T-Platforms | Projects

Projects

When Lomonosov supercomputer was deployed, it became the most powerful HPC system in Eastern Europe: its peak performance - 420Tflops and Linpack-measured performance - 350Tflops. In November 2009 Lomonosov occupied the 12th position of the TOP500 rating of the world’s most powerful supercomputers. The system efficiency is 83% - one of the best figures in the world. Lomonosov is based on the innovative T-Blade2 blade-system designed by T-Platforms engineers from the ground up. All electronic and mechanical components of this blade-system, except for microchips, fans and PSUs, are T-Platforms` patented developments.

MSU Chebyshev supercomputer, with 60TFlops of peak performance has become the most powerful computing system in Russia, CIS and Eastern Europe countries.. The supercomputer MSU Chebyshev with 60TFlops of peak performance is based on 625 blades designed by T-Platforms, incorporating 1250 quad-core Intel® Xeon® E5472 processors. The Linpack real performance test result is 47.17 TFlops or 78.6% of peak performance. MSU Chebyshev supercomputer incorporated the most recent technological findings of the industry and uses several in-house developed technologies. Its computing core uses the first Russian-developed blade systems which incorporate 20 quad-core Intel® Xeon® 3.0GHz 45-nm processors in a 5U chassis, providing the highest computing density among all Intel-based blade solutions on the market.

MIIT T-4700 supercomputer, integrates a fault-tolerant database cluster and a supercomputer into a unified IT complex, connecting both systems and a shared high performance storage with a high-speed interconnection network.
The latest versions of Oracle DBMS provide an opportunity to utilize cluster technologies for database management. Non-stop functioning of the MIIT’s management system is ensured by the T-Forge DataBase fault-tolerant cluster based on two Taurus nodes, each integrating four quad-core AMD Opteron™ 8356 (Barcelona) processors. A redundant network infrastructure based on the high-bandwidth InfiniBand interconnect integrates the database cluster with a 4-node application cluster based on Discus servers, each based on two quad-core AMD Opteron 2356 processors and 32 GB of operating memory. In March 2009 supercomputer "MIIT T-4700" took the 21 place in the ranking of the most powerful computers in Russia and CIS Top50 (www.supercomputers.ru).

SKIF Ural supercomputer, incorporates advanced technical solutions and original engineering developments. It has cluster architecture and incorporates over three hundred up-to-date 45nm Intel Hypertown quad-core processors. Along with the SKIF MSU supercomputer, SKIF Ural was he first Russian supercomputer built using Intel Xeon Е 5472 processors. The supercomputer is equipped with advanced licensed software for research with the help of engineering modeling and analysis, including FlowVision bundled software by Russian developers. Application areas: nanotechnologies, flow dynamics, optics and spectroscopy, deformation and fracture mechanics, computational and celestial mechanics, computational engineering, 3D modeling, large data base processing, electrodynamics. In March 2008 the SKIF Ural supercomputer took the 4th position in the eighth edition of the TOP50 list of the fastest computers in the CIS countries (www.supercomputers.ru).

SKIF Monomah supercomputer, consists of 64 computing nodes based on 128 quad-core Intel® Xeon® 5345 series processors and has peak performance of 4.7Tflops. It occupied the 12th position of the Top50 list of the most powerful computers in the CIS at the moment of deployment. SKIF Monomakh is the basis for the university’s high performance computing laboratory and helps the university scientists participate in a largest Russian scientific grid network. The system was delivered with a system software suite, Intel ® compilers for Fortran and C/C++, streamlining tools Intel® VTune™ Performance Analyzer 8.0, and also applied software suites for industrial simulation ANSYS Mechanical, ANSYS CFD and DEFORM-3D. Supercomputer SKIF Monomakh at the time of construction complete took 12 place in the ranking Top50 of the most powerful computers in the CIS (www.supercomputers.ru).

SKIF Cyberia supercomputer, bases on 566 dual-core Intel® Xeon® 5150 processors. The system has 12 TFlops of peak performance with 9.019 TFlops of Linpack performance (75% of peak). SKIF Cyberia supercomputer is based on 282 clustered compute nodes and 1 head node in 1U form-factor based on 566 dual-core Intel® Xeon® 5150 processors. SKIF Cyberia compute nodes are based on specially modified system boards: to achieve best sustained performance for leading HPC industry applications, the standard chipset was replaced by Intel 5000x model commonly used in graphical workstations. Innovative low-latency QLogic InfiniPath inteconnect and T-Platforms ReadyStorage ActiveScale Cluster parallel storage technologies also contribute to the highest possible level of customer applications performance.

SKIF K-1000 supercomputer, was ranked among the Top 100 world's mightiest machines in the 24th Top500 list. The SKIF K-1000 supercomputer has shown the total Linpack performance of 2032 GFlops. At present SKIF K-1000 is deployed at the United Institute of Informatics Problems of the Belorussian Academy of Sciences, and is being used for scientific and engineering calculations. Cluster «SKIF K-1000» uses for resolving any problems that require high performance computing in knowledge-intensive industries, biotechnology, medicine, genetics, geological survey, to monitor the environment, weather and many other tasks.

Among the organizations and companies using high-performance solutions:

Governmental organizations
Academic institutions
The Company's oil and gas sector
Companies industrial sector, engineering
Financial institutions
Information Technology, Telecommunications
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State organizations:

The Russian-Belarusian Supercomputer program "SKIF" State of the Union
Financial management of the Administration of Taimyr Autonomous Region Office of Information Technology Administration of the President of the Chuvash Republic
Administration of Moscow region
The Federal Migration Service
Federal Agency for Construction and Housing and Communal Services
Federal State Unitary Enterprise Research Institute "Kvant"

Academic institutions:

Lomonosov Moscow State University
South-Ural State University
Nizhny Novgorod State University. Lobachevsky
Tomsk State University
St. Petersburg State Polytechnic University
Tomsk Polytechnic University
Vladimir State University
Yakutsk State University. MK Ammosov
Orenburg State University
Bashkir State University
International Science and Technology Center
Joint Supercomputer Center of RAS
Research Institute of Applied Acoustics
Research Institute of Nuclear Physics of Moscow State University. Lomonosov
Institute of Bioorganic Chemistry. MM Shemyakin and Yu.A. Ovchinnikova RAN (IBKh RAS)
Research Institute of Precision Mechanics and Computer Engineering behalf SA Lebedeva RAN (ITM CT)
Institute of Problems of Safe Development of Atomic Energy of RAS
Kyrgyz-Slavic University
Program Systems Institute RAS
Moscow State Institute of Electronic Technology (Technical University)
Academy of Labor and Social Relations
Research Institute for Precision Instruments

Company's oil and gas sector:

Paradigm Geophysical
Schlumberger
Landmark
Volgogradregiongaz
Gazpromtrans
Siberian Scientific Analytical Center (SibNATs)
Gazenergotehnika

Enterprises of the industrial sector, engineering:

Financial institutions:

Information Technology, Telecommunications:

Intel Corporation
Yandex
Rambler
Webalta
"Comstar UTS"
Infotel
Headhunter.ru
Betlayn
Branch of Samsung Electronics Corporation
Open Technologies
"K-Systems"
CRIC
RDTEX
STORUS
Russian Link Exchange
Sail
"Media-Service 2000"
"Interlink"
"Data Technology"
"Summa Technologies"
ART cartoons

Special effects, Postoprodakshn: