072975241698673844960726029992829018
% Factor= 13^1
% Factor= 2^1
% End of depth 33 at 452.094306 s

% Pmax=14000
% N_34=2520167087246859867260277544960871128214946348272037509296102840190797154999724193
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 4
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% Cofactor after sieve is a probable prime
% D[[34]]=4
% A[[34]]=-92848365753106630487579843173629446457336
% B[[34]]=-19103987319174859098255694496298372208937
% m[[34]]=2520167087246859867260277544960871128215039196637790615926590420033970784446181530
% Factor= 113^1
% Factor= 17^1
% Factor= 5^1
% Factor= 2^1
% End of depth 34 at 452.228298 s

% Pmax=14000
% N_35=131190374140908894703814552054183817189746964947308204889463322229774637399593
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 4
% Cofactor after sieve is a probable prime
% D[[35]]=4
% A[[35]]=170987862813049044908010597883369891184
% B[[35]]=351967557927666643907474692442263555373
% m[[35]]=131190374140908894703814552054183817189575977084495155844555311631891267508410
% Factor= 661^1
% Factor= 5^1
% Factor= 2^1
% End of depth 35 at 452.274815 s

% Pmax=14000
% N_36=19847257812542949274404622095943088833521327849394123425802619006337559381
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 4
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 7
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 67
% Cofactor after sieve is a probable prime
% D[[36]]=67
% A[[36]]=8553524682825846056575230024410260371
% B[[36]]=304842674140329253724072731311088043
% m[[36]]=19847257812542949274404622095943088824967803166568277369227388981927299011
% Factor= 13267^1
% Factor= 3701^1
% Factor= 523^1
% Factor= 17^1
% End of depth 36 at 452.423555 s

% Pmax=9000
% N_37=45462999604598074953280786401359639308535175356899766084665463
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 43
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 67
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 403
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 667
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 2392
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 23
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 31
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 547
% Cofactor after sieve is a probable prime
% D[[37]]=547
% A[[37]]=13389999627963779269763573823820
% B[[37]]=68409835794976942155886511954
% m[[37]]=45462999604598074953280786401346249308907211577630002510841644
% Factor= 1619^1
% Factor= 2^2
% End of depth 37 at 452.595818 s

% Pmax=9000
% N_38=7020228475076910894577020753759457892048673807540148627369
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% Cofactor after sieve is a probable prime
% D[[38]]=3
% A[[38]]=-76114965493406197784161054763
% B[[38]]=86192470530097595419489723637
% m[[38]]=7020228475076910894577020753835572857542080005324309682133
% Factor= 541^1
% End of depth 38 at 452.620305 s

% Pmax=9000
% N_39=12976392745058985017702441319474256668284805924813881113
% next D is 0
% Cofactor after sieve is a probable prime
% D[[39]]=-1
% Factor= 1217^1
% Factor= 769^1
% Factor= 3^2
% Factor= 2^3
% End of depth 39 at 452.633285 s

% Pmax=7000
% N_40=192577066562138372670081560797515864692419774027
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 3
% Cofactor after sieve is a probable prime
% D[[40]]=3
% A[[40]]=117090429195791549858800
% B[[40]]=-502194549830806379858506
% m[[40]]=192577066562138372670081443707086668900869915228
% Factor= 163^1
% Factor= 37^1
% Factor= 2^2
% End of depth 40 at 452.649172 s

% Pmax=7000
% N_41=7982799973559043801611732867977394665099897
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Cofactor after sieve is a probable prime
% D[[41]]=1
% Factor= 13^1
% Factor= 2^1
% End of depth 41 at 452.661234 s

% Pmax=7000
% N_42=307030768213809376985066648768361333273073
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% Cofactor after sieve is a probable prime
% D[[42]]=3
% A[[42]]=1054125678454614959170
% B[[42]]=197435328549067951592
% m[[42]]=307030768213809376984012523089906718313904
% Factor= 43^1
% Factor= 7^1
% Factor= 2^4
% End of depth 42 at 452.687696 s

