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Searched refs:ABE (Results 1 – 25 of 1766) sorted by relevance

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/dports/math/cmlib/cmlib-3.0_8/src/lindrv/
H A D	dnbfa.f	`1 SUBROUTINE DNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) argument 115 DOUBLE PRECISION ABE(LDA,*) 133 ABE(I,M+J)=0.0D0 147 L=-IDAMAX(LM1,ABE(LM+K,LM2),LDB)+LM1+K 153 IF(L.NE.K)CALL DSWAP(MP+1,ABE(K,ML1),LDA,ABE(L,ML1+K-L),LDA) 157 IF(ABE(K,ML1).EQ.0.0D0) GO TO 20 161 T=-1.0/ABE(K,ML1) 162 CALL DSCAL(LM,T,ABE(LM+K,LM2),LDB) 167 CALL DAXPY(LM,ABE(K,ML1+J),ABE(LM+K,LM2),LDB,ABE(LM+K,LM2+J),L 177 IF(ABE(N,ML1).EQ.0.0D0) INFO=N`
H A D	cnbfa.f	`1 SUBROUTINE CNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) argument 115 COMPLEX ABE(LDA,*) 137 ABE(I,M+J)=(0.0E0,0.0E0) 151 L=-ICAMAX(LM1,ABE(LM+K,LM2),LDB)+LM1+K 157 IF(L.NE.K)CALL CSWAP(MP+1,ABE(K,ML1),LDA,ABE(L,ML1+K-L),LDA) 161 IF(CABS1(ABE(K,ML1)).EQ.0.0E0) GO TO 20 165 T=-(1.0E0,0.0E0)/ABE(K,ML1) 166 CALL CSCAL(LM,T,ABE(LM+K,LM2),LDB) 171 CALL CAXPY(LM,ABE(K,ML1+J),ABE(LM+K,LM2),LDB,ABE(LM+K,LM2+J),L 181 IF(CABS1(ABE(N,ML1)).EQ.0.0E0) INFO=N`
H A D	snbfa.f	`1 SUBROUTINE SNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) argument 115 REAL ABE(LDA,*) 133 ABE(I,M+J)=0.0E0 147 L=-ISAMAX(LM1,ABE(LM+K,LM2),LDB)+LM1+K 153 IF(L.NE.K)CALL SSWAP(MP+1,ABE(K,ML1),LDA,ABE(L,ML1+K-L),LDA) 157 IF(ABE(K,ML1).EQ.0.0E0) GO TO 20 161 T=-1.0/ABE(K,ML1) 162 CALL SSCAL(LM,T,ABE(LM+K,LM2),LDB) 167 CALL SAXPY(LM,ABE(K,ML1+J),ABE(LM+K,LM2),LDB,ABE(LM+K,LM2+J),L 177 IF(ABE(N,ML1).EQ.0.0E0) INFO=N`
H A D	dnbco.f	`1 SUBROUTINE DNBCO(ABE,LDA,N,ML,MU,IPVT,RCOND,Z) argument 130 DOUBLE PRECISION ABE(LDA,),Z() 149 CALL DNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) 169 S = DABS(ABE(K,ML1))/DABS(EK-Z(K)) 177 IF (ABE(K,ML1) .EQ. 0.0D0) GO TO 40 178 WK = WK/ABE(K,ML1) 179 WKM = WKM/ABE(K,ML1) 192 Z(I) = Z(I) + WKABE(K,MM) 201 Z(I) = Z(I) + TABE(K,MM) 255 S = DABS(ABE(K,ML1))/DABS(Z(K)) [all …]`
H A D	snbco.f	`1 SUBROUTINE SNBCO(ABE,LDA,N,ML,MU,IPVT,RCOND,Z) argument 130 REAL ABE(LDA,),Z() 149 CALL SNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) 169 S = ABS(ABE(K,ML1))/ABS(EK-Z(K)) 177 IF (ABE(K,ML1) .EQ. 0.0E0) GO TO 40 178 WK = WK/ABE(K,ML1) 179 WKM = WKM/ABE(K,ML1) 192 Z(I) = Z(I) + WKABE(K,MM) 201 Z(I) = Z(I) + TABE(K,MM) 255 S = ABS(ABE(K,ML1))/ABS(Z(K)) [all …]`
