The popularity of the Internet and the availability of powerful computers and high-speed networks as low cost commodity components are changing the way we use computers today. This technology opportunity has led to the possibility of using networks of computers as a single, unified computing resource. Itis possible to use multiple computers as a single unified resource for high performance computing. The Java Development Environment (JDE) includes several features which facilitate the production of stable, robust code for parallel processing. Threads provide an efficient and effective paradigm for utilizing tightly coupled systems and socket communication, remote method invocation (RMI) are for distributing environments. The work focuses on...
We present the design and initial implementation of Hyperion, an environment for the highperformance...
Abstract. Java is gaining considerable recognition as the most suitable language for developing dist...
The performance of parallel code significantly depends on the parallel task granularity (PTG). If th...
The popularity of the Internet and the availability of powerful computers and high-speed networks as...
The popularity of the Internet and the availabili ty of powerful computers and high - speed networks...
Parallelism has been employed for many years, mainly in high-performance computing. The work focuses...
Multi-core processors are nowadays standard in servers, desktop computers, and mobile devices. To ma...
Abstract — To achieve better performance in parallel processing, which is implemented based on java ...
This paper presents a more efficient Java Remote Method Invocation (RMI) implementation for high-spe...
In order to speed up the execution of Java applications, JIT com-pilers compile method bytecodes int...
This paper reports three phases of development of a. Java-based distributed system for the implement...
Abstract—Many existing sequential components, libraries, and applications will need to be re-enginee...
Threading and concurrency are crucial to building high-performance Java applications -- but they ha...
Because of the increasing availability of multi-core machines, clusters, Grids, and combinations of ...
We propose two new approaches that automatically parallelize Java programs at runtime. These approac...
We present the design and initial implementation of Hyperion, an environment for the highperformance...
Abstract. Java is gaining considerable recognition as the most suitable language for developing dist...
The performance of parallel code significantly depends on the parallel task granularity (PTG). If th...
The popularity of the Internet and the availability of powerful computers and high-speed networks as...
The popularity of the Internet and the availabili ty of powerful computers and high - speed networks...
Parallelism has been employed for many years, mainly in high-performance computing. The work focuses...
Multi-core processors are nowadays standard in servers, desktop computers, and mobile devices. To ma...
Abstract — To achieve better performance in parallel processing, which is implemented based on java ...
This paper presents a more efficient Java Remote Method Invocation (RMI) implementation for high-spe...
In order to speed up the execution of Java applications, JIT com-pilers compile method bytecodes int...
This paper reports three phases of development of a. Java-based distributed system for the implement...
Abstract—Many existing sequential components, libraries, and applications will need to be re-enginee...
Threading and concurrency are crucial to building high-performance Java applications -- but they ha...
Because of the increasing availability of multi-core machines, clusters, Grids, and combinations of ...
We propose two new approaches that automatically parallelize Java programs at runtime. These approac...
We present the design and initial implementation of Hyperion, an environment for the highperformance...
Abstract. Java is gaining considerable recognition as the most suitable language for developing dist...
The performance of parallel code significantly depends on the parallel task granularity (PTG). If th...