########################################################################### # Parameter file for Cado-NFS ########################################################################### # See params/params.c91 for an example which contains some documentation. # Anything after a # is a comment, until end of line. # Any empty line is ignored # # # Each parameter should be on an individual line, like # param0=42.17 # ########################################################################### # General parameters ########################################################################### # Sample parameter file for a 162-digit gnfs input # Example: cadofactor.pl wdir=... name=... n=... name=c162 parallel=1 # do we use parallel computation? delay=300 machines=mach_desc # file describing available computers for parallel # computation ########################################################################### # Polynomial selection ########################################################################### degree=5 # degree of the algebraic polynomial kjdelay=300 # time between two checks selectnice=4 # nice level for selection ## Most important parameters of polyselect kjM=2e24 # maximum norm allowed kjl=7 # minimal number of primes in lc(g) kjadmin=1 # min value for lc(f) kjadmax=2e8 # max value for lc(f) kjadrange=4e6 # individual tasks ## Other parameters of polyselect kjkeep=100 # number of preselected polynomials kjkmax=25 # rotation is bounded by 2^kmax kjincr=60 # forced divisor of lc(f) kjpb=1024 # bound on primes allowed in lc(g) kjp0max=100000 # bound on the additional factor in lc(g) ########################################################################### # Sieve ########################################################################### # (r,a) means rational or algebraic side # rlim/alim is the bound for sieving # lpbr/lpba is the (base 2 log of the) large prime bound # mfbr/mfba is the (base 2 log of the) limit for the cofactor we try to # split into large primes. # rlambda/alambda is the early-abort ratio: if after sieving the # approximate norm is more than # lambda times lpb, we reject. rlim=20000000 alim=40000000 lpbr=30 lpba=30 mfbr=60 mfba=90 rlambda=2.1 alambda=3.2 I=13 # Sieving range in lattice siever qmin=40000000 # Start of the special-q range qrange=200000 # The size of an elementary sieving task checkrange=1000000 # We check if we have enough after each step # of that many relations found. sievenice=10 sieve_max_threads=2 ########################################################################### # Filtering ########################################################################### excesspurge=2000000 # minimal excess we want before pruning keeppurge=160 # shrink in purge if excess exceeds keeppurge keep=160 # excess wanted after merge maxlevel=20 # maximal merge level cwmax=100 # ??? rwmax=100 # ??? ratio=1.1 # ??? bwstrat=1 ########################################################################### # Linear algebra ########################################################################### bwmt=2x2 # Multithreading level of Block-Wiedemann ########################################################################### # Characters ########################################################################### nkermax=30 # maximal size of computed kernel nchar=50 # number of characters