% Pmax=7000
% N_43=63752235924794305852162068747904218919
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 3
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 11
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 43
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 67
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 163
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 15
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 24
% Cofactor after sieve is a probable prime
% D[[43]]=24
% A[[43]]=15018238961787383726
% B[[43]]=1107953108699187195
% m[[43]]=63752235924794305837143829786116835194
% Factor= 227^1
% Factor= 29^1
% Factor= 3^2
% Factor= 2^1
% End of depth 43 at 452.761075 s

% Pmax=7000
% N_44=538020793667141845470182707868051
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 8
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 43
% Cofactor after sieve is a probable prime
% m is prime, we forget about it
% Cofactor after sieve is a probable prime
% D[[44]]=43
% A[[44]]=-35410466915959031
% B[[44]]=-4570334086466201
% m[[44]]=538020793667141880880649623827083
% Factor= 1429^1
% Factor= 109^1
% Factor= 23^1
% Factor= 17^1
% End of depth 44 at 452.786191 s

% Pmax=5000
% N_45=8834125744045465039397933
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% next D is 4
% itmax=0 ngcd=0 b1=0 b2=0
% itmax=0 ngcd=0 b1=0 b2=0
% Cofactor after sieve is a probable prime
% D[[45]]=4
% A[[45]]=4353196808924
% B[[45]]=2023992373933
% m[[45]]=8834125744041111842589010
% Factor= 53^1
% Factor= 5^1
% Factor= 2^1
% End of depth 45 at 452.803187 s

% Pmax=5000
% N_46=16668161781209644986017
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Cofactor after sieve is a probable prime
% D[[46]]=1
% Factor= 17^1
% Factor= 3^5
% Factor= 2^1
% End of depth 46 at 452.810587 s

% Pmax=5000
% N_47=2017448775261394939
% next D is 0
% itmax=0 ngcd=0 b1=0 b2=0
% Cofactor after sieve is a probable prime
% D[[47]]=1
% Factor= 3041^1
% Factor= 23^1
% Factor= 5^1
% Factor= 2^2
% End of depth 47 at 452.817621 s

% Pmax=5000
% N_48=1442209209829
% next D is 0
% Cofactor after sieve is a probable prime
% D[[48]]=-1
% Factor= 313^1
% Factor= 3^1
% Factor= 2^2
% End of depth 48 at 452.824157 s

% Pmax=5000
% N_49=383974763
% next D is 0
% Cofactor after sieve is a probable prime
% D[[49]]=-1
% Factor= 19^2
% Factor= 2^1
% End of depth 49 at 452.830684 s

% Pmax=5000
% N_50=531821
% next D is 0
% Cofactor after sieve is a probable prime
% D[[50]]=-1
% Factor= 5^1
% Factor= 2^2
% End of depth 50 at 452.836355 s

% Pmax=5000
% N_51=26591
% next D is 0
% Factorization completed using sieve only
% D[[51]]=-1
% Factor= 2659^1
% Factor= 5^1
% Factor= 2^1
% Cofactor is 1
% End of depth 51 at 452.832232 s

% Pmax=5000
% N_52=2659
% next D is 0
% Factorization completed using sieve only
% D[[52]]=-1
% Factor= 443^1
% Factor= 3^1
% Factor= 2^1
% Cofactor is 1
% End of depth 52 at 452.839282 s

% Pmax=5000
% N_53=443
% next D is 0
% Factorization completed using sieve only
% D[[53]]=-1
% Factor= 17^1
% Factor= 13^1
% Factor= 2^1
% Cofactor is 1

% Time for building is 452.596699 s

% Starting phase 2: proving
% Starting proving job for step 0
% Entering the D=3 business
% E found
% Suggested twist(3)=1
% N_0 is prime
% Time for proof[0] is 3.816969 s

% Starting proving job for step 1
% File /home/his/ECPP/Ecpp/Data/Weber/h2g2.cwdx does not exist
% tpber=0.000100s
% j has been computed
% E found
% N_1 is prime
% Time for proof[1] is 6.099623 s

% Starting proving job for step 2
% Entering the D=3 business
% E found
% Suggested twist(3)=1
% N_2 is prime
% Time for proof[2] is 3.133436 s

% Starting proving job for step 3
% Entering the D=3 business
% E found
% Suggested twist(3)=1
% N_3 is prime
% Time for proof[3] is 2.696530 s

