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2. Cryptographically secure pseudorandom number generator

   en.wikipedia.org/wiki/Cryptographically_secure...

   A secure block cipher can be converted into a CSPRNG by running it in counter mode using, for example, a special construct that the NIST in SP 800-90A calls CTR_DRBG. CTR_DBRG typically uses Advanced Encryption Standard (AES). AES-CTR_DRBG is often used as a random number generator in systems that use AES encryption. [9] [10]

3. Blum–Micali algorithm - Wikipedia

   en.wikipedia.org/wiki/Blum–Micali_algorithm

   The Blum–Micali algorithm is a cryptographically secure pseudorandom number generator. The algorithm gets its security from the difficulty of computing discrete logarithms. [1] Let be an odd prime, and let be a primitive root modulo . Let be a seed, and let

4. BSAFE - Wikipedia

   en.wikipedia.org/wiki/BSAFE

   As a cryptographically secure random number generator is often the basis of cryptography, much data encrypted with BSAFE was not secure against NSA. Specifically it has been shown that the backdoor makes SSL/TLS completely breakable by the party having the private key to the backdoor (i.e. NSA). [5]

5. List of random number generators - Wikipedia

   en.wikipedia.org/wiki/List_of_random_number...

   Blum-Blum-Shub is a PRNG algorithm that is considered cryptographically secure. Its base is based on prime numbers. Park-Miller generator: 1988 S. K. Park and K. W. Miller [13] A specific implementation of a Lehmer generator, widely used because it is included in C++ as the function minstd_rand0 from C++11 onwards. [14] ACORN generator: 1989 ...

6. ISAAC (cipher) - Wikipedia

   en.wikipedia.org/wiki/ISAAC_(cipher)

   ISAAC (indirection, shift, accumulate, add, and count) is a cryptographically secure pseudorandom number generator and a stream cipher designed by Robert J. Jenkins Jr. in 1993. [1] The reference implementation source code was dedicated to the public domain. [2] "I developed (...) tests to break a generator, and I developed the generator to ...

7. Yarrow algorithm - Wikipedia

   en.wikipedia.org/wiki/Yarrow_algorithm

   Since the outputs of Yarrow are cryptographically derived, the systems that use those outputs can only be as secure as the generation mechanism itself. That means the attacker who can break the generation mechanism will easily break a system that depends on Yarrow's outputs. This problem cannot be solved by increasing entropy accumulation.

8. Fortuna (PRNG) - Wikipedia

   en.wikipedia.org/wiki/Fortuna_(PRNG)

   Fortuna is a cryptographically secure pseudorandom number generator (CS-PRNG) devised by Bruce Schneier and Niels Ferguson and published in 2003. It is named after Fortuna, the Roman goddess of chance. FreeBSD uses Fortuna for /dev/random and /dev/urandom is symbolically linked to it since FreeBSD 11. [1] Apple OSes have switched to Fortuna ...

9. Category : Cryptographically secure pseudorandom number ...

   en.wikipedia.org/wiki/Category:Cryptographically...

   A cryptographically secure pseudo-random number generator (CSPRNG) is a pseudo-random number generator (PRNG) with properties that make it suitable for use in cryptography. See cryptographically secure pseudorandom number generator .