Концепция многозадачной грид-системы с гибким распределением свободных вычислительных ресурсов суперкомпьютеров
Use powerful or even allows to expand with the super computer a circle of tasks and increase in volume of calculations of projected equipment by means of CAE systems ASONIKA (The automated system of ensuring reliability and quality of equipment).
The project of Training Academy “The Stairs of Professional Knowledge” with online-education is presented. Disadvantages of some existing systems with on-line education are disclosed and the features of the proposed approach are describes. The concrete examples of individual courses and complex training programs are introduced.
Over the past decade, active government support accelerated development of supercomputer industry in Russia. Today, there are several large supercomputers of large performance, which solve a growing number of problems. Supercomputer education in Russia is maturing. At the same time, one can observe an unbalanced development with respect to the supercomputer architectures, and a lack of massive parallelism in the solution of applied problems.
The article briefly describes the main trends of how the supercomputer architecture and interconnect evolved since the 1990s. The main trends highlighted, which is winning in a competitive environment of increasing demand for high performance computing using a growing number of processors (cores) for a given problem. We discuss what could be done to put Russia into the same main trend.
Critical attitude of this article seeks in no way to underestimate the progress in the development of Russian supercomputer industry. This is an attempt to focus the attention of the community on the challenges we feel today using HPC in research that could be competitive in the international context.