% Starting proving job for step 4
% N_4 is prime
% Time for proof[4] is 0.983051 s

% Starting proving job for step 5
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000108s
% j has been computed
% E found
% Suggested twist(19)=-1
% N_5 is prime
% Time for proof[5] is 2.114745 s

% Starting proving job for step 6
% File /home/his/ECPP/Ecpp/Data/Weber/h12g4.cwdx does not exist
% tpber=4.214207s
% j has been computed
% E found
% N_6 is prime
% Time for proof[6] is 8.508763 s

% Starting proving job for step 7
% Entering the D=4 business
% E found
% Suggested twist(4)=1
% N_7 is prime
% Time for proof[7] is 1.990335 s

% Starting proving job for step 8
% N_8 is prime
% Time for proof[8] is 1.642462 s

% Starting proving job for step 9
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000095s
% j has been computed
% E found
% Suggested twist(19)=1
% N_9 is prime
% Time for proof[9] is 1.677479 s

% Starting proving job for step 10
% File /home/his/ECPP/Ecpp/Data/Weber/h2g2.cwdx does not exist
% tpber=0.000089s
% j has been computed
% E found
% N_10 is prime
% Time for proof[10] is 3.096935 s

% Starting proving job for step 11
% Entering the D=4 business
% E found
% Suggested twist(4)=1
% N_11 is prime
% Time for proof[11] is 1.415609 s

% Starting proving job for step 12
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000096s
% j has been computed
% E found
% Suggested twist(8)=-1
% N_12 is prime
% Time for proof[12] is 1.277735 s

% Starting proving job for step 13
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000095s
% j has been computed
% E found
% Suggested twist(7)=-1
% N_13 is prime
% Time for proof[13] is 1.190250 s

% Starting proving job for step 14
% N_14 is prime
% Time for proof[14] is 0.606158 s

% Starting proving job for step 15
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000107s
% j has been computed
% E found
% Suggested twist(7)=-1
% N_15 is prime
% Time for proof[15] is 0.983952 s

% Starting proving job for step 16
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000096s
% j has been computed
% E found
% Suggested twist(7)=-1
% N_16 is prime
% Time for proof[16] is 0.849026 s

% Starting proving job for step 17
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000093s
% j has been computed
% E found
% Suggested twist(19)=-1
% N_17 is prime
% Time for proof[17] is 0.777153 s

% Starting proving job for step 18
% Entering the D=4 business
% E found
% Suggested twist(4)=1
% N_18 is prime
% Time for proof[18] is 0.691702 s

% Starting proving job for step 19
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000095s
% j has been computed
% E found
% Suggested twist(19)=-1
% N_19 is prime
% Time for proof[19] is 0.613133 s

% Starting proving job for step 20
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000097s
% j has been computed
% E found
% Suggested twist(8)=1
% N_20 is prime
% Time for proof[20] is 0.568530 s

% Starting proving job for step 21
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000099s
% j has been computed
% E found
% Suggested twist(67)=1
% N_21 is prime
% Time for proof[21] is 0.501733 s

% Starting proving job for step 22
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000095s
% j has been computed
% E found
% Suggested twist(67)=-1
% N_22 is prime
% Time for proof[22] is 0.466572 s

% Starting proving job for step 23
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000093s
% j has been computed
% E found
% Suggested twist(19)=-1
% N_23 is prime
% Time for proof[23] is 0.454718 s

% Starting proving job for step 24
% N_24 is prime
% Time for proof[24] is 0.014032 s

% Starting proving job for step 25
% File /home/his/ECPP/Ecpp/Data/Weber/h2g2.cwdx does not exist
% tpber=0.000094s
% j has been computed
% E found
% N_25 is prime
% Time for proof[25] is 0.345259 s

% Starting proving job for step 26
% Entering the D=3 business
% E found
% Suggested twist(3)=1
% N_26 is prime
% Time for proof[26] is 0.364348 s

% Starting proving job for step 27
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000089s
% j has been computed
% E found
% Suggested twist(43)=1
% N_27 is prime
% Time for proof[27] is 0.291008 s

