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Poznań city, PSNC - who are we? Poznań city, PSNC - who are we? Introduction into Virtual Laboratory Introduction into Virtual Laboratory VLab architecture.

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Presentation on theme: "Poznań city, PSNC - who are we? Poznań city, PSNC - who are we? Introduction into Virtual Laboratory Introduction into Virtual Laboratory VLab architecture."— Presentation transcript:

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2 Poznań city, PSNC - who are we? Poznań city, PSNC - who are we? Introduction into Virtual Laboratory Introduction into Virtual Laboratory VLab architecture and solutions VLab architecture and solutions VLab in European projects VLab in European projects Current project progress, achievements Current project progress, achievements

3 Western Poland Province capital Western Poland Province capital Historic, interesting city now in EU Historic, interesting city now in EU International Fair Ground area International Fair Ground area Airport, Railway/Bus Central Terminal (all international) Airport, Railway/Bus Central Terminal (all international) Extensive choice of museums, theaters, restaurants, pubs and clubs Extensive choice of museums, theaters, restaurants, pubs and clubs Poznań

4 City of 600,000 inhabitants and one of the biggest Academic community in Poland: 21 universities and colleges 21 universities and colleges 122,000 students 122,000 students 44 science and research institutes 44 science and research institutes The Polish Academy of Science The Polish Academy of Science The Supercomputing & Networking Center (PSNC) The Supercomputing & Networking Center (PSNC)

5 Poznań Supercomputing & Networking Center Affiliated to Polish Academy of Sciences Affiliated to Polish Academy of Sciences Major Polish HPC center (largest SMP installation in Poland, one of the largest IA64 cluster, and others) Major Polish HPC center (largest SMP installation in Poland, one of the largest IA64 cluster, and others) Poznań Metropolitan Area Network (POZMAN) operator Poznań Metropolitan Area Network (POZMAN) operator Backbone operator (Polish Optical Internet PIONIER 10Gbit/s) Backbone operator (Polish Optical Internet PIONIER 10Gbit/s) R&D institution R&D institution International projects partner (EGEE, GridLab, CrossGrid, Internet2, Geant and more)s International projects partner (EGEE, GridLab, CrossGrid, Internet2, Geant and more)s

6 PIONIER: Technology: Technology: 10Gigabit Ethernet, ATM 10Gigabit Ethernet, ATM Core speed: 10 Gb/s Core speed: 10 Gb/s Number of nodes: 21 Number of nodes: 21 http://noc.pionier.gov.pl/ http://noc.pionier.gov.pl/

7 Virtual Laboratory overview The VLab is a distributed environment, providing its users with the following functionality: Remote access to complex and expansive laboratory research equipment Remote access to complex and expansive laboratory research equipment User-customized Dynamic Measurement Scenarios User-customized Dynamic Measurement Scenarios Digital Science Library - data storage and management Digital Science Library - data storage and management Educational potential Educational potential Workgroup collaboration tools Workgroup collaboration tools Security Security

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9 Virtual Laboratory – technology used Most modules written in generic UNIX – based C++ language Most modules written in generic UNIX – based C++ language End user-side applications written in Java technology End user-side applications written in Java technology (Java WebStart) Web Services chosen as main communication method Web Services chosen as main communication method (gSOAP for C++, Axis for Java) Cooperation with Globus Toolkit on many levels (eg. scheduling) Cooperation with Globus Toolkit on many levels (eg. scheduling) User web portal is the main access point User web portal is the main access point

10 Virtual Laboratory – access point

11 VLab Dynamic Measurements Scenarios definition of complex, multi-dimensional research experiment scenarios definition of complex, multi-dimensional research experiment scenarios connection of experimental and computational jobs connection of experimental and computational jobs multiple conditions on jobs connections, determining the actual execution path multiple conditions on jobs connections, determining the actual execution path description language for resources and connection dependencies description language for resources and connection dependencies Example of a simple measurement scenario

12 Example of the connection diagram

13 VLab Scenario Submission Application

14 Varian Varian 300MHz 1D,2D 2D:COSY 15N,20N CD3OD broadband 10,20,25,30,40 100 "-x -p -c" input1.txt input2.txt output1.txt output2.txt "002" "NO" YYYY:MM:DD:HH:NN Writing down connection rules – simplified example

15 VLab Digital Science Library – scientific data repository Features Widespread access to the published papers Widespread access to the published papers Durability Durability Version Management Version Management Access Management Access Management Copying Protection Copying Protection Notifications Notifications Credibility Credibility

16 VLab Digital Science Library – scientific data repository Allows Category – the ability to group the related publications Category – the ability to group the related publications Catalogue description – detailed information about digital entries in the library Catalogue description – detailed information about digital entries in the library Searching – library content lookup by the user-defined criteria Searching – library content lookup by the user-defined criteria Browsing – visualization of the searched out data in the user-friendly interface Browsing – visualization of the searched out data in the user-friendly interface

17 VLab – current developments, NMR NMR Spectometer – BRUKER Advance 600MHz Installed in the Chemistry Departmet of Adam Mickiewicz University in Poznań

18 VLab – current developments, NMR

19 VLab – current developments, Radio Astronomy Radiotelescope (32m) Department of Radioastronomy of the Nicolaus Copernicus University in Torun

20 VLab – current developments, Radio Astronomy

21 Virtual Laboratory in European projects EXPReS – a Real-time e-VLBI Radio Telescope - JRA1: Future Arrays of Broadband Radio-Telescopes on Internet Computing (FABRIC) - Grid – VLBI collaboration - Grid Workflow management - Grid Routing RING – Remote Instrumentation in Next- Generation Grids - research project

22 VLBI is a technique, in which physically independent and widely separated radio telescopes observe the same region of sky simultaneously, in order to generate very high-resolution continuum and spectral-line images of cosmic radio sources. Telescopes are usually separated by thousands of kilometres Data from each telescope are digitally sampled and stored locally, using high-capacity magnetic tape systems and magnetic disk-array systems Data are sent and correlated at the central point (JIVE) The total flow of data into the central processor is approximately 10-100 Terabytes per single observation, after processing this is reduced to 10-100 Gbytes. VLab in European projects - EXPReS

23 EXPReS – the objective is to create a production-level “electronic” VLBI (e-VLBI) service, in which the radio telescopes are reliably connected to the central data processor at JIVE via a high-speed optical-fibre communication network: Single radio telescope is producing a 2.5Gbps of data during e-VLBI observation Up to 16 radiotelescopes can take part in the e-VLBI Aggregate data flow of up to 40 Gbps into the central processor Generating high-resolution images of cosmic radio sources in real-time. VLab in European projects - EXPReS

24 e-VLBIpilots Current status of the e-VLBI Proof-of-Concept Telescope Network connections. Five telescopes are connected to their NREN, GEANT & ultimately JIVE at 1 Gbps (Jodrell Bank & Cambridge – UK; Westerbork –NL; Torun – PL; Onsala – SE). Arecibo (USA) is connected at 155 Mbps.

25 Real – time eVLBI correlation on distributed Grid resources: 4 radio telescopes 4 radio telescopes experiment length (2 – 4 hrs) experiment length (2 – 4 hrs) data rate 128 Mb/s per telescope data rate 128 Mb/s per telescope VLab in European projects - EXPReS

26 Thank you for your attention http://vlab.psnc.pl/ e-mail: Tomasz Rajtar: ritter@man.poznan.pl or: vlab@psnc.pl


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