| /dports/science/cdo/cdo-2.0.0/src/ |
| H A D | Split.cc | 45 int nsplit = 0; in split_code() local
86 return nsplit; in split_code()
98 int nsplit = 0; in split_param() local
141 return nsplit; in split_param()
176 return nsplit; in split_name()
188 int nsplit = 0; in split_level() local
199 if (i == nsplit) ftmp[nsplit++] = level; in split_level()
235 return nsplit; in split_level()
277 return nsplit; in split_grid()
319 return nsplit; in split_zaxis()
[all …]
|
| /dports/math/fflas-ffpack/fflas-ffpack-2.4.3/fflas-ffpack/fflas/ |
| H A D | fflas_ftrmm_src.inl | 50 #define __FFLAS__Mb nsplit
52 #define __FFLAS__Mb2 M-nsplit
73 #define __FFLAS__B1 B + (nsplit) * ldb
74 #define __FFLAS__C1 C + (nsplit) * ldc
92 #define __FFLAS__B2 B + (M-nsplit) * ldb
98 #define __FFLAS__Nb nsplit
101 #define __FFLAS__Nb2 N-nsplit
122 #define __FFLAS__B1 B + nsplit
123 #define __FFLAS__C1 C + nsplit
141 #define __FFLAS__B2 B + N-nsplit
[all …]
|
| H A D | fflas_ftrsm_src.inl | 54 #define __FFLAS__Mb nsplit
56 #define __FFLAS__Mb2 M-nsplit
68 #define __FFLAS__Aupdate A + i * nsplit * (lda + 1) + nsplit*__FFLAS__Arowinc
79 #define __FFLAS__B2 B + nsplit * ldb
100 #define __FFLAS__Nb nsplit
110 #define __FFLAS__Nb2 N-nsplit
122 #define __FFLAS__Aupdate A + i * nsplit * (lda + 1) + nsplit * __FFLAS__Acolinc
127 #define __FFLAS__Brec B + i * nsplit
133 #define __FFLAS__B2 B + nsplit
147 #define __FFLAS__B1 B + (N - nsplit)
[all …]
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| /dports/lang/gcc12-devel/gcc-12-20211205/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/lang/gcc8/gcc-8.5.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/devel/riscv64-none-elf-gcc/gcc-8.4.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/lang/gcc11/gcc-11.2.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/lang/gcc10/gcc-10.3.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/lang/gcc11-devel/gcc-11-20211009/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/devel/arm-none-eabi-gcc/gcc-8.4.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/devel/avr-gcc/gcc-10.2.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/lang/gcc9-devel/gcc-9-20211007/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/devel/riscv32-unknown-elf-gcc/gcc-8.4.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/devel/aarch64-none-elf-gcc/gcc-8.4.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/misc/cxx_atomics_pic/gcc-11.2.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/devel/riscv64-gcc/gcc-8.3.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/lang/gcc10-devel/gcc-10-20211008/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/lang/gcc9/gcc-9.4.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/lang/gcc9-aux/gcc-9.1.0/libgomp/testsuite/libgomp.fortran/ |
| H A D | do_concurrent_5.f90 | 10 integer, parameter :: nsplit = 4 variable
12 integer(int64) :: stride, low(nsplit), high(nsplit), i
13 real(real64), dimension(nsplit) :: pi
22 stride = ceiling(real(ne)/nsplit)
23 do i = 1, nsplit
26 do i = 2, nsplit
30 high(nsplit) = ne
