We present Tigris, a high-performance computation and I/O substrate for clusters of workstations, implemented entirely in Java. Tigris automatically balances resource load across the cluster as a whole, shielding applications from asymmetries in CPU, I/O, and network performance. This is accomplished through the use of a dataow programming model coupled with a workbalancing distributued queue. To meet the performance challenges of implementing such a system in Java, we present Jaguar, a system which enables direct, protected access to hardware resources (such as fast network interfaces and disk I/O) from Java. Jaguar yields an orderof -magnitude performance boost over the Java Native Interface for Java bindings to system resources. We demo...
This paper presents a more efficient Java Remote Method Invocation (RMI) implementation for high-spe...
The file I/O classes present in Java have proven too inefficient to meet the demands of high-perform...
The Java language first came to public attention in 1995. Within a year, it was being speculated tha...
We present Tigris, a high-performance computation and I/O substrate for clusters of workstations tha...
Java is quickly becoming the preferred language for writing distributed applications because of its ...
ABSTRACT Java is quickly becoming the preferred language for writing distributed applications becaus...
1 Introduction There is a growing interest in using Java for high-performance computing because of t...
This paper explains the programming aspects of a promising Java-based programming and execution fram...
There is a growing interest in using Java as the language for developing high-performance computing ...
The rising interest in Java for High Performance Computing (HPC) is based on the appealing features ...
This paper describes a distributed system which aggregates the unused and usually wasted processing ...
Recently there has been an increasing interest in developing parallel programming capabilities in Ja...
Titanium is a high-performance explicitly parallel SPMD dialect of Java. Currently, the runtime supp...
Ibis [vNMH+02] is a Java-centric Grid programming environment for distributed super-computing applic...
Parallel Java is a parallel programming API whose goals are (1) to support both shared memory (threa...
This paper presents a more efficient Java Remote Method Invocation (RMI) implementation for high-spe...
The file I/O classes present in Java have proven too inefficient to meet the demands of high-perform...
The Java language first came to public attention in 1995. Within a year, it was being speculated tha...
We present Tigris, a high-performance computation and I/O substrate for clusters of workstations tha...
Java is quickly becoming the preferred language for writing distributed applications because of its ...
ABSTRACT Java is quickly becoming the preferred language for writing distributed applications becaus...
1 Introduction There is a growing interest in using Java for high-performance computing because of t...
This paper explains the programming aspects of a promising Java-based programming and execution fram...
There is a growing interest in using Java as the language for developing high-performance computing ...
The rising interest in Java for High Performance Computing (HPC) is based on the appealing features ...
This paper describes a distributed system which aggregates the unused and usually wasted processing ...
Recently there has been an increasing interest in developing parallel programming capabilities in Ja...
Titanium is a high-performance explicitly parallel SPMD dialect of Java. Currently, the runtime supp...
Ibis [vNMH+02] is a Java-centric Grid programming environment for distributed super-computing applic...
Parallel Java is a parallel programming API whose goals are (1) to support both shared memory (threa...
This paper presents a more efficient Java Remote Method Invocation (RMI) implementation for high-spe...
The file I/O classes present in Java have proven too inefficient to meet the demands of high-perform...
The Java language first came to public attention in 1995. Within a year, it was being speculated tha...