Table 1.
Generator |
Amount of tests at which testing have passed more than 99 % of sequences |
Amount of tests at which testing have passed more than 96 % of sequences |
BBS |
134 (70.8%) |
189 (100%) |
Gryada - 1M |
130 (68.8%) |
184 (97.4%) |
Primitive variant |
134 (70.8%) |
189 (100%) |
Simple variant |
150 (79.4%) |
189 (100%) |
It is necessary to underline, that given results should be considered only as dynamic reflection of complex realization variants effectiveness depending on initial keys length and should not be considered as univalent acknowledgement of small value of this length advantages. Generally, initial keys length will be commensurable with initial keys length in the modern ciphers. It is why initial key structure should contain bits assigning virtual sample space discrete form aspect, and also discrete sampling, quantization and scaling parameters.
As a whole, from complex probing follows that its realization in random sequences generator mode is potentially capable to provide indexes that considerable exceed known analogs. Taking into account, that development of a casual (pseudorandom) sequence makes unrolled key forming basis which performances finally determine encryption quality. Obtained lead-out may be generalized on all developed software complex modes.
Given results are obtained at Russian Federation Education Ministry grant (T02-03.1-816) support.Библиографическая ссылка
Kotenko V.V., Rumjantsev K.E., Polikarpov S.V., Levendyan I.B. VIRTUAL ENCRYPTION COMPUTER TECHNIQUE // Современные наукоемкие технологии. – 2004. – № 2. – С. 38-39;URL: https://top-technologies.ru/ru/article/view?id=21613 (дата обращения: 11.12.2024).