33 do concurrent (i = 1:nsplit)
42 real(real64), dimension(nsplit) :: ttt
|
| /dports/math/dbcsr/dbcsr-2.1.0/src/tas/ |
| H A D | dbcsr_tas_split.F | 144 FUNCTION dbcsr_tas_mp_comm(mp_comm, split_rowcol, nsplit)
222 DBCSR_ASSERT(nsplit > 0)
272 get_opt_nsplit = nsplit
294 nsplit = INT((nblkrows - 1)/nblkcols + 1)
297 nsplit = INT((nblkcols - 1)/nblkrows + 1)
334 DBCSR_ASSERT(nsplit > 0)
351 IF (MOD(pdims(split_rowcol), nsplit) .NE. 0) THEN
354 nsplit_opt = nsplit
364 IF (nsplit > 0) THEN
365 ALLOCATE (split_info%ngroup_opt, SOURCE=nsplit)
[all …]
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| /dports/science/sparta/sparta-20Oct2021/src/ |
| H A D | grid_comm.cpp | 102 if (cells[icell].nsplit > 1) { in pack_one()
113 int nsplit = cells[icell].nsplit; in pack_one() local
115 ptr += nsplit*sizeof(int); in pack_one()
150 int nsplit = cells[icell].nsplit; in pack_one() local
215 cells[icell].nsplit = 1; in unpack_one()
335 int nsplit = cells[icell].nsplit; in unpack_one() local
338 csubs->vgot(nsplit); in unpack_one()
387 int nsplit = cells[icell].nsplit; in unpack_one() local
490 int nsplit = cells[icell].nsplit; in pack_one_adapt() local
739 int nsplit = cells[icell].nsplit; in compress() local
[all …]
|
| /dports/science/cp2k/cp2k-2e995eec7fd208c8a72d9544807bd8b8ba8cd1cc/exts/dbcsr/src/tas/ |
| H A D | dbcsr_tas_split.F | 144 FUNCTION dbcsr_tas_mp_comm(mp_comm, split_rowcol, nsplit)
171 FUNCTION dbcsr_tas_mp_dims(numproc, split_rowcol, nsplit)
224 DBCSR_ASSERT(nsplit > 0)
241 ub = FLOOR(REAL(nsplit, real_8)*nsplit_accept_ratio)
284 get_opt_nsplit = nsplit
306 nsplit = INT((nblkrows - 1)/nblkcols + 1)
309 nsplit = INT((nblkcols - 1)/nblkrows + 1)
347 DBCSR_ASSERT(nsplit > 0)
364 IF (MOD(pdims(split_rowcol), nsplit) .NE. 0) THEN
367 nsplit_opt = nsplit
[all …]
|
| /dports/science/madness/madness-ebb3fd7/src/madness/external/elemental/external/pmrrr/src/lapack/ |
| H A D | odrra.c | 12 double *e2, double *spltol, double *tnrm, int *nsplit, in odrra() argument
116 *nsplit = 1; in odrra()
126 isplit[*nsplit] = i__; in odrra()
127 ++(*nsplit); in odrra()
140 isplit[*nsplit] = i__; in odrra()
141 ++(*nsplit); in odrra()
146 isplit[*nsplit] = *n; in odrra()
|
| /dports/math/igraph/igraph-0.9.5/vendor/lapack/ |
| H A D | dlarra.c | 150 doublereal *e2, doublereal *spltol, doublereal *tnrm, integer *nsplit, in igraphdlarra_() argument
183 *nsplit = 1; in igraphdlarra_()
193 isplit[*nsplit] = i__; in igraphdlarra_()
194 ++(*nsplit); in igraphdlarra_()
207 isplit[*nsplit] = i__; in igraphdlarra_()
208 ++(*nsplit); in igraphdlarra_()
213 isplit[*nsplit] = *n; in igraphdlarra_()
|
| /dports/math/libflame/libflame-5.2.0/src/map/lapack2flamec/f2c/c/ |
| H A D | dlarra.c | 125 …ereal *e, doublereal *e2, doublereal *spltol, doublereal *tnrm, integer *nsplit, integer *isplit, … in dlarra_() argument
159 *nsplit = 1; in dlarra_()
174 isplit[*nsplit] = i__; in dlarra_()
175 ++(*nsplit); in dlarra_()
193 isplit[*nsplit] = i__; in dlarra_()
194 ++(*nsplit); in dlarra_()
199 isplit[*nsplit] = *n; in dlarra_()
|