CLUSTERIX: National Cluster of Linux Systems
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CLUSTERIX: National Cluster of Linux Systems. Gdańsk. Szczecin. Białystok. Poznań. Warszawa. Zielona Góra. Łódź. Lublin. Wrocław. Częstochowa. Opole. Kraków. Distributed national infrastructure with 12 sites 250+ Intel Itanium2 cpus in the core

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Distributed national infrastructure with 12 sites 250+ Intel Itanium2 cpus in the core

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CLUSTERIX: National Cluster of Linux Systems

Gdańsk

Szczecin

Białystok

Poznań

Warszawa

Zielona

Góra

Łódź

Lublin

Wrocław

Częstochowa

Opole

Kraków

  • Distributed national infrastructure with 12 sites

  • 250+ Intel Itanium2 cpus in the core

  • An experimental installation includes 800+ Intel Itanium2 cpus with 4,5 TFLOPs of peak performance

  • Dedicated 1Gbps bandwidth provided by the Polish Optical Network PIONIER

  • The CLUSTERIX software developed as Open Source, and is based on the Globus Toolkit 2.4 plus web services


CLUSTERIX: National Cluster of Linux Systems

  • Production-class grid infrastructure

    • Basic infrastructure consists of local Linux clusters with 64-bit architecture connected by the Polish Optical Network PIONIER

    • Development of mechanisms and tools capable of management of a distributed cluster with dynamically changing configuration

    • Dynamic attachement of new local clusters with 32- and 64-bit architectures

    • Taking into consideration local policies of administration within independent domains

  • Development of grid middleware:

    • Data management

    • Resource management system with prediction, monitoring

    • Management of user accounts and virtual organizations

    • Network management, IPv6

    • Integrated end-user/administrator interface

    • Checkpointing

  • Examples of applications:

    • Modeling transonic flows and design of advanced tip devices

    • FEM modeling of castings solidification

    • Prediction of protein structures and simulation of protein folding

    • Investigation of properties of bio-molecular systems for drug design

    • Large-scale simulations of blood circulation in micro-capillaries

    • Astrophysical simulations


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