% Starting proving job for step 28
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000090s
% j has been computed
% E found
% Suggested twist(11)=-1
% N_28 is prime
% Time for proof[28] is 0.287660 s

% Starting proving job for step 29
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000096s
% j has been computed
% E found
% Suggested twist(19)=1
% N_29 is prime
% Time for proof[29] is 0.250418 s

% Starting proving job for step 30
% Entering the D=4 business
% E found
% Suggested twist(4)=1
% N_30 is prime
% Time for proof[30] is 0.257776 s

% Starting proving job for step 31
% Entering the D=4 business
% E found
% Suggested twist(4)=1
% N_31 is prime
% Time for proof[31] is 0.240886 s

% Starting proving job for step 32
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000092s
% j has been computed
% E found
% Suggested twist(67)=1
% N_32 is prime
% Time for proof[32] is 0.204792 s

% Starting proving job for step 33
% Entering the D=4 business
% E found
% Suggested twist(4)=1
% N_33 is prime
% Time for proof[33] is 0.218072 s

% Starting proving job for step 34
% Entering the D=4 business
% E found
% Suggested twist(4)=1
% N_34 is prime
% Time for proof[34] is 0.212154 s

% Starting proving job for step 35
% Entering the D=4 business
% E found
% Suggested twist(4)=1
% N_35 is prime
% Time for proof[35] is 0.177029 s

% Starting proving job for step 36
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000096s
% j has been computed
% E found
% Suggested twist(67)=-1
% N_36 is prime
% Time for proof[36] is 0.145565 s

% Starting proving job for step 37
% tpber=0.042665s
% j has been computed
% E found
% N_37 is prime
% Time for proof[37] is 0.245146 s

% Starting proving job for step 38
% Entering the D=3 business
% E found
% Suggested twist(3)=1
% N_38 is prime
% Time for proof[38] is 0.112824 s

% Starting proving job for step 39
% N_39 is prime
% Time for proof[39] is 0.003233 s

% Starting proving job for step 40
% Entering the D=3 business
% E found
% Suggested twist(3)=1
% N_40 is prime
% Time for proof[40] is 0.059162 s

% Starting proving job for step 41
% N_41 is prime
% Time for proof[41] is 0.040048 s

% Starting proving job for step 42
% Entering the D=3 business
% E found
% Suggested twist(3)=1
% N_42 is prime
% Time for proof[42] is 0.049627 s

% Starting proving job for step 43
% File /home/his/ECPP/Ecpp/Data/Weber/h2g2.cwdx does not exist
% tpber=0.000092s
% j has been computed
% E found
% N_43 is prime
% Time for proof[43] is 0.069724 s

% Starting proving job for step 44
% File /home/his/ECPP/Ecpp/Data/Weber/h1g1.cwdx does not exist
% tpber=0.000090s
% j has been computed
% E found
% Suggested twist(43)=-1
% N_44 is prime
% Time for proof[44] is 0.028655 s

% Starting proving job for step 45
% Entering the D=4 business
% E found
% Suggested twist(4)=1
% N_45 is prime
% Time for proof[45] is 0.014925 s

% Starting proving job for step 46
% N_46 is prime
% Time for proof[46] is 0.009950 s

% Starting proving job for step 47
% N_47 is prime
% Time for proof[47] is 0.007109 s

% Starting proving job for step 48
% N_48 is prime
% Time for proof[48] is 0.000524 s

% Starting proving job for step 49
% N_49 is prime
% Time for proof[49] is 0.000406 s

% Starting proving job for step 50
% N_50 is prime
% Time for proof[50] is 0.000970 s

% Starting proving job for step 51
% N_51 is prime
% Time for proof[51] is 0.000405 s

% Starting proving job for step 52
% N_52 is prime
% Time for proof[52] is 0.000347 s

% Starting proving job for step 53
% Using complete factorization theorem
% N_53 is prime
% Time for proof[53] is 0.000580 s
% Time for building is 452.596699 s
% Time for proving  is 49.826831 s
% Total time is        502.423684 s
This number is prime
% Time for this number is 502.659300s

% ==> Total time for the computations is 502.661174s
bash-2.05a$