| /dports/lang/gcc48/gcc-4.8.5/gcc/testsuite/gfortran.dg/ |
| H A D | public_private_module_5.f90 | 15 INTEGER, PRIVATE :: DIM2 variable
26 INTEGER, DIMENSION(DIM2) :: ENERGY_FUNCTION_CURRENT_ARGS
30 TYPE(PARAM), DIMENSION(DIM2) :: ENERGY_FUNCTION_GET_PARAMS
|
| /dports/lang/gcc9-aux/gcc-9.1.0/gcc/testsuite/gfortran.dg/ |
| H A D | public_private_module_5.f90 | 15 INTEGER, PRIVATE :: DIM2 variable
26 INTEGER, DIMENSION(DIM2) :: ENERGY_FUNCTION_CURRENT_ARGS
30 TYPE(PARAM), DIMENSION(DIM2) :: ENERGY_FUNCTION_GET_PARAMS
|
| /dports/devel/arm-none-eabi-gcc492/gcc-4.9.2/gcc/testsuite/gfortran.dg/ |
| H A D | public_private_module_5.f90 | 15 INTEGER, PRIVATE :: DIM2 variable
26 INTEGER, DIMENSION(DIM2) :: ENERGY_FUNCTION_CURRENT_ARGS
30 TYPE(PARAM), DIMENSION(DIM2) :: ENERGY_FUNCTION_GET_PARAMS
|
| /dports/misc/cxx_atomics_pic/gcc-11.2.0/gcc/testsuite/gfortran.dg/ |
| H A D | public_private_module_5.f90 | 15 INTEGER, PRIVATE :: DIM2 variable
26 INTEGER, DIMENSION(DIM2) :: ENERGY_FUNCTION_CURRENT_ARGS
30 TYPE(PARAM), DIMENSION(DIM2) :: ENERGY_FUNCTION_GET_PARAMS
|
| /dports/devel/avr-gcc/gcc-10.2.0/gcc/testsuite/gfortran.dg/ |
| H A D | public_private_module_5.f90 | 15 INTEGER, PRIVATE :: DIM2 variable
26 INTEGER, DIMENSION(DIM2) :: ENERGY_FUNCTION_CURRENT_ARGS
30 TYPE(PARAM), DIMENSION(DIM2) :: ENERGY_FUNCTION_GET_PARAMS
|
| /dports/devel/riscv64-gcc/gcc-8.3.0/gcc/testsuite/gfortran.dg/ |
| H A D | public_private_module_5.f90 | 15 INTEGER, PRIVATE :: DIM2 variable
26 INTEGER, DIMENSION(DIM2) :: ENERGY_FUNCTION_CURRENT_ARGS
30 TYPE(PARAM), DIMENSION(DIM2) :: ENERGY_FUNCTION_GET_PARAMS
|
| /dports/lang/gcc11/gcc-11.2.0/gcc/testsuite/gfortran.dg/ |
| H A D | public_private_module_5.f90 | 15 INTEGER, PRIVATE :: DIM2 variable
26 INTEGER, DIMENSION(DIM2) :: ENERGY_FUNCTION_CURRENT_ARGS
30 TYPE(PARAM), DIMENSION(DIM2) :: ENERGY_FUNCTION_GET_PARAMS
|
| /dports/lang/gcc10-devel/gcc-10-20211008/gcc/testsuite/gfortran.dg/ |
| H A D | public_private_module_5.f90 | 15 INTEGER, PRIVATE :: DIM2 variable
26 INTEGER, DIMENSION(DIM2) :: ENERGY_FUNCTION_CURRENT_ARGS
30 TYPE(PARAM), DIMENSION(DIM2) :: ENERGY_FUNCTION_GET_PARAMS
|
| /dports/lang/gcc9/gcc-9.4.0/gcc/testsuite/gfortran.dg/ |
| H A D | public_private_module_5.f90 | 15 INTEGER, PRIVATE :: DIM2 variable
26 INTEGER, DIMENSION(DIM2) :: ENERGY_FUNCTION_CURRENT_ARGS
30 TYPE(PARAM), DIMENSION(DIM2) :: ENERGY_FUNCTION_GET_PARAMS
|
| /dports/devel/mingw32-gcc/gcc-4.8.1/gcc/testsuite/gfortran.dg/ |
| H A D | public_private_module_5.f90 | 15 INTEGER, PRIVATE :: DIM2 variable
26 INTEGER, DIMENSION(DIM2) :: ENERGY_FUNCTION_CURRENT_ARGS
