random bit generator - vertaling naar russisch
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random bit generator - vertaling naar russisch

THE PROCESS OF GENERATING A SEQUENCE OF NUMBERS OR SYMBOLS THAT CAN NOT BE REASONABLY PREDICTED BETTER THAN BY RANDOM CHANCE
Random number generator; Random Number Generator; Random Number Generation; Random number generators; Random generator; Randomization function; Randomisation function; Random number selection; Random event generator; Randomizing function; Random Number Generators; Random event generator (consciousness research); Random-number generator; Random number god; Random number theory; Random Number God; Random bit generator
  • alt=

random bit generator         
генератор случайных двоичных последовательностей
random number generator         
[компьют.] датчик случайных чисел
random event generator         
генератор случайных событий

Definitie

Induction generator
·add. ·- A machine built as an induction motor and driven above synchronous speed, thus acting as an alternating-current generator;
- called also asynchronous generator. Below synchronism the machine takes in electrical energy and acts as an induction motor; at synchronism the power component of current becomes zero and changes sign, so that above synchronism the machine (driven for thus purpose by mechanical power) gives out electrical energy as a generator.

Wikipedia

Random number generation

Random number generation is a process by which, often by means of a random number generator (RNG), a sequence of numbers or symbols that cannot be reasonably predicted better than by random chance is generated. This means that the particular outcome sequence will contain some patterns detectable in hindsight but unpredictable to foresight. True random number generators can be hardware random-number generators (HRNGs), wherein each generation is a function of the current value of a physical environment's attribute that is constantly changing in a manner that is practically impossible to model. This would be in contrast to so-called "random number generations" done by pseudorandom number generators (PRNGs), which generate numbers that only look random but are in fact pre-determined—these generations can be reproduced simply by knowing the state of the PRNG.

Various applications of randomness have led to the development of different methods for generating random data. Some of these have existed since ancient times, including well-known examples like the rolling of dice, coin flipping, the shuffling of playing cards, the use of yarrow stalks (for divination) in the I Ching, as well as countless other techniques. Because of the mechanical nature of these techniques, generating large quantities of sufficiently random numbers (important in statistics) required much work and time. Thus, results would sometimes be collected and distributed as random number tables.

Several computational methods for pseudorandom number generation exist. All fall short of the goal of true randomness, although they may meet, with varying success, some of the statistical tests for randomness intended to measure how unpredictable their results are (that is, to what degree their patterns are discernible). This generally makes them unusable for applications such as cryptography. However, carefully designed cryptographically secure pseudorandom number generators (CSPRNGS) also exist, with special features specifically designed for use in cryptography.

Vertaling van &#39random bit generator&#39 naar Russisch