Exploiting the performance potential of distributed memory machines requires a careful distribution of data across the processors. Vienna FORTRAN is a language extension of FORTRAN which provides the user with a wide range of facilities for such mapping of data structures. However, programs in Vienna FORTRAN are written using global data references. Thus, the user has the advantage of a shared memory programming paradigm while explicitly controlling the placement of data. The basic features of Vienna FORTRAN are presented along with a set of examples illustrating the use of these features
Vienna Fortran, a machine-independent language extension to Fortran which allows the user to write p...
High Performance Fortran (HPF) offers an attractive high‐level language interface for programming sc...
The stated goal of High Performance Fortran (HPF) was to 'address the problems of writing data paral...
Exploiting the full performance potential of distributed memory machines requires a careful distribu...
Vienna Fortran is a machine-independent language extension of Fortran, which is based upon the Singl...
Exploiting the full performance potential of distributed memory machines requires a careful distribu...
Vienna Fortran is a machine-independent language extension of Fortran, which is based upon the Singl...
Distributed memory multiprocessor systems can provide the computing power necessary for large-scale ...
High performance FORTRAN is a set of extensions for FORTRAN 90 designed to allow specification of da...
Distributed memory multiprocessor systems can provide the power necessary for large-scale scientific...
Language extensions of FORTRAN are being developed which permit the user to map data structures to t...
A significant amount of software research for developing programming environments for distributed--m...
With the advent of Distributed Memory Machines (DMMs) numerous work have been undertaken to ease the...
Fortran and C++ are the dominant programming languages used in scientific computation. Consequently,...
This paper describes the design of the Fortran90D/HPF compiler, a source-to-source parallel compiler...
Vienna Fortran, a machine-independent language extension to Fortran which allows the user to write p...
High Performance Fortran (HPF) offers an attractive high‐level language interface for programming sc...
The stated goal of High Performance Fortran (HPF) was to 'address the problems of writing data paral...
Exploiting the full performance potential of distributed memory machines requires a careful distribu...
Vienna Fortran is a machine-independent language extension of Fortran, which is based upon the Singl...
Exploiting the full performance potential of distributed memory machines requires a careful distribu...
Vienna Fortran is a machine-independent language extension of Fortran, which is based upon the Singl...
Distributed memory multiprocessor systems can provide the computing power necessary for large-scale ...
High performance FORTRAN is a set of extensions for FORTRAN 90 designed to allow specification of da...
Distributed memory multiprocessor systems can provide the power necessary for large-scale scientific...
Language extensions of FORTRAN are being developed which permit the user to map data structures to t...
A significant amount of software research for developing programming environments for distributed--m...
With the advent of Distributed Memory Machines (DMMs) numerous work have been undertaken to ease the...
Fortran and C++ are the dominant programming languages used in scientific computation. Consequently,...
This paper describes the design of the Fortran90D/HPF compiler, a source-to-source parallel compiler...
Vienna Fortran, a machine-independent language extension to Fortran which allows the user to write p...
High Performance Fortran (HPF) offers an attractive high‐level language interface for programming sc...
The stated goal of High Performance Fortran (HPF) was to 'address the problems of writing data paral...