COMPUTER SOFTWARE NUMERICAL SIMULATION

Brand Owner (click to sort) Address Description
CGSIM STR IP HOLDING 9702 Gayton Road, Suite 320 Richmond, VA 23238 Computer software for numerical simulation of bulk crystal growth from melts and solutions;CRYSTAL GROWTH SIMULATOR;
CGSIM STR IP HOLDING 9702 Gayton Road, Suite 320 Richmond, VA 23238 Computer software for numerical simulation of bulk crystal growth from melts and solutions;
MICROPHYSICS Lacey, Christopher Allen 3978 Sorrento Valley Blvd San Diego CA 92121 computer software for numerical simulation of physics instruments to measure performance of magnetic recording devices; magnetic recording devices; devices for computer data storage;MICRO-PHYSICS;
SIMSCALE SimScale GmbH Lichtenbergstraße 8 85748 Garching Germany Computer software for numerical simulation and computer aided engineering;Providing access to and and leasing of access time to computer networks for numercal simulation and computer aided engineering; electronic transmission of computer programs via the Internet;SIM SCALE;Engineering consulting and services for numerical simulation and computer aided engineering; consultancy in the field of computer software for numerical simulation and computer aided engineering; consultancy in the field of computer hardware for numerical simulation and computer aided engineering; computer software rental services for numerical simulation and computer aided engineering; computer hardware rental for numerical simulation and computer aided engineering; design, development, implementation and testing of software in the field of applied mathematics, in particular for numerical simulation; maintenance and adaptation of software in the field of applied mathematics, in particular for numerical simulation;
 

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

    
Technical Examples
  1. A method of conducting a sequence of linked simulation operations, utilizing a computer-based simulation model, commences with the performance of a first simulation operation to generate an output condition. A further simulation operation, which is defined to sequentially follow the first simulation operation, is then formed utilizing the simulation model. The second simulation operation at least partially and automatically inherits the output condition generated by the first simulation operation as an input condition. In this way, the second simulation operation commences with a configuration captured from a preceding simulation operation as an input condition. Multiple simulation operations may at least partially inherit a configuration from the first simulation operation.