H A D	cnbco.f	`1 SUBROUTINE CNBCO(ABE,LDA,N,ML,MU,IPVT,RCOND,Z) argument 130 COMPLEX ABE(LDA,),Z() 156 CALL CNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) 176 S = CABS1(ABE(K,ML1))/CABS1(EK-Z(K)) 184 IF (CABS1(ABE(K,ML1)) .EQ. 0.0E0) GO TO 40 185 WK = WK/CONJG(ABE(K,ML1)) 186 WKM = WKM/CONJG(ABE(K,ML1)) 199 Z(I) = Z(I) + WKCONJG(ABE(K,MM)) 208 Z(I) = Z(I) + TCONJG(ABE(K,MM)) 262 S = CABS1(ABE(K,ML1))/CABS1(Z(K)) [all …]`
H A D	dnbsl.f	`1 SUBROUTINE DNBSL(ABE,LDA,N,ML,MU,IPVT,B,JOB) argument 80 DOUBLE PRECISION ABE(LDA,),B() 104 CALL DAXPY(LM,T,ABE(K+LM,MLM),LDB,B(K+1),1) 112 B(K)=B(K)/ABE(K,ML+1) 116 CALL DAXPY(LM,T,ABE(K-1,ML+2),LDB,B(LB),1) 127 T = DDOT(LM,ABE(K-1,ML+2),LDB,B(LB),1) 128 B(K) = (B(K) - T)/ABE(K,ML+1) 139 B(K) = B(K) + DDOT(LM,ABE(K+LM,MLM),LDB,B(K+1),1)`
H A D	cnbsl.f	`1 SUBROUTINE CNBSL(ABE,LDA,N,ML,MU,IPVT,B,JOB) argument 80 COMPLEX ABE(LDA,),B() 104 CALL CAXPY(LM,T,ABE(K+LM,MLM),LDB,B(K+1),1) 112 B(K)=B(K)/ABE(K,ML+1) 116 CALL CAXPY(LM,T,ABE(K-1,ML+2),LDB,B(LB),1) 127 T = CDOTC(LM,ABE(K-1,ML+2),LDB,B(LB),1) 128 B(K) = (B(K) - T)/CONJG(ABE(K,ML+1)) 139 B(K) = B(K) + CDOTC(LM,ABE(K+LM,MLM),LDB,B(K+1),1)`
H A D	snbsl.f	`1 SUBROUTINE SNBSL(ABE,LDA,N,ML,MU,IPVT,B,JOB) argument 80 REAL ABE(LDA,),B() 104 CALL SAXPY(LM,T,ABE(K+LM,MLM),LDB,B(K+1),1) 112 B(K)=B(K)/ABE(K,ML+1) 116 CALL SAXPY(LM,T,ABE(K-1,ML+2),LDB,B(LB),1) 127 T = SDOT(LM,ABE(K-1,ML+2),LDB,B(LB),1) 128 B(K) = (B(K) - T)/ABE(K,ML+1) 139 B(K) = B(K) + SDOT(LM,ABE(K+LM,MLM),LDB,B(K+1),1)`
/dports/math/slatec/src/
H A D	snbfa.f	`2 SUBROUTINE SNBFA (ABE, LDA, N, ML, MU, IPVT, INFO) argument 115 REAL ABE(LDA,*) 133 ABE(I,M+J)=0.0E0 147 L=-ISAMAX(LM1,ABE(LM+K,LM2),LDB)+LM1+K 153 IF(L.NE.K)CALL SSWAP(MP+1,ABE(K,ML1),LDA,ABE(L,ML1+K-L),LDA) 157 IF(ABE(K,ML1).EQ.0.0E0) GO TO 20 161 T=-1.0/ABE(K,ML1) 162 CALL SSCAL(LM,T,ABE(LM+K,LM2),LDB) 167 CALL SAXPY (LM,ABE(K,ML1+J),ABE(LM+K,LM2),LDB,ABE(LM+K,LM2+J), 177 IF(ABE(N,ML1).EQ.0.0E0) INFO=N`
H A D	dnbfa.f	`2 SUBROUTINE DNBFA (ABE, LDA, N, ML, MU, IPVT, INFO) argument 115 DOUBLE PRECISION ABE(LDA,*) 133 ABE(I,M+J)=0.0D0 147 L=-IDAMAX(LM1,ABE(LM+K,LM2),LDB)+LM1+K 153 IF(L.NE.K)CALL DSWAP(MP+1,ABE(K,ML1),LDA,ABE(L,ML1+K-L),LDA) 157 IF(ABE(K,ML1).EQ.0.0D0) GO TO 20 161 T=-1.0/ABE(K,ML1) 162 CALL DSCAL(LM,T,ABE(LM+K,LM2),LDB) 167 CALL DAXPY (LM,ABE(K,ML1+J),ABE(LM+K,LM2),LDB,ABE(LM+K,LM2+J), 177 IF(ABE(N,ML1).EQ.0.0D0) INFO=N`