30 TYPE(PARAM), DIMENSION(DIM2) :: ENERGY_FUNCTION_GET_PARAMS
|
| /dports/science/hdf5/hdf5-1.10.6/examples/ |
| H A D | h5_vds-percival.c | 41 #define DIM2 10 macro
68 dims[3] = {DIM0, DIM1, DIM2}, in main()
69 dims_max[3] = {DIM0, DIM1, DIM2}, in main()
85 int wdata[DIM0*DIM1*DIM2]; in main()
94 for (j = 0; j < DIM0*DIM1*DIM2; j++) wdata[j] = i+1; in main()
145 block[2] = DIM2; in main()
|
| /dports/math/eigen3/eigen-3.3.9/bench/tensors/ |
| H A D | tensor_benchmarks_fp16_gpu.cu | 59 #define BM_FuncWithKernelDimsGPU(FUNC, DIM1, DIM2) \ argument
60 static void BM_##FUNC##_##DIM1##x##DIM2(int iters, int N) { \
66 suite.FUNC(iters, DIM1, DIM2); \
68 BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2, 128, 5000);
|
| H A D | tensor_benchmarks_gpu.cu | 59 #define BM_FuncWithKernelDimsGPU(FUNC, DIM1, DIM2) \ argument
60 static void BM_##FUNC##_##DIM1##x##DIM2(int iters, int N) { \
66 suite.FUNC(iters, DIM1, DIM2); \
68 BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2, 128, 5000);
|
| /dports/math/stanmath/math-4.2.0/lib/eigen_3.3.9/bench/tensors/ |
| H A D | tensor_benchmarks_fp16_gpu.cu | 59 #define BM_FuncWithKernelDimsGPU(FUNC, DIM1, DIM2) \ argument
60 static void BM_##FUNC##_##DIM1##x##DIM2(int iters, int N) { \
66 suite.FUNC(iters, DIM1, DIM2); \
68 BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2, 128, 5000);
|
| H A D | tensor_benchmarks_gpu.cu | 59 #define BM_FuncWithKernelDimsGPU(FUNC, DIM1, DIM2) \ argument
60 static void BM_##FUNC##_##DIM1##x##DIM2(int iters, int N) { \
66 suite.FUNC(iters, DIM1, DIM2); \
68 BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2, 128, 5000);
|
| /dports/math/libsemigroups/libsemigroups-1.3.7/extern/eigen-3.3.7/bench/tensors/ |
| H A D | tensor_benchmarks_fp16_gpu.cu | 59 #define BM_FuncWithKernelDimsGPU(FUNC, DIM1, DIM2) \ argument
60 static void BM_##FUNC##_##DIM1##x##DIM2(int iters, int N) { \
66 suite.FUNC(iters, DIM1, DIM2); \
68 BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2, 128, 5000);
|
| H A D | tensor_benchmarks_gpu.cu | 59 #define BM_FuncWithKernelDimsGPU(FUNC, DIM1, DIM2) \ argument
60 static void BM_##FUNC##_##DIM1##x##DIM2(int iters, int N) { \
66 suite.FUNC(iters, DIM1, DIM2); \
68 BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2, 128, 5000);
|
| /dports/math/mathgl/mathgl-2.5/lang/ |
| H A D | mathgl.i | 85 %apply (double* IN_ARRAY2, int DIM1, int DIM2) {(const double* d, int rows, int cols)};
86 %apply (int DIM1, int DIM2, double* IN_ARRAY2) {(int rows, int cols, const double* d)};
87 %apply (double* IN_ARRAY3, int DIM1, int DIM2, int DIM3) {(const double* d, int rows, int cols, int…
