Influence of the number system in residual classes on the fault tolerance of the computer system

Q3 Computer Science
Alina Yanko, Viktor Krasnobayev, Anatolii Martynenko
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引用次数: 0

Abstract

The concept of increasing the fault tolerance of a computer system (CS) by using the existing natural redundancy, which depends on the number of systems used, is considered. The subject of this article is the methods and means of increasing the fault tolerance of CS and components based on the use of a non-positional number system in residual classes. It is shown that the use of the system of residual classes (SRC) as a number system ensures the fault-tolerant functioning of the real-time CS. This study considers a fault-tolerant CS operating in the SRC. The aim of this research is to show the influence of the non-positional number system in the SRC on the possibility of organizing the fault-tolerant functioning of a computer system. The object of this research is the process of fault-tolerant functioning of the CS in the SRC. This article provides an example of the operation of a fault-tolerant CS in the SRC given by a set of specific bases. The fault tolerance of CS in the SRC is ensured by the use of the basic qualities of the SRC by the method of active fault tolerance by using the procedure of gradual degradation. The level of fault tolerance of CS in the SRC in the example given in the article is achieved by reducing the accuracy of the calculations. This article considers two levels of degradation. Variants of algorithms for operating fault-tolerant CS in the SRC in the modes of replacement and gradual degradation are presented. Methods of system analysis, number theory, theory of computing processes and systems, and coding theory in the SRC were the basis of the conducted research. The results of the analysis of the specific example of the functioning of CS in the SRC given in the article, specified by four information and one control bases, showed the effectiveness of using non-positional code structures to ensure fault-tolerant operation. Conclusions. This article discusses the concept of increasing fault tolerance based on the use of the existing primary redundancy contained in the CS, due to the use of the basic properties of the non-positional number system in residual classes.
残差类中数字系统对计算机系统容错性的影响
考虑了利用现有的自然冗余来提高计算机系统容错性的概念,这种冗余依赖于所使用的系统数量。本文的主题是在残差类中使用非位置数系统来提高CS和组件容错性的方法和手段。结果表明,残差类系统(SRC)作为一个数字系统,保证了实时CS的容错功能。本研究考虑了在SRC中运行的容错CS。本研究的目的是显示非位置数字系统对组织计算机系统容错功能的可能性的影响。本研究的对象是在SRC中CS的容错功能过程。本文提供了一个由一组特定基给出的SRC中容错CS的操作示例。采用主动容错的方法,采用逐步退化的方法,利用结构的基本特性来保证结构的容错能力。文中给出的例子中,CS在SRC中的容错水平是通过降低计算精度来实现的。本文考虑了两个级别的退化。本文提出了在替换模式和逐步退化模式下运行容错CS的各种算法。系统分析方法、数论、计算过程和系统理论以及SRC中的编码理论是所进行研究的基础。文中给出的4个信息库和1个控制库的CS在SRC中运行的具体实例分析结果表明,使用非位置代码结构保证容错运行是有效的。结论。本文利用残馀类中的非位置数系统的基本性质,讨论了基于CS中包含的现有主冗余来增加容错性的概念。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Radioelectronic and Computer Systems
Radioelectronic and Computer Systems Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
3.60
自引率
0.00%
发文量
50
审稿时长
2 weeks
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