7 research outputs found
Java in the High Performance Computing arena: Research, practice and experience
Get PDFThis is a post-peer-review, pre-copyedit version of an article published in Science of Computer Programming. The final authenticated version is available online at: https://doi.org/10.1016/j.scico.2011.06.002[Abstract] The rising interest in Java for High Performance Computing (HPC) is based on the appealing features of this language for programming multi-core cluster architectures, particularly the built-in networking and multithreading support, and the continuous increase in Java Virtual Machine (JVM) performance. However, its adoption in this area is being delayed by the lack of analysis of the existing programming options in Java for HPC and thorough and up-to-date evaluations of their performance, as well as the unawareness on current research projects in this field, whose solutions are needed in order to boost the embracement of Java in HPC.
This paper analyzes the current state of Java for HPC, both for shared and distributed memory programming, presents related research projects, and finally, evaluates the performance of current Java HPC solutions and research developments on two shared memory environments and two InfiniBand multi-core clusters. The main conclusions are that: (1) the significant interest in Java for HPC has led to the development of numerous projects, although usually quite modest, which may have prevented a higher development of Java in this field; (2) Java can achieve almost similar performance to natively compiled languages, both for sequential and parallel applications, being an alternative for HPC programming; (3) the recent advances in the efficient support of Java communications on shared memory and low-latency networks are bridging the gap between Java and natively compiled applications in HPC. Thus, the good prospects of Java in this area are attracting the attention of both industry and academia, which can take significant advantage of Java adoption in HPC.Ministerio de Ciencia e Innovaci贸n; TIN2010-16735Ministerio de Educaci贸n, Cultura y Deporte; AP2009-211
An OpenMP-like interface for parallel programming in Java
No full textThis paper describes the definition and implementation of an OpenMP-like set of directives and library routines for shared memory parallel programming in Java. A specification of the directives and routines is proposed and discussed. A prototype implementation, consisting of a compiler and a runtime library, both written entirely in Java, is presented, which implements most of the proposed specification. Some preliminary performance results are reported. Copyright # 2001 John Wiley & Sons, Lt
An OpenMP-like Interface for Parallel Programming in Java
No full textThis paper describes the definition and implementation of an OpenMP-like set of directives and library routines for shared memory parallel programming in Java. A specification of the directives and routines is proposed and discussed. A prototype implementation, consisting of a compiler and a runtime library, both written entirely in Java, is presented, which implements a significant subset of the proposed specification
Erweiterung des Threadmodelles fur den Einsatz in verteilten und heterogenen Systemumgebungen
Get PDFDesign and Evaluation of Low-Latency Communication Middleware on High Performance Computing Systems
Get PDF[Resumen]El inter茅s en Java para computaci贸n paralela est谩 motivado por sus interesantes
caracter铆sticas, tales como su soporte multithread, portabilidad, facilidad de aprendizaje,alta productividad y el aumento significativo en su rendimiento omputacional.
No obstante, las aplicaciones paralelas en Java carecen generalmente de mecanismos
de comunicaci贸n eficientes, los cuales utilizan a menudo protocolos basados
en sockets incapaces de obtener el m谩ximo provecho de las redes de baja latencia,
obstaculizando la adopci贸n de Java en computaci贸n de altas prestaciones (High Per-
formance Computing, HPC). Esta Tesis Doctoral presenta el dise帽o, implementaci贸n
y evaluaci贸n de soluciones de comunicaci贸n en Java que superan esta limitaci贸n. En
consecuencia, se desarrollaron m煤ltiples dispositivos de comunicaci贸n a bajo nivel
para paso de mensajes en Java (Message-Passing in Java, MPJ) que aprovechan al
m谩ximo el hardware de red subyacente mediante operaciones de acceso directo a memoria remota que proporcionan comunicaciones de baja latencia. Tambi茅n se incluye una biblioteca de paso de mensajes en Java totalmente funcional, FastMPJ, en la
cual se integraron los dispositivos de comunicaci贸n. La evaluaci贸n experimental ha
mostrado que las primitivas de comunicaci贸n de FastMPJ son competitivas en comparaci贸n con bibliotecas nativas, aumentando significativamente la escalabilidad de
aplicaciones MPJ. Por otro lado, esta Tesis analiza el potencial de la computaci贸n en
