/dports/astro/celestia-gtk/celestia-1.6.1/data/ |
H A D | starnames.dat | 202 6867:GAM Phe 395 12871:GAM Hor 533 17678:GAM Hyi 542 17959:GAM Cam 558 18744:GAM Ret 588 19893:GAM Dor 802 25918:GAM Men 862 27530:GAM Pic 885 28199:GAM Col 1311 43409:GAM Pyx [all …]
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/dports/astro/celestia/celestia-1.6.1/data/ |
H A D | starnames.dat | 202 6867:GAM Phe 395 12871:GAM Hor 533 17678:GAM Hyi 542 17959:GAM Cam 558 18744:GAM Ret 588 19893:GAM Dor 802 25918:GAM Men 862 27530:GAM Pic 885 28199:GAM Col 1311 43409:GAM Pyx [all …]
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/dports/math/cmlib/cmlib-3.0_8/src/uncmin/ |
H A D | secunf.f | 73 GAM=DEN1/DEN2 74 DEN2=GAM*DEN2 76 T(J)=GAM*T(J) 78 A(I,J)=GAM*A(I,J)
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/dports/biology/exonerate/exonerate-2.4.0/src/hub/ |
H A D | gam.c | 163 static void GAM_display_alignment(GAM *gam, 411 register GAM *gam = g_new0(GAM, 1); in GAM_create() 476 GAM *GAM_share(GAM *gam){ in GAM_share() 548 void GAM_destroy(GAM *gam){ in GAM_destroy() 582 register GAM *gam = data; in GAM_bestn_tree_report_traverse() 587 void GAM_report(GAM *gam){ in GAM_report() 619 static GAM_Result *GAM_Result_create(GAM *gam, in GAM_Result_create() 770 GAM_Result *GAM_Result_ungapped_create(GAM *gam, in GAM_Result_ungapped_create() 932 GAM *gam; 1310 void GAM_lock(GAM *gam){ in GAM_lock() [all …]
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/dports/math/R-cran-LearnBayes/LearnBayes/R/ |
H A D | bayes.model.selection.R | 31 GAM = array(TRUE, c(2^p, p + 1)) functionVar 32 for (k in 1:(2^p)) GAM[k, ] = as.logical(c(1, base2(k - 1, 37 X0 = X[, GAM[j, ]] 48 mod.prob=data.frame(GAM[, -1], round(gof,2), round(Prob,5))
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/dports/net-mgmt/observium/observium/mibs/infinera/ |
H A D | INFINERA-PM-CMMOCHPTP-MIB | 111 DESCRIPTION "Minimum OCG optical power leaving the CMM towards its attached XLM/DLM or GAM." 119 DESCRIPTION "Maximum OCG optical power leaving the CMM towards its attached XLM/DLM or GAM." 127 DESCRIPTION "Average OCG optical power leaving the CMM towards its attached XLM/DLM or GAM." 135 DESCRIPTION "Minimum OCG optical power arriving at the CMM from the local XLM/DLM or GAM." 143 DESCRIPTION "Maximum OCG optical power arriving at the CMM from the local XLM/DLM or GAM." 151 DESCRIPTION "Average OCG optical power arriving at the CMM from the local XLM/DLM or GAM." 186 …DESCRIPTION "Total OCG optical power leaving the CMM towards its attached XLM/DLM or GAM. One attr… 194 …DESCRIPTION "Total OCG optical power arriving at the CMM from the local XLM/DLM or GAM. One attrib…
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H A D | INFINERA-PM-BMMOCGPTP-MIB | 111 DESCRIPTION "Minimum OCG optical power leaving the BMM towards its attached XLM/DLM or GAM." 119 DESCRIPTION "Maximum OCG optical power leaving the BMM towards its attached XLM/DLM or GAM." 127 DESCRIPTION "Average OCG optical power leaving the BMM towards its attached XLM/DLM or GAM." 135 DESCRIPTION "Minimum OCG optical power arriving at the BMM from the local XLM/DLM or GAM." 143 DESCRIPTION "Maximum OCG optical power arriving at the BMM from the local XLM/DLM or GAM." 151 DESCRIPTION "Average OCG optical power arriving at the BMM from the local XLM/DLM or GAM." 186 …DESCRIPTION "Total OCG optical power leaving the BMM towards its attached XLM/DLM or GAM. One attr… 194 …DESCRIPTION "Total OCG optical power arriving at the BMM from the local XLM/DLM or GAM. One attrib…
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/dports/science/nwchem/nwchem-7b21660b82ebd85ef659f6fba7e1e73433b0bd0a/src/nwpw/pspw/lib/exchange-correlation/ |
H A D | pw92c.f | 40 real*8 GAM,iGAM,FZZ,iFZZ 41 parameter (GAM = 0.519842099789746329d0) 42 parameter (iGAM = 1.0d0/GAM) 43 parameter (FZZ = (8.0d0/(9.0d0*GAM)) ) 44 parameter (iFZZ = 0.125d0*9.0d0*GAM)
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/dports/science/nwchem-data/nwchem-7.0.2-release/src/nwpw/pspw/lib/exchange-correlation/ |
H A D | pw92c.f | 40 real*8 GAM,iGAM,FZZ,iFZZ 41 parameter (GAM = 0.519842099789746329d0) 42 parameter (iGAM = 1.0d0/GAM) 43 parameter (FZZ = (8.0d0/(9.0d0*GAM)) ) 44 parameter (iFZZ = 0.125d0*9.0d0*GAM)
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/dports/math/xlife++/xlifepp-sources-v2.0.1-2018-05-09/ext/LAPACKBLAS/SRC/ |