H A D	cnbfa.f	`2 SUBROUTINE CNBFA (ABE, LDA, N, ML, MU, IPVT, INFO) argument 115 COMPLEX ABE(LDA,*) 137 ABE(I,M+J)=(0.0E0,0.0E0) 151 L=-ICAMAX(LM1,ABE(LM+K,LM2),LDB)+LM1+K 157 IF(L.NE.K)CALL CSWAP(MP+1,ABE(K,ML1),LDA,ABE(L,ML1+K-L),LDA) 161 IF(CABS1(ABE(K,ML1)).EQ.0.0E0) GO TO 20 165 T=-(1.0E0,0.0E0)/ABE(K,ML1) 166 CALL CSCAL(LM,T,ABE(LM+K,LM2),LDB) 171 CALL CAXPY (LM,ABE(K,ML1+J),ABE(LM+K,LM2),LDB,ABE(LM+K,LM2+J), 181 IF(CABS1(ABE(N,ML1)).EQ.0.0E0) INFO=N`
H A D	dnbco.f	`2 SUBROUTINE DNBCO (ABE, LDA, N, ML, MU, IPVT, RCOND, Z) argument 129 DOUBLE PRECISION ABE(LDA,),Z() 148 CALL DNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) 168 S = ABS(ABE(K,ML1))/ABS(EK-Z(K)) 176 IF (ABE(K,ML1) .EQ. 0.0D0) GO TO 40 177 WK = WK/ABE(K,ML1) 178 WKM = WKM/ABE(K,ML1) 191 Z(I) = Z(I) + WKABE(K,MM) 200 Z(I) = Z(I) + TABE(K,MM) 254 S = ABS(ABE(K,ML1))/ABS(Z(K)) [all …]`
H A D	snbco.f	`2 SUBROUTINE SNBCO (ABE, LDA, N, ML, MU, IPVT, RCOND, Z) argument 129 REAL ABE(LDA,),Z() 148 CALL SNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) 168 S = ABS(ABE(K,ML1))/ABS(EK-Z(K)) 176 IF (ABE(K,ML1) .EQ. 0.0E0) GO TO 40 177 WK = WK/ABE(K,ML1) 178 WKM = WKM/ABE(K,ML1) 191 Z(I) = Z(I) + WKABE(K,MM) 200 Z(I) = Z(I) + TABE(K,MM) 254 S = ABS(ABE(K,ML1))/ABS(Z(K)) [all …]`
H A D	cnbco.f	`2 SUBROUTINE CNBCO (ABE, LDA, N, ML, MU, IPVT, RCOND, Z) argument 129 COMPLEX ABE(LDA,),Z() 155 CALL CNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) 175 S = CABS1(ABE(K,ML1))/CABS1(EK-Z(K)) 183 IF (CABS1(ABE(K,ML1)) .EQ. 0.0E0) GO TO 40 184 WK = WK/CONJG(ABE(K,ML1)) 185 WKM = WKM/CONJG(ABE(K,ML1)) 198 Z(I) = Z(I) + WKCONJG(ABE(K,MM)) 207 Z(I) = Z(I) + TCONJG(ABE(K,MM)) 261 S = CABS1(ABE(K,ML1))/CABS1(Z(K)) [all …]`
H A D	cnbsl.f	`2 SUBROUTINE CNBSL (ABE, LDA, N, ML, MU, IPVT, B, JOB) argument 79 COMPLEX ABE(LDA,),B() 103 CALL CAXPY(LM,T,ABE(K+LM,MLM),LDB,B(K+1),1) 111 B(K)=B(K)/ABE(K,ML+1) 115 CALL CAXPY(LM,T,ABE(K-1,ML+2),LDB,B(LB),1) 126 T = CDOTC(LM,ABE(K-1,ML+2),LDB,B(LB),1) 127 B(K) = (B(K) - T)/CONJG(ABE(K,ML+1)) 138 B(K) = B(K) + CDOTC(LM,ABE(K+LM,MLM),LDB,B(K+1),1)`
H A D	snbsl.f	`2 SUBROUTINE SNBSL (ABE, LDA, N, ML, MU, IPVT, B, JOB) argument 79 REAL ABE(LDA,),B() 103 CALL SAXPY(LM,T,ABE(K+LM,MLM),LDB,B(K+1),1) 111 B(K)=B(K)/ABE(K,ML+1) 115 CALL SAXPY(LM,T,ABE(K-1,ML+2),LDB,B(LB),1) 126 T = SDOT(LM,ABE(K-1,ML+2),LDB,B(LB),1) 127 B(K) = (B(K) - T)/ABE(K,ML+1) 138 B(K) = B(K) + SDOT(LM,ABE(K+LM,MLM),LDB,B(K+1),1)`
H A D	dnbsl.f	`2 SUBROUTINE DNBSL (ABE, LDA, N, ML, MU, IPVT, B, JOB) argument 79 DOUBLE PRECISION ABE(LDA,),B() 103 CALL DAXPY(LM,T,ABE(K+LM,MLM),LDB,B(K+1),1) 111 B(K)=B(K)/ABE(K,ML+1) 115 CALL DAXPY(LM,T,ABE(K-1,ML+2),LDB,B(LB),1) 126 T = DDOT(LM,ABE(K-1,ML+2),LDB,B(LB),1) 127 B(K) = (B(K) - T)/ABE(K,ML+1) 138 B(K) = B(K) + DDOT(LM,ABE(K+LM,MLM),LDB,B(K+1),1)`
