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9. Concept Index

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Index Entry Section
A
algorithm1. Introduction
B
benchfft1. Introduction
benchmark1. Introduction
benchmark4.1.3 How Many Threads to Use?
benchmark4.2.6 MPI Tips
benchmark6.4 gcc and Pentium hacks
blocking4.2.2 Usage of MPI FFTW for Complex Multi-dimensional Transforms
C
C multi-dimensional arrays2.5.3 Static Arrays in C
Caml6.6 Generating your own code
Caml6.6 Generating your own code
Caml7. Acknowledgments
Cilk1. Introduction
Cilk4. Parallel FFTW
clock6.5 Customizing the timer
code generator1. Introduction
code generator6.6 Generating your own code
column-major2.5.2 Column-major Format
column-major5.1 Wrapper Routines
column-major5.3 Fortran Examples
compiler1. Introduction
compiler5. Calling FFTW from Fortran
compiler6. Installation and Customization
compiler6.1 Installation on Unix
compiler6.2 Installation on non-Unix Systems
compiler6.4 gcc and Pentium hacks
compiler flags6.1 Installation on Unix
compiler flags6.1 Installation on Unix
complex multi-dimensional transform2.2 Complex Multi-dimensional Transforms Tutorial
complex multi-dimensional transform3.3 Multi-dimensional Transforms Reference
complex number3.1 Data Types
complex one-dimensional transform2.1 Complex One-dimensional Transforms Tutorial
complex to real transform2.3 Real One-dimensional Transforms Tutorial
complex to real transform3.4 Real One-dimensional Transforms Reference
complex transform2.1 Complex One-dimensional Transforms Tutorial
configure3.1 Data Types
configure4.1.1 Installation and Supported Hardware/Software
configure4.2.1 MPI FFTW Installation
configure6.1 Installation on Unix
configure6.3 Installing FFTW in both single and double precision
convolution2.4 Real Multi-dimensional Transforms Tutorial
cyclic convolution2.4 Real Multi-dimensional Transforms Tutorial
D
Discrete Fourier Transform3.2.5 What FFTW Really Computes
Discrete Fourier Transform3.3.4 What FFTWND Really Computes
Discrete Fourier Transform3.4.4 What RFFTW Really Computes
Discrete Fourier Transform3.5.6 What RFFTWND Really Computes
Discrete Fourier Transform3.5.6 What RFFTWND Really Computes
distributed array format4.2.3 MPI Data Layout
distributed array format4.2.4 Usage of MPI FFTW for Real Multi-dimensional Transforms
distributed array format4.2.5 Usage of MPI FFTW for Complex One-dimensional Transforms
distributed memory4. Parallel FFTW
distributed memory4.2 MPI FFTW
distributed memory4.2.3 MPI Data Layout
E
Ecclesiastes2.6.1 Caveats in Using Wisdom
executor1. Introduction
F
FFTW1. Introduction
FFTWND3.3 Multi-dimensional Transforms Reference
flags2.1 Complex One-dimensional Transforms Tutorial
flags2.2 Complex Multi-dimensional Transforms Tutorial
flagsArguments
flagsArguments
flagsArguments
flagsArguments
flags4.2.5 Usage of MPI FFTW for Complex One-dimensional Transforms
flags5.2 FFTW Constants in Fortran
floating-point precision3.1 Data Types
floating-point precision5.1 Wrapper Routines
floating-point precision6.1 Installation on Unix
floating-point precision6.2 Installation on non-Unix Systems
floating-point precision6.3 Installing FFTW in both single and double precision
Fortran-callable wrappers2.5.2 Column-major Format
Fortran-callable wrappers5. Calling FFTW from Fortran
Fortran-callable wrappers6.1 Installation on Unix
frequency2.1 Complex One-dimensional Transforms Tutorial
frequency2.2 Complex Multi-dimensional Transforms Tutorial
frequency3.2.5 What FFTW Really Computes
G
gettimeofday6.5 Customizing the timer
girlfriends7. Acknowledgments
H
halfcomplex array2.3 Real One-dimensional Transforms Tutorial
halfcomplex array2.3 Real One-dimensional Transforms Tutorial
halfcomplex array3.1 Data Types
hermitian array3.1 Data Types
hermitian array3.5.6 What RFFTWND Really Computes
I
in-place transform2.2 Complex Multi-dimensional Transforms Tutorial
in-place transformArguments
in-place transformArguments
in-place transformArguments
in-place transformArguments
in-place transform3.5.3 Array Dimensions for Real Multi-dimensional Transforms
in-place transform4.1.6 Parallelization deficiencies in one-dimensional transforms
in-place transform4.2.2 Usage of MPI FFTW for Complex Multi-dimensional Transforms
in-place transform5.1 Wrapper Routines
installation6. Installation and Customization
L
linking on Unix2.1 Complex One-dimensional Transforms Tutorial
linking on Unix2.3 Real One-dimensional Transforms Tutorial
linking on Unix4.1.2 Usage of Multi-threaded FFTW
linking on Unix4.2.2 Usage of MPI FFTW for Complex Multi-dimensional Transforms
linking on Unix4.2.4 Usage of MPI FFTW for Real Multi-dimensional Transforms
linking on Unix4.2.5 Usage of MPI FFTW for Complex One-dimensional Transforms
LISP2.6.2 Importing and Exporting Wisdom
LISP7. Acknowledgments
load-balancing4.2.6 MPI Tips
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