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A Novel Computer Architecture Based Upon Memory Enhanced Logic Gates

详细技术说明

Given here is a non-Turing Machine architecture for computer hardware capable of solving non-polynomial time problems in polynomial time.  Typically, with each added bit of input complexity, a computational system must grow in complexity in an exponential fashion.  For instance, two input bits give four possible bit states (00, 01, 10, 11) but 3 input bits give eight possible states, and 4 input bits give 16 states.  This quickly scales with 8 bits giving 1,024 possible bit combinations and in the case of RSA encryption, 2,048 bits gives… (I’m not exactly sure, but it’s a lot!) Rather than approach computing in the traditional brute-force approach, memory elements are integrated into the logic, yielding much simpler circuits which operate in both a forward and reverse mode until a satisfactory solution is reached, yielding an equilibrium state for a given design.  In this way, traditionally non-polynomial time problems can be solved with polynomial circuit implementations and much faster computing is possible.

*Abstract

None

*IP Issue Date

Jan 19, 2017

*Principal Investigation

Name: Massimiliano Di Ventra

Department:

Name: Fabio Traversa

Department:

其他

Tech ID/UC Case

25746/2016-008-0

Related Cases

2016-008-0

国家/地区

美国