H A D | dlasq4.f | 180 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S 235 GAM = DN 244 GAM = DN1 274 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 288 GAM = DN2 314 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/math/xlapack/lapack-3.10.0/SRC/ |
H A D | dlasq4.f | 177 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S 232 GAM = DN 240 GAM = DN1 270 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 284 GAM = DN2 310 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/math/blas/lapack-3.10.0/SRC/ |
H A D | dlasq4.f | 177 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S 232 GAM = DN 240 GAM = DN1 270 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 284 GAM = DN2 310 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/science/lammps/lammps-stable_29Sep2021/lib/linalg/ |
H A D | dlasq4.f | 180 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S 235 GAM = DN 243 GAM = DN1 273 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 287 GAM = DN2 313 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/science/apbs/apbs-pdb2pqr-apbs-1.5-102-g500c1473/apbs/externals/fetk/punc/src/lapack/src_f77/ |
H A D | dlasq4.f | 79 DOUBLE PRECISION A2, B1, B2, G, GAM, GAP1, GAP2, S local 140 GAM = DN 149 GAM = DN1 179 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 193 GAM = DN2 219 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/math/lapacke/lapack-3.10.0/SRC/ |
H A D | dlasq4.f | 177 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S 232 GAM = DN 240 GAM = DN1 270 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 284 GAM = DN2 310 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/math/lapack/lapack-3.10.0/SRC/ |
H A D | dlasq4.f | 177 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S 232 GAM = DN 240 GAM = DN1 270 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 284 GAM = DN2 310 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/math/algae/algae-4.3.6/lapack/ |
H A D | dlasq4.f | 79 DOUBLE PRECISION A2, B1, B2, G, GAM, GAP1, GAP2, S 140 GAM = DN 149 GAM = DN1 179 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 193 GAM = DN2 219 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/science/nwchem-data/nwchem-7.0.2-release/src/lapack/double/ |
H A D | dlasq4.f | 180 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S 235 GAM = DN 244 GAM = DN1 274 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 288 GAM = DN2 314 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/math/openblas/OpenBLAS-0.3.18/lapack-netlib/SRC/ |
H A D | dlasq4.f | 180 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S local 235 GAM = DN 243 GAM = DN1 273 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 287 GAM = DN2 313 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/science/elk/elk-7.2.42/src/LAPACK/ |
H A D | dlasq4.f | 180 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S 235 GAM = DN 243 GAM = DN1 273 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 287 GAM = DN2 313 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/science/elmerfem/elmerfem-release-9.0/mathlibs/src/lapack/ |
H A D | dlasq4.f | 79 DOUBLE PRECISION A2, B1, B2, G, GAM, GAP1, GAP2, S 140 GAM = DN 149 GAM = DN1 179 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 193 GAM = DN2 219 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/science/nwchem/nwchem-7b21660b82ebd85ef659f6fba7e1e73433b0bd0a/src/lapack/double/ |
H A D | dlasq4.f | 180 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S 235 GAM = DN 244 GAM = DN1 274 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 288 GAM = DN2 314 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/math/cblas/lapack-3.10.0/SRC/ |
H A D | dlasq4.f | 177 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S 232 GAM = DN 240 GAM = DN1 270 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 284 GAM = DN2 310 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/sysutils/istio/istio-1.6.7/vendor/github.com/openshift/api/vendor/gonum.org/v1/gonum/lapack/internal/testdata/dlasqtest/ |
H A D | dlasq4.f | 180 DOUBLE PRECISION A2, B1, B2, GAM, GAP1, GAP2, S 237 GAM = DN 246 GAM = DN1 276 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 ) 290 GAM = DN2 316 $ S = GAM*( ONE-SQRT( A2 ) ) / ( ONE+A2 )
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/dports/science/afni/afni-AFNI_21.3.16/doc/misc_scripts/AFNI_data6/FT_analysis/PPI/ |
H A D | cmd.ppi.2.make.regs | 68 if ( $basis == GAM ) then 70 set hrf_file = x.GAM.1D 73 -stim_times 1 1D:0 GAM \
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