Modern Circuitry Implementation of Dynamic Architecture Supercomputers
Abstract
Introduction: Modern supercomputers have a number of shortcomings concerning their technical and economic characteristics. Besides, the performance of supercomputers when solving real problems is significantly lower than their theoretical performance. Purpose: We develop ways to build supercomputers based on dynamic automata networks, including special circuitry solutions which allow you to considerably improve the specific characteristics of the supercomputers. Results: We have formulated the fundamental principles of creating dynamic architecture supercomputers based on dynamic automata networks, including the implementation of dynamic automata with programmable logic chips and custom domestic LSI chips, providing very high structure regularity for the chips and modules of the system. This considerably simplifies creating supercomputers with dynamic architecture as compared to the conventional supercomputers, and can significantly improve them in terms of their size, energy consumption and cost. Practical relevance: The obtained results allow you to considerably reduce the time and cost of developing computational systems with unlimitedly high performance, providing unlimited scalability, extremely high reliability and informational security of such systems.Published
2016-12-19
How to Cite
Torgashev, V., & Tsarev, I. (2016). Modern Circuitry Implementation of Dynamic Architecture Supercomputers. Information and Control Systems, (6), 74-84. https://doi.org/10.15217/issn1684-8853.2016.6.74
Issue
Section
Hardware and software resources