METHODS AND TOOLS FOR FAST AND RELIABLE PROCESSING OF INTEGER DATA OF STATE INFORMATION SYSTEMS USING A NON-POSITIONAL NUMBER SYSTEM IN THE RESIDUAL CLASSES SYSTEM

Автор(и)

  • A. Yanko
  • V. Krasnobaiev

DOI:

https://doi.org/10.33989/2075-1443.2019.42.202322

Ключові слова:

information technologies, processing of integer data

Анотація

A characteristic feature of an industrial society is the development and use of new, progressive information technologies based on the widespread use of superproductive and reliable dual-use computer systems and components (CSC). The development and improvement of over-productive and reliable dual-purpose CSC is a strategically important and topical issue and is under the special control of the heads of states and governments of the advanced countries of the world. Today, there are a number of areas of science and technology, where there is a need for fast, reliable and high-precision integer arithmetic calculations: arithmetic operations on integers and polynomials; integer linear programming; operations on numbers and sets; solution of multidimensional NP-complete problems; implementation of routing algorithms; multiplication of vectors and matrices; the problem of the Fourier transform and its application; neural network data processing systems; tasks for military purposes; digital signal processing; digital image processing; cryptographic transformations; highly-precise integer arithmetic; the solution of problems related to the space research; highly-precise digital-to-analog and analog-to-digital conversions (Krasnobayev, Koshman, & Mavrina, 2014, р. 969).

Посилання

Akushsky I. Ya., & Yuditsky D. I. (1968). Mashinnaia arifmetika v ostatochnykh klassakh [Machine arithmetic in residual classes]. Moscow: Soviet radio [in Russian].

Amir Sabbagh Molahosseini, Leonel Seabra de Sousa, & Chip-Hong Chang (2017). Embedded Systems Design with Special Arithmetic and Number Systems. Cham, Switzerland: Springer International Publishing.

Krasnobayev V. A., Koshman S. A., & Mavrina M. A. (2014). Metod povysheniia nadezhnosti proverki dannykh, predstavlennykh v sisteme schisleniia ostatkov [A Method for Increasing the Reliability of Verification of Data Represented in a Residue Number System]. Kibernetika i sistemnyi analiz [Cybernetics and Systems Analysis], 50, 6, 969-976. DOI: 10.1007/s10559-014-9688-3 [in Russian].

Shu S., Wang Y., & Wang Y. (2016). A research of architecture-based reliability with fault propagation for software-intensive systems. In 2016 Annual Reliability and Maintainability Symposium (RAMS) (pp. 1-6). Tucson, AZ.

Torgashov V. (1973). Sistema ostatochnykh klassov i nadezhnost tcifrovykh kompiuterov [System of residual classes and reliability of digital computers]. Moscow: Sov. Radio. [in Russian].

##submission.downloads##

Номер

Розділ

СОЦІАЛЬНІ ТРАНСФОРМАЦІЇ В УМОВАХ ФОРМУВАННЯ ІНФОРМАЦІЙНОГО ПРОСТОРУ