Serial computations of Levenshtein distances
Pattern matching algorithms
A test suite for high-performance parallel Java
Advances in Engineering Software - Special issue on large-scale analysis, design and intelligent synthesis environments
Easing parallel programming for clusters with Java
Future Generation Computer Systems - Java in high-performance computing
Towards performance evaluation of high-performance computing on multiple Java platforms
Future Generation Computer Systems - Java in high-performance computing
Visualization of Exception Propagation for Java Using Static Analysis
SCAM '02 Proceedings of the Second IEEE International Workshop on Source Code Analysis and Manipulation
BOINC: A System for Public-Resource Computing and Storage
GRID '04 Proceedings of the 5th IEEE/ACM International Workshop on Grid Computing
A roadmap of nature-inspired systems research and development
Multiagent and Grid Systems - Special Issue on Nature inspired systems for parallel, asynchronous and decentralised environments
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In this paper we examine the benefits and limitations of reusable grid computing structure. The key feature of this structure is the ability to hold and manage multiple distributed projects at the same time in the same physical network. We define essential requirements that a grid structure has to meet to be considered reusable. The problems resulting from established assumptions are enumerated. The existing grid computing solutions are analysed from a view of reusability. The design and implementation of reusable grid computing system relying on code propagation methods is discussed in details. The results of experimental verification of theoretical assumptions are included. We show that our choice of building reusable grid framework (RGF) could be successfully applied.