la nube (cloud computing) para HPC, donde el modelo de distribuci贸n de infraestructura
como servicio (Infrastructure as a Service, IaaS) emerge como una alternativa
viable a los sistemas HPC tradicionales. La evaluaci贸n del rendimiento de recursos
cloud espec铆ficos para HPC del proveedor l铆der, Amazon EC2, ha puesto de manifiesto el impacto significativo que la virtualizaci贸n impone en la red, impidiendo
mover las aplicaciones intensivas en comunicaciones a la nube. La clave reside en un soporte de virtualizaci贸n apropiado, como el acceso directo al hardware de red, junto
con las directrices para la optimizaci贸n del rendimiento sugeridas en esta Tesis.[Resumo]O interese en Java para computaci贸n paralela est谩 motivado polas s煤as interesantes caracter铆sticas, tales como o seu apoio multithread, portabilidade, facilidade de aprendizaxe, alta produtividade e o aumento signi cativo no seu rendemento computacional. No entanto, as aplicaci贸ns paralelas en Java carecen xeralmente de mecanismos de comunicaci贸n e cientes, os cales adoitan usar protocolos baseados en sockets que son incapaces de obter o m谩ximo proveito das redes de baixa latencia, obstaculizando a adopci贸n de Java na computaci贸n de altas prestaci贸ns (High
Performance Computing, HPC). Esta Tese de Doutoramento presenta o dese帽o, implementaci
贸n e avaliaci贸n de soluci贸ns de comunicaci贸n en Java que superan esta limitaci贸n. En consecuencia, desenvolv茅ronse m煤ltiples dispositivos de comunicaci贸n a baixo nivel para paso de mensaxes en Java (Message-Passing in Java, MPJ) que aproveitan ao m谩aximo o hardware de rede subxacente mediante operaci贸ns de acceso
directo a memoria remota que proporcionan comunicaci贸ns de baixa latencia.
Tam茅n se incl煤e unha biblioteca de paso de mensaxes en Java totalmente funcional,
FastMPJ, na cal foron integrados os dispositivos de comunicaci贸n. A avaliaci贸n experimental amosou que as primitivas de comunicaci贸n de FastMPJ son competitivas
en comparaci贸n con bibliotecas nativas, aumentando signi cativamente a escalabilidade
de aplicaci贸ns MPJ. Por outra banda, esta Tese analiza o potencial da computaci贸n na nube (cloud computing) para HPC, onde o modelo de distribuci贸n de infraestrutura como servizo (Infrastructure as a Service, IaaS) xorde como unha alternativa viable aos sistemas HPC tradicionais. A ampla avaliaci贸n do rendemento de recursos cloud espec铆fi cos para HPC do proveedor l铆der, Amazon EC2, puxo de manifesto o impacto signi ficativo que a virtualizaci贸n imp贸n na rede, impedindo mover as aplicaci贸ns intensivas en comunicaci贸ns 谩 nube. A clave at贸pase no soporte de virtualizaci贸n apropiado, como o acceso directo ao hardware de rede, xunto coas directrices para a optimizaci贸n do rendemento suxeridas nesta Tese.[Abstract]The use of Java for parallel computing is becoming more promising owing to
its appealing features, particularly its multithreading support, portability, easy-tolearn properties, high programming productivity and the noticeable improvement in its computational performance. However, parallel Java applications generally su er
from inefficient communication middleware, most of which use socket-based protocols
that are unable to take full advantage of high-speed networks, hindering the
adoption of Java in the High Performance Computing (HPC) area. This PhD Thesis
presents the design, development and evaluation of scalable Java communication
solutions that overcome these constraints. Hence, we have implemented several lowlevel
message-passing devices that fully exploit the underlying network hardware while taking advantage of Remote Direct Memory Access (RDMA) operations to provide low-latency communications. Moreover, we have developed a productionquality Java message-passing middleware, FastMPJ, in which the devices have been integrated seamlessly, thus allowing the productive development of Message-Passing in Java (MPJ) applications. The performance evaluation has shown that FastMPJ communication primitives are competitive with native message-passing libraries, improving signi cantly the scalability of MPJ applications. Furthermore, this Thesis
has analyzed the potential of cloud computing towards spreading the outreach of
HPC, where Infrastructure as a Service (IaaS) o erings have emerged as a feasible
alternative to traditional HPC systems. Several cloud resources from the leading
IaaS provider, Amazon EC2, which speci cally target HPC workloads, have been
thoroughly assessed. The experimental results have shown the signi cant impact
that virtualized environments still have on network performance, which hampers
porting communication-intensive codes to the cloud. The key is the availability of
the proper virtualization support, such as the direct access to the network hardware,
along with the guidelines for performance optimization suggested in this Thesis
