Title :
Improving the Separation of Parallel Code in Skeletal Systems
Author :
Neves, Diogo Telmo ; Sobral, João Luís
Author_Institution :
Dept. de Inf., Univ. do Minho, Minho, Portugal
fDate :
June 30 2009-July 4 2009
Abstract :
This paper describes how to improve separation between domain-specific code and parallel code in skeletal systems. Traditionally, the code used to exploit parallelism is tangled among domain-specific code, which leads to problems such as: poor maintainability, lower flexibility, and weak scalability. In this paper we introduce the design of the YaSkel framework, which is a support tool to write parallel programs. We argue that the design of YaSkel framework allows more freedom to change the parallelization strategy when compared with traditional skeleton frameworks. To change the parallelization strategy we rely on DI - Dependency Injection - to inject a reference of a specific skeleton in latter development stages. We also show that AOP - Aspect Oriented Programming - could be used to minimize the impact of applying skeleton based approaches to legacy code.
Keywords :
inheritance; object-oriented programming; parallel programming; program compilers; software maintenance; YaSkel framework; aspect oriented programming; class refinement; dependency injection; domain-specific code; inheritance; legacy code; parallel code separation; parallel programs; reference injection; skeletal systems; software flexibility; software maintainability; software scalability; Application software; Distributed computing; Hardware; Multicore processing; Parallel processing; Parallel programming; Productivity; Programming profession; Scalability; Skeleton; aspect oriented programming; dependency injection; multicore; skeletons;
Conference_Titel :
Parallel and Distributed Computing, 2009. ISPDC '09. Eighth International Symposium on
Conference_Location :
Lisbon
Print_ISBN :
978-0-7695-3680-4
DOI :
10.1109/ISPDC.2009.36
