| Index Entry | | Section |
|---|
|
| F | | |
|---|
| FFTW | | 1 Introduction |
| fftw-wisdom utility | | 3.4 Caveats in Using Wisdom |
| fftw-wisdom utility | | 4.7.4 Wisdom Utilities |
| fftw-wisdom-to-conf utility | | 4.7.4 Wisdom Utilities |
| flags | | 2.1 Complex One-Dimensional DFTs |
| flags | | 2.3 One-Dimensional DFTs of Real Data |
| flags | | Arguments |
| flags | | Arguments |
| flags | | Arguments |
| flags | | 4.5.3 Guru Complex DFTs |
| flags | | 4.5.4 Guru Real-data DFTs |
| flags | | 4.5.5 Guru Real-to-real Transforms |
| flags | | 7.1 Overview of Fortran interface |
| flags | | 8.2 FFTW Constants in Fortran |
| Fortran interface | | 3.2.2 Column-major Format |
| Fortran interface | | 6.13 FFTW MPI Fortran Interface |
| Fortran interface | | 7 Calling FFTW from Modern Fortran |
| Fortran interface | | 8 Calling FFTW from Legacy Fortran |
| Fortran-callable wrappers | | 10.1 Installation on Unix |
| frequency | | 2.1 Complex One-Dimensional DFTs |
| frequency | | 4.8.1 The 1d Discrete Fourier Transform (DFT) |
|
| G | | |
|---|
| g77 | | 10.1 Installation on Unix |
| guru interface | | 1 Introduction |
| guru interface | | 2.2 Complex Multi-Dimensional DFTs |
| guru interface | | 4.5 Guru Interface |
| guru interface | | 7.3 FFTW Fortran type reference |
| guru interface | | 8.1 Fortran-interface routines |
|
| H | | |
|---|
| halfcomplex format | | 2.3 One-Dimensional DFTs of Real Data |
| halfcomplex format | | 2.5.1 The Halfcomplex-format DFT |
| halfcomplex format | | 4.8.2 The 1d Real-data DFT |
| hc2r | | 2.5.1 The Halfcomplex-format DFT |
| hc2r | | Algorithm-restriction flags |
| HDF5 | | 6.3 2d MPI example |
| Hermitian | | 2.3 One-Dimensional DFTs of Real Data |
| Hermitian | | 4.8.2 The 1d Real-data DFT |
| howmany loop | | 4.5.2 Guru vector and transform sizes |
| howmany parameter | | 4.4.1 Advanced Complex DFTs |
|
| I | | |
|---|
| IDCT | | 2.5.2 Real even/odd DFTs (cosine/sine transforms) |
| IDCT | | 2.5.2 Real even/odd DFTs (cosine/sine transforms) |
| IDCT | | 4.3.6 Real-to-Real Transform Kinds |
| IDCT | | REDFT01 (DCT-III) |
| in-place | | 2.1 Complex One-Dimensional DFTs |
| in-place | | 2.3 One-Dimensional DFTs of Real Data |
| in-place | | Arguments |
| in-place | | Arguments |
| in-place | | 4.3.4 Real-data DFT Array Format |
| in-place | | Arguments |
| in-place | | 4.5.4 Guru Real-data DFTs |
| in-place | | 4.5.4 Guru Real-data DFTs |
| in-place | | 6.7.3 An improved replacement for MPI_Alltoall |
| in-place | | 7.2 Reversing array dimensions |
| in-place | | 7.3 FFTW Fortran type reference |
| installation | | 10 Installation and Customization |
| interleaved format | | 4.5.1 Interleaved and split arrays |
| iso_c_binding | | 6.13 FFTW MPI Fortran Interface |
| iso_c_binding | | 7.1 Overview of Fortran interface |
| iso_c_binding | | 7.1.1 Extended and quadruple precision in Fortran |
|
| K | | |
|---|
| kind (r2r) | | 2.5 More DFTs of Real Data |
| kind (r2r) | | 4.3.6 Real-to-Real Transform Kinds |
|
| L | | |
|---|
| linking on Unix | | 5.2 Usage of Multi-threaded FFTW |
| linking on Unix | | 6.2 Linking and Initializing MPI FFTW |
| LISP | | 11 Acknowledgments |
| load balancing | | 6.4.2 Load balancing |
| load balancing | | 6.10 FFTW MPI Performance Tips |
|
| M | | |
|---|
| MIPS PS | | 3.1 SIMD alignment and fftw_malloc |
| monadic programming | | 10.4 Generating your own code |
| MPI | | 6 Distributed-memory FFTW with MPI |
| MPI | | 10.1 Installation on Unix |
| MPI communicator | | 6 Distributed-memory FFTW with MPI |
| MPI communicator | | 6.12.3 Using MPI Plans |
| MPI communicator | | Complex-data MPI DFTs |
| MPI communicator | | 6.13 FFTW MPI Fortran Interface |
| MPI I/O | | 6.3 2d MPI example |
| MPI I/O | | 6.8 FFTW MPI Wisdom |
| mpicc | | 6.1 FFTW MPI Installation |
| mpicc | | 6.2 Linking and Initializing MPI FFTW |
|
| N | | |
|---|
| new-array execution | | 4.6 New-array Execute Functions |
| new-array execution | | 6.12.3 Using MPI Plans |
| new-array execution | | MPI transposition |
| new-array execution | | 6.13 FFTW MPI Fortran Interface |
| normalization | | 2.1 Complex One-Dimensional DFTs |
| normalization | | 2.4 Multi-Dimensional DFTs of Real Data |
| normalization | | 2.5.1 The Halfcomplex-format DFT |
| normalization | | 2.5.2 Real even/odd DFTs (cosine/sine transforms) |
| normalization | | 2.5.3 The Discrete Hartley Transform |
| normalization | | Arguments |
| normalization | | Arguments |
| normalization | | 4.3.6 Real-to-Real Transform Kinds |
| normalization | | 4.8.1 The 1d Discrete Fourier Transform (DFT) |
| normalization | | 4.8.2 The 1d Real-data DFT |
| normalization | | Inverses and Normalization |
| normalization | | Inverses and Normalization |
| normalization | | 4.8.5 1d Discrete Hartley Transforms (DHTs) |
| number of threads | | 5.3 How Many Threads to Use? |
|
| O | | |
|---|
| OpenMP | | 5.1 Installation and Supported Hardware/Software |
| OpenMP | | 5.2 Usage of Multi-threaded FFTW |
| OpenMP | | 5.2 Usage of Multi-threaded FFTW |
| OpenMP | | 5.4 Thread safety |
| out-of-place | | Algorithm-restriction flags |
| out-of-place | | 4.3.4 Real-data DFT Array Format |
|
