Application of the GRID Technology to Study the Selected Problems from Physics CassoGrid
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Application of the GRID Application of the GRID Technology Technology to Study the Selected Problems from to Study the Selected Problems from Physics Physics CassoGrid Alexander Alexander Dirner, Dirner, Jozef Jozef Černák Černák Univerzity of P. J. Šafárik, Košice Univerzity of P. J. Šafárik, Košice Institute of Physics, Faculty of Sciences Institute of Physics, Faculty of Sciences GRID 2004, 29.6.2004, Dubna, Russia
description
Application of the GRID Technology to Study the Selected Problems from Physics CassoGrid. Alexander Dirner, Jozef Černák Univerzity of P. J. Šafárik, Košice Institute of Physics, Faculty of Sciences. GRID 2004, 29.6.2004, Dubna, Russia. - PowerPoint PPT Presentation
Transcript of Application of the GRID Technology to Study the Selected Problems from Physics CassoGrid
Application of the GRID TechnologyApplication of the GRID Technologyto Study the Selected Problems from Physicsto Study the Selected Problems from Physics
CassoGrid
AlexanderAlexander Dirner, Dirner, Jozef Jozef ČernákČernák
Univerzity of P. J. Šafárik, KošiceUniverzity of P. J. Šafárik, Košice
Institute of Physics, Faculty of SciencesInstitute of Physics, Faculty of Sciences
GRID 2004, 29.6.2004, Dubna, Russia
The way toGRID technology at Košice
• 1998 – First attempt with Condor, DQS in KJFaBF PF UPJŠ• 1999/2001 - Project VEGA, RNDr. J. Antoš, CSc.,• Building of PC farms for CDF experiment • ÚEF SAV, KJF PF UPJŠ• 2001 – MOSIX PC Farm – HEP Dep. UPJS, Košice• 2001 – Project of IT 2001 : Grid - SAUNET – RNDr. A. Dirner, CSc.• 2001/2002 – First reasoning about GRID technology implemetation• 2002 – Condor PC Farm TU Košice• 2002 – Project of IT 2002 : Grid - SAUNET - RNDr. A. Dirner, CSc.• Project APVT, Ing. J. Černák, PhD.• Preliminary draft of EU project Grid, Ing. J. Černák, PhD.• 2003 – Project of IT 2003 : CassoGrid - Doc. Ing. L. Šujanský, CSc.• 2003 – First contacts with project NorduGrid• 2003 – Connect of exp. test server to project NorduGrid• 2004 – Instalation of experiment. Grid testbed ÚFV PF UPJŠ• 2004 – New Project APVT, Ing. J. Černák, PhD.
GRID 2004, 29.6.2004, Dubna, Russia
Department PC Farm
GRID 2004, 29.6.2004, Dubna, Russia
The base for communication is high-speed Internet…
GRID 2004, 29.6.2004, Dubna, Russia
Infrastructure: MAN KOŠICE
Topological structureTopological structure MAN CANET MAN CANET
A snapshot
Slovakia, UPJS GRID
GRID 2004, 29.6.2004, Dubna, Russia
A Snapshot
GRID 2004, 29.6.2004, Dubna, Russia
National program of progress in GRID technology
UI SAS Bratislava entrenches in european research area
It is a participant of EGEE project.
EGEE
- Coonected computers, clusters in academic org.
- Utilize connected to SANET2
- Interoperatibility with EGEE
- Find scientifics project
- National program of progress in grid technology
GRID 2004, 29.6.2004, Dubna, Russia
APVT Grant – Science and Techology Agency
Title: The optimal methods of GRID technology utilization for needs of computer simulations of selected problems from natural and technical sciences.
P. J. Šafárik University, Košice
Technical University, Košice
Project objectives: The goal of this project is the design of the effective methods using GRID technology, the design of architectural and user oriented applications for computer simulations of the selected problems from natural and technical sciences.
GRID 2004, 29.6.2004, Dubna, Russia
Project abstract
In the system's domain, the project is oriented for application compatibility preservation with internarional projects and for offering higher standards to the users.
In the software design's domain, it especially surveys on parametric problems and on some parallel problems with the aim to find optimal methods for their realization on grid.
The project bases on the accomplishments in the domain of grid computing:
own common testbed CassoGrid;
participation in the international project NorduGrid
and wide international co-operation.
The acquisition of this project will be:
the education of two aspirants,
verification and introduction of efficient software design methods to use for distributed data processing especially for the natural sciences's domain with ability to wider use.
GRID 2004, 29.6.2004, Dubna, Russia
Project objectives
We will focus on an effective and reliable performance of the grid applications and administration of the resources which belong to the virtual organizations.
We will concentrate on a design of system tools, which enable monitoring of an accessible computer capacity including solutions of possible problems, and tools necessary for a design of the applications which are oriented on the selected problems.
We will analyze available program tools taking into account the specific demands of the target problems, to identify the best tools. In the case of problems we will resolve a missing functionality of these program tools.
We will follow to remain compatible with these new solutions, to know and consecutively to exploit these new attributes to search the optimal design methods of selected application programs.
We will take into account the complementary solutions based on virtual organizations in a cooperation with the P2P (peer-to-peer) approach. GRID 2004, 29.6.2004, Dubna,
Russia
Description of objectives
A selection and design of linguistics tools to describe the parallel algorithms and choice of an appropriate formalism for automatization of the complex computer tasks for the applications domains solved in a frame of this project.
Implementation of a program suite suitable for controlling of computer simulations and visualization of the obtained results (animation and representation of multidimensional areas).
