论文信息 - Quantum mechanical Hamiltonian models of discrete processes that erase their own histories: Application to Turing machines

Quantum mechanical Hamiltonian models of discrete processes that erase their own histories: Application to Turing machines

Work done before on the construction of quantum mechanical Hamiltonian models of Turing machines and general discrete processes is extended here to include processes which erase their own histories. The models consist of three phases: the forward process phase in which a mapT is iterated and a history of iterations is generated, a copy phase, which is activated if and only ifT reaches a fix point, and an erase phase, which erases the iteration history, undoes the iterations ofT, and recovers the initial state except for the copy system. A ballast system is used to stop the evolution at the desired state. The general model so constructed is applied to Turing machines. The main changes are that the system undergoing the evolution corresponding toT iterations becomes three systems corresponding to the internal machine, the computation tape, and computation head. Also the copy phase becomes more complex since it is desired that this correspond also to a copying Turing machine.

P. Benioff

[1] J. Neumann. Mathematical Foundations of Quantum Mechanics , 1955 .

[2] Martin D. Davis,et al. Computability and Unsolvability , 1959, McGraw-Hill Series in Information Processing and Computers.

[3] K. Schäfer. ZEITSCHRIFT FÜR ELEKTROCHEMIE BERICHTE DER BUNSENGESELLSCHAFT FÜR PHYSIKALISCHE CHEMIE , 1961 .

[4] A. Messiah. Quantum Mechanics , 1961 .

[5] R. Newton. Scattering theory of waves and particles , 1966 .

[6] R. Morrow,et al. Foundations of Quantum Mechanics , 1968 .

[7] C. Foias,et al. Harmonic Analysis of Operators on Hilbert Space , 1970 .

[8] R. Landauer,et al. Minimal energy dissipation in logic , 1970 .

[9] Rolf Landauer,et al. Minimal Energy Dissipation and Maximal Error for the Computational Process , 1971 .

[10] K. Hepp,et al. QUANTUM THEORY OF MEASUREMENT AND MACROSCOPIC OBSERVABLES. , 1972 .

[11] L. Schiff,et al. Quantum Mechanics, 3rd ed. , 1973 .

[12] Charles H. Bennett,et al. Logical reversibility of computation , 1973 .

[13] J. Bell. On Wave Packet Reduction in the Coleman-HEPP Model , 1974 .

[14] Rolf Landauer,et al. Fundamental Limitations in the Computational Process , 1976 .

[15] P. Benioff. The computer as a physical system: A microscopic quantum mechanical Hamiltonian model of computers as represented by Turing machines , 1980 .

[16] Paul Benioff,et al. Quantum mechanical Hamiltonian models of discrete processes , 1981 .