Title :
Toward efficient compilation of user-defined extensible Fortran directives
Author :
Rosing, Matt ; Nieplocha, Jarek ; Yabusaki, Steve
Abstract :
This paper describes an approach for automatically generating optimized parallel code from serial Fortran programs annotated with high level directives. A preprocessor analyzes both the program and the directives and generates efficient parallel Fortran code that runs on a number of parallel architectures, such as clusters or SMPs. The unique aspect of this approach is that the directives and optimizations can be customized and extended by the expert programmers who would be using them in their applications. This approach enables the creation of parallel extensions to Fortran that are specific to individual applications or science domains.
Keywords :
FORTRAN; optimising compilers; parallel architectures; extensible Fortran directives; optimized parallel code; parallel Fortran code; parallel architectures; parallel extensions; serial Fortran program; user-defined Fortran directives; Conferences; Data analysis; Degradation; Error analysis; Error correction; Information analysis; Parallel programming; Program processors; Runtime environment; Runtime library;
Conference_Titel :
High-Level Parallel Programming Models and Supportive Environments, 2004. Proceedings. Ninth International Workshop on
Print_ISBN :
0-7695-2151-7
DOI :
10.1109/HIPS.2004.1299191
