SIMULATION

Brand Owner (click to sort) Address Description
NVIDIA INDEX NVIDIA CORPORATION 2788 San Tomas Expressway Santa Clara CA 95051 Simulation, modeling and data processing software for use in, machine learning, database infrastructure design, data management, device control, open data analytics, graphic and multimedia design services, housing and securing data, database design, database development, database implementation, creating applications; computer hardware; integrated circuits; computer graphics hardware; graphics cards; semiconductors; computer chipsets comprised of computer chips and micro-processors; graphics processing units (GPUs) in the nature of computer hardware for processing graphics; computer servers; digital media servers; network servers; high performance computer hardware with specialized features for enhanced game playing ability; electronic game software; computer graphics software; downloadable computer graphics; downloadable computer graphics software and hardware for advanced graphics processing, for managing and implementing virtual desktop infrastructures, for virtual desktops and applications, and for virtualization technology software; downloadable electronic publications in the nature of instruction manuals in the fields of high performance computing, advanced graphics processing and visual computing; electronic publications in the nature of books, manuals, magazines, e-zines, and newsletters featuring information regarding high performance computing, advanced graphics processing and visual computing; computer screen saver software; blank digital storage media;Licensing of computer software;INDEX;
PEOFFICE Optimization Petroleum Technology Co., Ltd. Beijing, China No. 2001, Wanquan Land House Zhi Xin East Road 5 Hai Dian District Beijing 100083, P.R. China SIMULATION, FORECASTING AND DESIGN COMPUTER SOFTWARE FOR USE IN THE FIELD OF PETROLEUM EXPLORATION, FOR DEVELOPMENT, ANALYSIS AND ENGINEERING OF PETROLEUM RESERVOIRS, FOR DESIGNING AND MANAGEMENT OF PETROLEUM DRILLING, FOR THE CONTROL OF PETROLEUM PRODUCTION, FOR THE MANAGEMENT AND CONTROL OF THE DISTRIBUTION AND TRANSPORTATION OF GAS AND OIL, FOR CONTROLLING AND OPTIMALLY DESIGNING AND ENGINEERING OF GAS EXPLORATION; DATA PROCESSORS; COMPUTER OPERATING PROGRAMS; COMPUTERS; COMPUTER PERIPHERALS; EQUIPMENT FOR OIL AND [ GARS ] * gas * PRODUCTION, NAMELY GAS CHROMATOGRAPHY APPARATUS, GAS DETECTORS FOR DETECTING THE PRESENCE OF GAS, GAS METERS, GAS SENSORS FOR MEASURING GAS CONCENTRATION, GASOMETERS, RESIDUAL GAS, ANALYZERS; VOLTAGE REGULATORS FOR ELECTRIC POWER; BLANK OPTICAL DISCS; AND OPTICAL DISCS RECORDED WITH PETROLEUM EXPLORATION, DEVELOPMENT AND PETROLEUM ENGINEERING SOFTWARE/PROGRAMS;In the statement, column 2, line 1, GARS should be deleted, and GAS should be inserted.;Color is not claimed as a feature of the mark.;
SIMSARA Peluse, Patrick 146 R J Lilley Dr FARMINGTON PA 15437 Simulation, AR, VR, Mixed Reality, Design, 3D Rendering;
SIMULATION AERO-TECHNOLOGIES EIDETICS CORPORATION 3440 Wilshire Blvd. Ste. 810 Los Angeles CA 90010 SIMULATION;engineering services in the field of aero dynamics and flight simulation;The lining shown in the drawing is a feature of the mark and is not intended to indicate color.;
SIMULATION TOOLS Simulation Tools, Inc. 38 Charles Drive Tinton Falls NJ 07743 SIMULATION;consulting in the design, development and use of computers and computer programs for simulation;
TRAINING AT THE SPEED OF LIFE Kenneth R. Murray PO Box 916 Gotha FL 34734 Simulation, scenario and reality based training programs and literature;
 

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.