/dports/cad/gds3d/GDS3D-bcdb97a/win32/
H A D	GDS3D.sln	18 {46F581B6-F491-4ABE-B6E5-F7DA26650362}.Debug\|Win32.ActiveCfg = Debug\|Win32 19 {46F581B6-F491-4ABE-B6E5-F7DA26650362}.Debug\|Win32.Build.0 = Debug\|Win32 20 {46F581B6-F491-4ABE-B6E5-F7DA26650362}.Debug\|x64.ActiveCfg = Debug\|x64 21 {46F581B6-F491-4ABE-B6E5-F7DA26650362}.Debug\|x64.Build.0 = Debug\|x64 22 {46F581B6-F491-4ABE-B6E5-F7DA26650362}.Release\|Win32.ActiveCfg = Release\|Win32 23 {46F581B6-F491-4ABE-B6E5-F7DA26650362}.Release\|Win32.Build.0 = Release\|Win32 24 {46F581B6-F491-4ABE-B6E5-F7DA26650362}.Release\|Win32.Deploy.0 = Release\|Win32 25 {46F581B6-F491-4ABE-B6E5-F7DA26650362}.Release\|x64.ActiveCfg = Release\|x64 26 {46F581B6-F491-4ABE-B6E5-F7DA26650362}.Release\|x64.Build.0 = Release\|x64 29 {46F581B6-F491-4ABE-B6E5-F7DA26650362}.Release-XP\|x64.ActiveCfg = Release-XP\|x64 [all …]
/dports/devel/icu/icu/source/samples/strsrch/
H A D	strsrch.sln	3 Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "strsrch", "strsrch.vcxproj", "{E97790D1-7ABE-4… 13 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Debug\|Win32.ActiveCfg = Debug\|Win32 14 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Debug\|Win32.Build.0 = Debug\|Win32 15 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Debug\|x64.ActiveCfg = Debug\|x64 16 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Debug\|x64.Build.0 = Debug\|x64 17 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Release\|Win32.ActiveCfg = Release\|Win32 18 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Release\|Win32.Build.0 = Release\|Win32 19 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Release\|x64.ActiveCfg = Release\|x64 20 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Release\|x64.Build.0 = Release\|x64
/dports/devel/icu-lx/icu/source/samples/strsrch/
H A D	strsrch.sln	3 Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "strsrch", "strsrch.vcxproj", "{E97790D1-7ABE-4… 13 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Debug\|Win32.ActiveCfg = Debug\|Win32 14 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Debug\|Win32.Build.0 = Debug\|Win32 15 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Debug\|x64.ActiveCfg = Debug\|x64 16 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Debug\|x64.Build.0 = Debug\|x64 17 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Release\|Win32.ActiveCfg = Release\|Win32 18 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Release\|Win32.Build.0 = Release\|Win32 19 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Release\|x64.ActiveCfg = Release\|x64 20 {E97790D1-7ABE-4C8E-9627-251ABEAA3EEC}.Release\|x64.Build.0 = Release\|x64
/dports/devel/emscripten/emscripten-2.0.3/tests/third_party/openjpeg/
H A D	LibOpenJPEG.sln	`4 …D11-00A0C91BC942}") = "LibOpenJPEG", "LibOpenJPEG.vcproj", "{6A47DBE3-8F80-4ABE-8688-5F8DC620977C}" 12 {6A47DBE3-8F80-4ABE-8688-5F8DC620977C}.Debug\|Win32.ActiveCfg = Debug\|Win32 13 {6A47DBE3-8F80-4ABE-8688-5F8DC620977C}.Debug\|Win32.Build.0 = Debug\|Win32 14 {6A47DBE3-8F80-4ABE-8688-5F8DC620977C}.Release\|Win32.ActiveCfg = Release\|Win32 15 {6A47DBE3-8F80-4ABE-8688-5F8DC620977C}.Release\|Win32.Build.0 = Release\|Win32`
/dports/math/cmlib/cmlib-3.0_8/doc/lindrv/
H A D	cnbfa	`2 SUBROUTINE CNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) 19 C ABE COMPLEX(LDA, NC) 22 C of ABE and the diagonals of the original matrix 23 C are stored in columns 1 through ML+MU+1 of ABE. 28 C the leading dimension of the array ABE. 45 C ABE an upper triangular matrix in band storage 74 C ABE(I,K) = A(I,J) 78 C This uses columns 1 through ML+MU+1 of ABE . 80 C ABE starting with column ML+MU+2 for elements 82 C number of columns needed in ABE is 2*ML+MU+1 . [all …]`
H A D	snbfa	`2 SUBROUTINE SNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) 19 C ABE REAL(LDA, NC) 22 C of ABE and the diagonals of the original matrix 23 C are stored in columns 1 through ML+MU+1 of ABE. 28 C the leading dimension of the array ABE. 45 C ABE an upper triangular matrix in band storage 74 C ABE(I,K) = A(I,J) 78 C This uses columns 1 through ML+MU+1 of ABE . 80 C ABE starting with column ML+MU+2 for elements 82 C number of columns needed in ABE is 2*ML+MU+1 . [all …]`
H A D	dnbfa	`2 SUBROUTINE DNBFA(ABE,LDA,N,ML,MU,IPVT,INFO) 19 C ABE DOUBLE PRECISION(LDA, NC) 22 C of ABE and the diagonals of the original matrix 23 C are stored in columns 1 through ML+MU+1 of ABE. 28 C the leading dimension of the array ABE. 45 C ABE an upper triangular matrix in band storage 74 C ABE(I,K) = A(I,J) 78 C This uses columns 1 through ML+MU+1 of ABE . 80 C ABE starting with column ML+MU+2 for elements 82 C number of columns needed in ABE is 2*ML+MU+1 . [all …]`

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