A suggestion of the methods and techniques with an effort to model and to simulate the real dynamical systems using grids. These tasks will be supported by the results from the numerical mathematics group Solutions based on the properties of neuron networks and development of corresponding software packages for grid. Generally individual components of these task has a parametric character, from this reason a utilization of the grid technology seems to be very perspective and well founded .
Using the user oriented programs we will solve the problems from high energy physics, statistical physics molecular dynamics and complex systems. We will concentrate on an effective parallel processing of avalanche like phenomena which belong to the problems with an undetermined computing complexity in 2D.
GRID 2004, 29.6.2004, Dubna, Russia
Using the user oriented programs we will solve the problems from high energy physics, statistical physics molecular dynamics and complex systems. We will concentrate on an effective parallel processing of avalanche like phenomena which belong to the problems with an undetermined computing complexity in 2D. The tasks without an optimal pararelization are understand as the parametric tasks.
Development of an application software for Monte Carlo simulations, processing and analysis of extremely enormous volume of experimental data from high energy physics limited by an orientation on an international collaboration with these instructions: CERN (Švajčiarsko), Forschungszentrum Julich (Nemecko) a BNL (USA). In molecular dynamics we will focus on an implementation of the parallel program PROTOMOL (american-norwegian software project) and development of an appropriate user interface into the grid. The program enables multiprocessor processing with utilization of MPI protocol.
GRID 2004, 29.6.2004, Dubna, Russia
Characteristics of the results
The result of the project will be a system and program compatibility of existing domestic grid solutions with international standards and grids.
The optimal methods of a transition of current program packages into the grid will be verified. The possibility of development new applications based on the grid properties will be examined too.
The optimal development methods for user oriented programs from
natural and technical sciences will be suggested.
The task solutions which are not easy today because their need extreme computational resources will be resolved.
GRID 2004, 29.6.2004, Dubna, Russia
Grid Infrastructure
Energy
Financial Services
Manufacturing
LS/ Bioinformatics
Telco &Media
Gov't & Education
Seismic Seismic AnalysisAnalysis
Reservoir Reservoir AnalysisAnalysis
Derivative Derivative AnalysisAnalysis
Statistical Statistical AnalysisAnalysis
Portfolio RiskPortfolio RiskAnalysisAnalysis
Mechanical/ Mechanical/ Electric DesignElectric Design
Process Process SimulationSimulation
Finite Element Finite Element AnalysisAnalysis
Failure Failure AnalysisAnalysis
Cancer Cancer ResearchResearch
Protein Protein FoldingFolding
Drug Drug DiscoveryDiscovery
Protein Protein SequencingSequencing
Digital Digital RenderingRendering
Collaborative Collaborative ResearchResearch
WeatherWeatherAnalysisAnalysis
HPCHPC
Bandwidth Bandwidth ConsumptionConsumption
GamingGaming
Primary Focus
Areas of Customer Interest
GRID 2004, 29.6.2004, Dubna, Russia
Virtual CollaborationVirtual Collaboration
VRVS technology implementation:
• New VRVS community : SLOVAKIA
• 3 VRVS reflectors located in SANET network
• 5 virtual rooms for Slovakia
• A team of 3 developers in close cooperation with CALTECH
(VRVS-SK team managed by Caltech - Gregory Denis)
GRID 2004, 29.6.2004, Dubna, Russia
http://vrvs.org
SLOVAKIA community
GRID 2004, 29.6.2004, Dubna, Russia
Harvey Newman – Project Investigator, co-inventor
Philipe Galvez – Project Manager, chief architect,
co-inventor
Kun Wei – Reflector modules developer
Dave Adamczyk – VRVS Main server developer
Gregory Denis – European Contact,
R&D Developer and Designer
Juraj Sucik – RTP, Linux, Mac developer
Joao Fernandes – Portuguese Contact,
Support Responsible
Pavel Farkas – New VIC developer
Michal Pauliny – VIC developer
Mikulas Kankula – RAT/VAT developer
VRVS, Caltech Team GRID 2004, 29.6.2004, Dubna, Russia
VRVS - SK Team
RNDr. Pavel MurRNDr. Pavel Muríín, CScn, CSc.. [email protected]@vk.upjs.sk
RNDr. Alexander Dirner, CSc.RNDr. Alexander Dirner, CSc. [email protected] [email protected]
Ing. Pavel Farkaš, PhD.Ing. Pavel Farkaš, PhD. [email protected] [email protected]
Ing. Michal PaulínyIng. Michal Paulíny [email protected] [email protected]
Ing. Ing. Juraj SJuraj Sučíkučík sucik [email protected]@vk.upjs.sk
Ing. Mikuláš Kankula Ing. Mikuláš Kankula kamkula [email protected]@upjs.sk
Ing. Viktor Michalčin michalcinIng. Viktor Michalčin [email protected]@upjs.sk
Ing. Ing. Marek DomarackMarek Domarackýý domarack [email protected]@vk.upjs.sk
GRID 2004, 29.6.2004, Dubna, Russia
IT SUMMIT WSIS Geneva, december 2003 GRID 2004, 29.6.2004, Dubna, Russia
VENUS TRANSIT 2004
8. 6. 2004
– – Videostreaming, Broadcasting, Videostreaming, Broadcasting,
– – VideoLANVideoLAN
GRID 2004, 29.6.2004, Dubna, Russia
Video on DemandVideo on Demand (VoD)(VoD) archive technologyarchive technology
http://webuniversity.science.upjs.sk
GRID 2004, 29.6.2004, Dubna, Russia
