In this paper we propose a computational grid platform called JaWS++ that seeks to harvest the power of idle pools of workstations connected through the Internet and integrate them in a grid computing platform for the execution of embarrassingly parallel computations. The computations are developed in the portable Java programming language and an API is provided for application development. JaWS++ is a compromise between scavenging and reservation-based computational grids. Its service layer is composed by pools of workstations that are autonomously administered by different organizations. Each pool participates in JaWS++ under a well defined timetable to reduce unforeseen availability problems, increase dependability and favor batch work a...
We have developed JaWS, a Java-based Web computing system, which enables users to effortlessly expor...
Grid computing removes the limitations that exist in traditional shared computing environment, and b...
Grid computing offers a model for solving large-scale scientific problems by uniting computational r...
In this paper we propose a computational grid platform called JaWS++ that seeks to harvest the power...
In computational Grids, performance-hungry applications need to simultaneously tap the computational...
Nowadays, computational grids have evolved to a stage where they can comprise many volunteered resou...
This paper outlines an original Computational Grid deployment protocol which is entirely based on Ja...
Presented for Consideration to the Conference on High Performance Distributed Computing Samuel H. Ru...
This paper outlines an original Computational Grid deployment protocol which is entirely based on Ja...
In computational grids, performance-hungry applications need to simultaneously tap the computational...
Grid computing is applying the resources of many computers in a network to a single problem at the s...
The growing computational power requirements of grand challenge applications has promoted the need f...
The Internet, in particular the World-Wide-Web, continues to expand at an amazing pace. We propose a...
The last decade has witnessed unprecedented changes in parallel and distributed infrastructures. Due...
This paper presents the Jalapeno grid computing system. Jalapeno is implemented in Java and uses pee...
We have developed JaWS, a Java-based Web computing system, which enables users to effortlessly expor...
Grid computing removes the limitations that exist in traditional shared computing environment, and b...
Grid computing offers a model for solving large-scale scientific problems by uniting computational r...
In this paper we propose a computational grid platform called JaWS++ that seeks to harvest the power...
In computational Grids, performance-hungry applications need to simultaneously tap the computational...
Nowadays, computational grids have evolved to a stage where they can comprise many volunteered resou...
This paper outlines an original Computational Grid deployment protocol which is entirely based on Ja...
Presented for Consideration to the Conference on High Performance Distributed Computing Samuel H. Ru...
This paper outlines an original Computational Grid deployment protocol which is entirely based on Ja...
In computational grids, performance-hungry applications need to simultaneously tap the computational...
Grid computing is applying the resources of many computers in a network to a single problem at the s...
The growing computational power requirements of grand challenge applications has promoted the need f...
The Internet, in particular the World-Wide-Web, continues to expand at an amazing pace. We propose a...
The last decade has witnessed unprecedented changes in parallel and distributed infrastructures. Due...
This paper presents the Jalapeno grid computing system. Jalapeno is implemented in Java and uses pee...
We have developed JaWS, a Java-based Web computing system, which enables users to effortlessly expor...
Grid computing removes the limitations that exist in traditional shared computing environment, and b...
Grid computing offers a model for solving large-scale scientific problems by uniting computational r...