88 %apply (int DIM1, int DIM2, int DIM3, double* IN_ARRAY3) {(int rows, int cols, int slc, const doubl…
|
| /dports/misc/opennn/opennn-5.0.5/eigen/bench/tensors/ |
| H A D | tensor_benchmarks_fp16_gpu.cu | 59 #define BM_FuncWithKernelDimsGPU(FUNC, DIM1, DIM2) \ argument
60 static void BM_##FUNC##_##DIM1##x##DIM2(int iters, int N) { \
66 suite.FUNC(iters, DIM1, DIM2); \
68 BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2, 128, 5000);
|
| H A D | tensor_benchmarks_gpu.cu | 59 #define BM_FuncWithKernelDimsGPU(FUNC, DIM1, DIM2) \ argument
60 static void BM_##FUNC##_##DIM1##x##DIM2(int iters, int N) { \
66 suite.FUNC(iters, DIM1, DIM2); \
68 BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2, 128, 5000);
|
| /dports/devel/taskflow/taskflow-3.2.0/3rd-party/eigen-3.3.7/bench/tensors/ |
| H A D | tensor_benchmarks_fp16_gpu.cu | 59 #define BM_FuncWithKernelDimsGPU(FUNC, DIM1, DIM2) \ argument
60 static void BM_##FUNC##_##DIM1##x##DIM2(int iters, int N) { \
66 suite.FUNC(iters, DIM1, DIM2); \
68 BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2, 128, 5000);
|
| H A D | tensor_benchmarks_gpu.cu | 59 #define BM_FuncWithKernelDimsGPU(FUNC, DIM1, DIM2) \ argument
60 static void BM_##FUNC##_##DIM1##x##DIM2(int iters, int N) { \
66 suite.FUNC(iters, DIM1, DIM2); \
68 BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2, 128, 5000);
|
| /dports/math/igraph/igraph-0.9.5/examples/simple/ |
| H A D | igraph_sparsemat7.c | 27 #define DIM2 5 macro
39 igraph_sparsemat_init(&spmat, DIM1, DIM2, 20); in main()
43 igraph_sparsemat_entry(&spmat, INT(DIM1 - 1), INT(DIM2 - 1), 1.0); in main()
|
| /dports/math/py-numpy/numpy-1.20.3/doc/source/reference/ |
| H A D | swig.interface-file.rst | 255 * ``( DATA_TYPE* IN_ARRAY2, int DIM1, int DIM2 )``
256 * ``( int DIM1, int DIM2, DATA_TYPE* IN_ARRAY2 )``
257 * ``( DATA_TYPE* IN_FARRAY2, int DIM1, int DIM2 )``
258 * ``( int DIM1, int DIM2, DATA_TYPE* IN_FARRAY2 )``
263 * ``( DATA_TYPE* IN_ARRAY3, int DIM1, int DIM2, int DIM3 )``
264 * ``( int DIM1, int DIM2, int DIM3, DATA_TYPE* IN_ARRAY3 )``
265 * ``( DATA_TYPE* IN_FARRAY3, int DIM1, int DIM2, int DIM3 )``
299 * ``( DATA_TYPE* INPLACE_ARRAY2, int DIM1, int DIM2 )``
300 * ``( int DIM1, int DIM2, DATA_TYPE* INPLACE_ARRAY2 )``
301 * ``( DATA_TYPE* INPLACE_FARRAY2, int DIM1, int DIM2 )``
[all …]
|
| /dports/math/libmesh/libmesh-1.6.2/contrib/netcdf/netcdf-c-4.6.2/nc_test/ |
| H A D | tst_big_var.c | 31 #define DIM2 2097153 /* DIM1*DIM2*sizeof(char) > 2**32 */ macro
50 if (nc_def_dim(ncid, "dim2", DIM2 - 1, &dimids[1])) ERR; in test_big_var()
54 index[1] = DIM2 - 2; in test_big_var()
|