Result 1 to 20 from 64 total
Design of a reconfigurable pseudorandom number generator for use in intelligent systems. (English)
Neurocomputing 74, No. 10, 1510-1519 (2011).
1
Study on the effects of pseudorandom generation quality on the performance of differential evolution. (English)
Dobnikar, Andrej (ed.) et al., Adaptive and natural computing algorithms. 10th international conference, ICANNGA 2011, Ljubljana, Slovenia, April 14‒16, 2011. Proceedings, Part I. Berlin: Springer (ISBN 978-3-642-20281-0/pbk). Lecture Notes in Computer Science 6593, 361-370 (2011).
2
Geometric random inner product test and randomness of $π$. (English)
Int. J. Mod. Phys. C 20, No. 2, 295-311 (2009).
3
Randomness quality of permuted pseudorandom binary sequences. (English)
Math. Comput. Simul. 79, No. 5, 1618-1626 (2009).
4
The limit behavior of sequences generated by parallel linear congruential generators. (English)
Vestn. St. Petersbg. Univ., Math. 40, No. 4, 306-309 (2007); translation from Vestn. St-Peterbg. Univ., Ser. I, Mat. Mekh. Astron. 2007, No. 4, 118-122 (2007).
5
Layered cellular automata for pseudorandom number generation. (English)
Int. J. Mod. Phys. C 18, No. 2, 217-234 (2007).
6
Permutation and sampling with maximum length CA or pseudorandom number generation. (English)
Appl. Math. Comput. 185, No. 1, 312-321 (2007).
7
Pseudorandom number generation: impossibility and compromise. (English)
J. UCS 12, No. 6, 672-690, electronic only (2006).
8
On the distribution and linear complexity of counter-dependent nonlinear congruential pseudorandom number generators. (English)
JP J. Algebra Number Theory Appl. 6, No. 2, 411-423 (2006).
9
On the distribution of nonlinear congruential pseudorandom numbers in residue rings. (English)
Int. J. Number Theory 2, No. 1, 163-168 (2006).
10
Optimization of 2D lattice cellular automata for pseudorandom number generation. (English)
Int. J. Mod. Phys. C 16, No. 3, 479-500 (2005).
11
Incremental evolution of cellular automata for random number generation. (English)
Int. J. Mod. Phys. C 14, No. 7, 881-896 (2003).
12
Statistical properties and implementation of aperiodic pseudorandom number generators. (English)
Appl. Numer. Math. 46, No.3-4, 295-318 (2003).
13
The generation of pseudorandom numbers for the simulation of white Gaussian noise. (English)
Helleseth, Tor (ed.) et al., Sequences and their applications. Proceedings of the 2nd international conference (SETA’01), Bergen, Norway, May 13-17, 2001. London: Springer. Discrete Mathematics and Theoretical Computer Science. 319-324 (2002).
14
Recent advances in the theory of nonlinear pseudorandom number generators. (English)
Fang, Kai-Tai (ed.) et al., Monte Carlo and quasi-Monte Carlo methods 2000. Proceedings of a conference, held at Hong Kong Baptist Univ., Hong Kong SAR, China, November 27 ‒ December 1, 2000. Berlin: Springer (ISBN 3-540-42718-X). 86-102 (2002).
15
Pseudorandom permutation. (English)
J. Comput. Appl. Math. 142, No.2, 367-375 (2002).
16
Inverse congruential pseudorandom number generators with prime modulus. (English)
Bull. Pure Appl. Sci., Sect. E, Math. Stat. 20, No. 2, 263-272 (2001).
17
On a new class of inversive pseudorandom numbers for parallelized simulation methods. (English)
Period. Math. Hung. 42, No.1-2, 77-87 (2001).
18
Pseudorandom generators without the XOR lemma. (English)
J. Comput. Syst. Sci. 62, No.2, 236-266 (2001).
19
Simulating perpetuities. (English)
Methodol. Comput. Appl. Probab. 3, No.1, 97-115 (2001).
20
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