Title :
On one-dimensional quantum cellular automata
Author_Institution :
Dept. of Comput. Sci., Wisconsin Univ., Madison, WI, USA
Abstract :
Since Richard Feynman introduced the notion of quantum computation in 1982, various models of “quantum computers” have been proposed (R. Feynman, 1992). These models include quantum Turing machines and quantum circuits. We define another quantum computational model, one dimensional quantum cellular automata, and demonstrate that any quantum Turing machine can be efficiently simulated by a one dimensional quantum cellular automaton with constant slowdown. This can be accomplished by consideration of a restricted class of one dimensional quantum cellular automata called one dimensional partitioned quantum cellular automata. We also show that any one dimensional partitioned quantum cellular automaton can be simulated by a quantum Turing machine with linear slowdown, but the problem of efficiently simulating an arbitrary one dimensional quantum cellular automaton with a quantum Turing machine is left open. From this discussion, some interesting facts concerning these models are easily deduced
Keywords :
Turing machines; cellular automata; physics; physics computing; quantum theory; simulation; 1D partitioned quantum cellular automaton simulation; constant slowdown; linear slowdown; one dimensional partitioned quantum cellular automata; one dimensional quantum cellular automata; one-dimensional quantum cellular automata; quantum Turing machine; quantum computation; quantum computational model; quantum computers; Circuit simulation; Computational modeling; Computer simulation; Magnetic heads; Physics computing; Polynomials; Quantum cellular automata; Quantum computing; Quantum mechanics; Turing machines;
Conference_Titel :
Foundations of Computer Science, 1995. Proceedings., 36th Annual Symposium on
Conference_Location :
Milwaukee, WI
Print_ISBN :
0-8186-7183-1
DOI :
10.1109/SFCS.1995.492583
