VNIIEF launch complex supercomputer ahead of schedule

VNIIEF in the I quarter of 2011 will be put into operation a high-performance computer system with a new generation of technical and economic characteristics of world level. According to a press release from the institute, will be put into operation in the first 9 months ahead of schedule.

In 2010, we created the first version of the domestic software packages aimed at solving three-dimensional problems of engineering analysis in the design and creation of new competitive models of equipment at the enterprises of high-tech areas.

As part of the work on the creation of a number of basic supercomputers in the nuclear center has developed a universal compact supercomputer (COP-computer) teraflop class of the original architecture and design.
In 2010, 21 were made a copy of the universal compact supercomputer. Of these, 15 specimens were placed in 11 companies and organizations — co-project, and six more are sold on a commercial basis.

During the 2010 Mathematics Department of the Institute of Theoretical and Mathematical Physics VNIIEF engaged in the development of hardware and software for simulation of practical problems of high-tech industries (aerospace, nuclear power, automotive, space industry).

The work was carried out within the framework of the project "Development of supercomputers and Grids", adopted by the implementation of the Presidential Commission for Modernization and Technological Development of the Russian Federation. It was conducted in a wide cooperation, bringing together more than 35 participants, who included the organization of the State Corporation "Rosatom", the Ministry of Education, the Russian Academy of Sciences, the industrial enterprises above industries.

Created the first version of the domestic software package for three-dimensional simulation of a wide range of applications engineering analysis on massively parallel supercomputers. A major achievement is the fact that by the domestic version of the software packages allow you to perform calculations using up to one thousand processors. It is hundreds of times faster while carrying a separate calculation and extends the possibility of multi-choice calculations.

A significant result of the direction of the development of a number of supercomputers is the basic start-up in December 2010, a fragment of high-performance computing system. Currently, work began on the rapid creation of a full set of high-performance computing to a new generation of technical and economic characteristics of world level.

As part of the work on the creation of a number of basic supercomputers in the nuclear center has developed a universal compact supercomputer (COP-computer) teraflop class of the original architecture and design. CS-computer can be used in conventional workplaces that do not require special engineering systems and personnel. This versatile compact supercomputer is equipped with the basic application software development VNIIEF, focused on solving three-dimensional problems of engineering analysis in the design and creation of new competitive models of equipment at the enterprises of high-tech areas.

Sample CN-computers in 2010 was presented to the State Commission. The outcome of the State Commission recommended it for mass production, and noted that the COP-computer developed by FSUE "VNIIEF" — a unique development and has the best set of parameters in the Russian technical and economic characteristics. In 2010, 21 were made a copy of the universal compact supercomputer. Of these, 15 specimens were placed in 11 companies and organizations — co-project.

As previously reported, in September in the Department of Mathematics VNIIEF reported for the first phase of the state contract with the State Corporation "Rosatom", which is implemented in the framework of the presidential program for the project "Development of supercomputers and grid computing."

At that time, technologies were developed for the design and simulation for supercomputers, the bank of problems including software packages LOGO, LEGAK-DK, Danko + CHEETAH and nymphs. Software packages Danko + CHEETAH allow us to calculate the behavior of structures under seismic action and in emergency situations on ships. The software package NIMFA used in geology for use with water sources (wells, rivers, springs) in calculating the level of impurities and liquid filtration.

Providing a foundation supercomputing technology "virtual aircraft (engine)" for the aviation industry problems. In OKB Sukhoi was transferred to the first version of the program for computational studies of aerodynamic characteristics liner.

Scientists have also developed a "virtual ship's nuclear power plant" for OKBM name Africantov. This design office has received two compact supercomputer with the first versions of software packages. 3D-models of equipment design reactor systems are made for strength calculations.

Developed a "virtual nuclear power plants with pressurized water rector" for SPbAEP and EDO "Hydraulic". These organizations and Nuclear Safety Institute, a compact supercomputer with the first versions of software packages.

OJSC "KAMAZ" is equipped with a compact supercomputer, the company handed over the first versions of software packages and LOGO LEGAK-DK for computational research vehicle performance. LOGO software package tailored to address the problem of determining the aerodynamic characteristics of the tractor-trailer.

Information technologies are created using supercomputers for developing new rocket and space systems. Software packages that were created in the Department of Mathematics ITMF, adapted to meet the challenges in the interests of the space industry.

Like this post? Please share to your friends: