COMPUTER SOFTWARE THAT MODELS

Brand Owner (click to sort) Address Description
BLOCKRATER SILICON METRICS CORPORATION 12710 Research Boulevard, Suite 300, Austin TX 78759 Computer software that models the electrical properties of integrated circuits;BLOCK RATER;
CONFLUENCE Swartz, Peter J. 21444 SW 65th Ave. Tualatin OR 97062 computer software that models the operation of a water supply system under certain weather, streamflow, and demand conditions which is used to evaluate alternative future municipal water supply strategies;
CONFLUENCE Fiske, Gary S. 1671 Highland Drive Lake Oswego OR 97034 computer software that models the operation of a water supply system under certain weather, streamflow, and demand conditions which is used to evaluate alternative future municipal water supply strategies;
IORATER Taveren Technology, Inc 3925 Braker Lane, Suite 1200 Austin TX 78759 computer software that models the performance of external interface circuit designs;
LBHYDRA REGENTS OF THE UNIVERSITY OF MINNESOTA 600 McNamara Alumni Center 200 Oak Street SE Minneapolis MN 55455 Computer software that models a wide array of fluid mechanical behavior;LB HYDRA;
MACRORATER SILICON METRICS CORPORATION 12710 Research Boulevard, Suite 300, Austin TX 78759 Computer software that models the electrical properties of integrated circuits;
MEMRATER SILICON METRICS CORPORATION 12710 Research Boulevard, Suite 300, Austin TX 78759 Computer software that models the electrical properties of integrated circuits;
VENTSIM HOWDEN CANADA INC. 488 BASALTIC ROAD CONCORD, ONTARIO L4K 5A2 Canada Computer software that models, simulates, monitor and control ventilation functions in industrial environments; Computer software for use in underground mining environments that models, simulates, monitor and control ventilation, air flow and fans, pressures, heat, gases, and other ventilation factor data from a model of tunnels and shafts; Underground mine ventilation simulation software that simulates conditions in an underground mine and ventilation issues, that is, air flow, thermodynamic heat and moisture modeling, blasting fumes dispersion and clearance times, fan modeling, contaminant spread, emergency simulations, and ventilation operating costing calculation;
VENTSIM Howden Alphair Ventilating Systems, Inc. 1221 Sherwin Road, Winnipeg Manitoba R3H0V3 Canada Computer software that models, simulates, monitor and control ventilation functions in industrial environments; Computer software for use in underground mining environments that models, simulates, monitor and control ventilation, air flow and fans, pressures, heat, gases, and other ventilation factor data from a model of tunnels and shafts; Underground mine ventilation simulation software that simulates conditions in an underground mine and ventilation issues, that is, air flow, thermodynamic heat and moisture modeling, blasting fumes dispersion and clearance times, fan modeling, contaminant spread, emergency simulations, and ventilation operating costing calculation;
 

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

    
Technical Examples
  1. A system and method that implements top-down and bottom-up model-driven transformations between platform-independent (business view) modeling approaches and platform-specific (IT architectural) models. On the business level, business view models may be expressed in, but not limited to ADF or UML2, whereas on the IT architecture side, service-oriented architectures with Web service interfaces and processes are specified in business process protocol languages including, but not limited to, BPEL4WS, or workflow definitions. An architecture and a transformation method based on typed information flows automatically transforms platform-independent business models into executable information technology (IT) architecture specifications constrained by a specific IT platform, and vice versa. The models generated span the entire life cycle of a software system and ease the software production, deployment and maintenance tasks. That is, the different models generated for the same system are "linked" in a way that relevant changes in one model may be propagated to the other models to keep the model set consistent.