15th Annual Symposium on Switching and Automata Theory (swat 1974) (1974)
Oct. 14, 1974 to Oct. 16, 1974
DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/SWAT.1974.20
We consider random access machines with a multiplication operation, having the added capability of computing logical operations on register are considered both as an integer and as a vector of bits and both arithmetic and boolean operations may be used on the same register. We prove that, counting one operation as a unit of time and considering the machines as acceptors, deterministic and nondeterministic polynomial time acceptable languages are the same, and are exactly the languages recognizable in polynomial tape by Turing machines. We observe that the same measure on machines without multiplication is polynomially related to Turing machine time-thus the added computational power due to multiplication in random access machines is equivalent to the computational power which polynomially tape-bounded Turing machine computations have over polynomially time-bounded computations. Therefore, in this formulation, it is not harder to multiply than to add if and only if PTAPE = PTIME for Turing machines. We also discuss other instruction sets for random access machines and their computational power.
J. Simon and J. Hartmanis, "On the power of multiplication in random access machines," 15th Annual Symposium on Switching and Automata Theory (swat 1974)(FOCS), vol. 00, no. , pp. 13-23, 1974.