We report on extensions to a Java distributed computation library (JDCL) by Fritsche, Power, and Waldron, with application to a problem in the field of bioinformatics. Within our framework the system has been extended to support applications requiring a MIMD (multiple instruction, multiple data) architecture. The system has been evaluated through a DNA pattern matching application over a network of 90 PCs. The user is required to extend only two Java classes to completely configure a distributed computation
This paper provides an effective design of computing technique of a distributed bioinformatics compu...
This paper describes the design and development of a Java Distributed Computation Library, which pr...
This paper reports three phases of development of a. Java-based distributed system for the implement...
We report on extensions to a Java distributed computation library (JDCL) by Fritsche, Power, and Wal...
A distributed Java platform has been designed and built for the simplified implementation of distrib...
A programmable Java distributed system, which utilises the free resources of a heterogeneous set of ...
A programmable Java distributed system, which utilises the free resources of a heterogeneous set of ...
Sequence similarity and alignment are most important operations in computational biology. However, a...
Abstract — In recent years our society has witnessed an unprecedented growth in computing power avai...
In this paper I describe and extend a new DNA computing paradigm introduced in Blumberg for buildi...
In the past number of years the demand for high performance computing has greatly increased in the ...
We proposed a distributed approach for parallelising Genetic Programming on the Internet. The approa...
This paper presents a distributed approach to parallelise Genetic Programming on the Internet. The m...
Certain bioinformatics research, such as sequence alignment, alternative splicing, protein function/...
The processing of the huge amounts of information in the bioinformatics has been the bottleneck to r...
This paper provides an effective design of computing technique of a distributed bioinformatics compu...
This paper describes the design and development of a Java Distributed Computation Library, which pr...
This paper reports three phases of development of a. Java-based distributed system for the implement...
We report on extensions to a Java distributed computation library (JDCL) by Fritsche, Power, and Wal...
A distributed Java platform has been designed and built for the simplified implementation of distrib...
A programmable Java distributed system, which utilises the free resources of a heterogeneous set of ...
A programmable Java distributed system, which utilises the free resources of a heterogeneous set of ...
Sequence similarity and alignment are most important operations in computational biology. However, a...
Abstract — In recent years our society has witnessed an unprecedented growth in computing power avai...
In this paper I describe and extend a new DNA computing paradigm introduced in Blumberg for buildi...
In the past number of years the demand for high performance computing has greatly increased in the ...
We proposed a distributed approach for parallelising Genetic Programming on the Internet. The approa...
This paper presents a distributed approach to parallelise Genetic Programming on the Internet. The m...
Certain bioinformatics research, such as sequence alignment, alternative splicing, protein function/...
The processing of the huge amounts of information in the bioinformatics has been the bottleneck to r...
This paper provides an effective design of computing technique of a distributed bioinformatics compu...
This paper describes the design and development of a Java Distributed Computation Library, which pr...
This paper reports three phases of development of a. Java-based distributed system for the implement...