Varun K Narendra

US Patent:

20140025716, Jan 23, 2014

Filed:

Jan 27, 2011

Appl. No.:

13/015147

Inventors:

Frank C. Hoppensteadt - New York NY, US
Varun Narendra - Jamaica NY, US

Assignee:

NEW YORK UNIVERSITY - New York NY

International Classification:

G06F 15/00

US Classification:

708160

Abstract:

The present invention relates to a polychronous wave propagation system that is based on relative timing between two or more propagated waves through a wave propagation medium. The relative timing may be associated with interference patterns of energy between the propagated waves. Operational behavior of the polychronous wave propagation system is based on the relative timing of the propagated waves and distances between initiators that transmit the propagated waves and responders that receive the propagated waves. The operational behavior may include arithmetical computations, memory storage, Boolean functions, frequency-based computations, or the like. The polychronous wave propagation system relies on time delays between the propagated waves that result from propagation velocities of the propagated waves through the wave propagation medium. By incorporating the time delays into the system, operational capacity may be greatly enhanced.

US Patent:

20150347796, Dec 3, 2015

Filed:

Aug 14, 2015

Appl. No.:

14/826963

Inventors:

- New York NY, US
Varun Narendra - Jamaica NY, US
Eugene M. Izhikevich - San Diego CA, US

International Classification:

G06K 7/10
G06F 17/11

Abstract:

The present invention relates to a polychronous wave propagation system that is based on relative timing between two or more propagated waves through a wave propagation medium. The relative timing may be associated with interference patterns of energy between the propagated waves. Operational behavior of the polychronous wave propagation system is based on the relative timing of the propagated waves and distances between initiators that transmit the propagated waves and responders that receive the propagated waves. The operational behavior may include arithmetical computations, memory storage, Boolean functions, frequency-based computations, or the like. The polychronous wave propagation system relies on time delays between the propagated waves that result from propagation velocities of the propagated waves through the wave propagation medium. By incorporating the time delays into the system, operational capacity may be greatly enhanced.