论文信息 - Pseudorandom number generators for VLSI systems based on linear cellular automata

Pseudorandom number generators for VLSI systems based on linear cellular automata

The use of a simple hybrid cellular automaton (combining rules 90 and 150 in Wolfram's notation) as a built-in self test (BIST) structure for VLSI systems is considered. Two six-bit pseudorandom number generators based on cellular automata (CA) and LFSR have been designed using 2 mu m design rules for an N-well CMOS process. Layout has been achieved using ChipWise. Comparative performance studies of these CA-based new pseudorandom number generators and the LFSR-based generators show the great advantage of these CA-based BIST structures over the LFSR. The group and semigroup algebraic properties of 1-D null bounded elementary cellular automata with the linear evolution rules 90 and 150 are also presented and discussed, together with their state transition graphs. The variety of symmetries of these CA systems results in a multiplicity of functional dependences for the group and semigroup orders of the associated algebraic structures and the CA length N.

A. Thanailakis | Ph. Tsalides | T. York | P. Tsalides

[1] L. Mirsky,et al. Introduction to Linear Algebra , 1965, The Mathematical Gazette.

[2] Arthur Gill,et al. Linear sequential circuits : analysis, synthesis, and applications , 1966 .

[3] John von Neumann,et al. Theory Of Self Reproducing Automata , 1967 .

[4] Solomon W. Golomb,et al. Shift Register Sequences , 1981 .

[5] S. Wolfram. Statistical mechanics of cellular automata , 1983 .

[6] A. Odlyzko,et al. Algebraic properties of cellular automata , 1984 .

[7] B. A. Huberman,et al. Adaptation and self-repair in parallel computing structures , 1984 .

[8] Howard C. Card,et al. Group Properties of Cellular Automata and VLSI Applications , 1986, IEEE Transactions on Computers.

[9] Stephen Wolfram,et al. Theory and Applications of Cellular Automata , 1986 .

[10] Jacob Savir,et al. Built In Test for VLSI: Pseudorandom Techniques , 1987 .

[11] W.H. McAnney,et al. Built-in test for RAMs , 1988, IEEE Design & Test of Computers.

[12] Howard C. Card,et al. Deterministic one-dimensional cellular automata , 1989 .

[13] PETER D. HORTENSIUS,et al. Importance Sampling for Ising Computers Using One-Dimensional Cellular Automata , 1989, IEEE Trans. Computers.

[14] Howard C. Card,et al. Algebraic Theory of Bounded One-dimensional Cellular Automata , 1989, Complex Syst..

[15] Ph. Tsalides. Cellular automata-based built-in self-test structures for VLSI systems , 1990 .