SOFTWARE THAT CREATES

Brand Owner (click to sort) Address Description
HOME CONTINUITY MANAGER Murphy, Linda M 7372 Monteverde Way Naples FL 34119 software that creates a home continuity plan which is information needed to respond to and recover from a family emergency or disaster;
PEREGRINE REGENTS OF THE UNIVERSITY OF CALIFORNIA, THE 1111 FRANKLIN STREET, 8TH FLOOR OAKLAND CA USA 94607 1 - software that creates, tracks, and calculates energy and dose depositions using Monte Carlo methods for electromagnetic, nuclear, and atomic particles traveling through matter; 2 - a computer containing software that creates, tracks, and calculates energy and dose depositions using Monte Carlo methods for electromagnetic, nuclear, and atomic particles traveling through matter;
PEREGRINE 3D MONTE CARLO REGENTS OF THE UNIVERSITY OF CALIFORNIA, THE 1111 FRANKLIN STREET, 8TH FLOOR OAKLAND CA USA 94607 software that creates, tracks, and calculates energy and dose depositions using Monte Carlo methods for electromagnetic, nuclear, and atomic particles traveling through matter; a computer containing software that creates, tracks, and calculates energy and dose depositions using Monte Carlo methods for electromagnetic, nuclear, and atomic particles traveling through matter;3D MONTE CARLO;
PEREGRINE DOSE CALCULATION ENGINE REGENTS OF THE UNIVERSITY OF CALIFORNIA, THE 1111 FRANKLIN STREET, 8TH FLOOR OAKLAND CA USA 94607 software that creates, tracks, and calculates energy and dose depositions using Monte Carlo methods for electromagnetic, nuclear, and atomic particles traveling through matter; a computer containing software that creates, tracks, and calculates energy and dose depositions using Monte Carlo methods for electromagnetic, nuclear, and atomic particles traveling through matter;DOSE CALCULATION ENGINE;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A method and an apparatus take software source code to synthesize a hardware platform for running the software. The method determines which processor is suitable for running the code and meeting the performance parameters determined by the user. The method also determines which hardware devices are accessed by software. If the hardware target is a semiconductor chip, the invention selects the appropriate IP and creates an HDL description of the chip. If the hardware target is a printed circuit board, the invention creates a schematic or netlist that includes the appropriate microprocessor, the various semiconductor chips, and the necessary interconnections.