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Xilinx Simulator (XSIM) comes as part of the Vivado design suite. It is a compiled-language simulator that supports mixed language simulation with Verilog, SystemVerilog, VHDL and SystemC language. It supports standard debugging tool such as step through code, breakpoints, cross-probing, value probes, call stack and local variable Window.
SLS is used to build plant models that can be simulated fast enough to be integrated in an operator training simulator or in an MPC controller. [18] Systems with a faster dynamics can also be simulated, like a vehicle in a driving simulator. [19] Another example of SLS use is to couple the system-level simulation to a CFD simulation. The system ...
A robot uses its own real hardware to extract sensation and actuation data, then uses this data to infer a physical simulation (self-model) containing aspects such as its own morphology as well as characteristics of the environment. Algorithms such as Back-to-Reality [6] (BTR) and Estimation Exploration [7] (EEA) have been proposed in this context.
An operator training simulator (OTS) is a computer-based training system that uses a dynamic simulation model of an industrial process, usually integrated with an emulator of the process plant's Distributed Control System (DCS).
The first applications of computer simulations for dynamic systems was in the aerospace industry. [5] Commercial uses of dynamic simulation are many and range from nuclear power, steam turbines, 6 degrees of freedom vehicle modeling, electric motors, econometric models, biological systems, robot arms, mass-spring-damper systems, hydraulic systems, and drug dose migration through the human body ...
In business, training simulation [aka Simulation Training] is a virtual medium through which various types of skills can be acquired. [1] Training simulations can be used in a variety of genres; however they are most commonly [ 2 ] used in corporate situations to improve business awareness and management skills.
The J, T, F, and R-perms are all valid substitutes for the A-perm, while the N, V and Y-perm can do the same job as the E-perm. Even fewer algorithms can be used to solve PLL (as few as two, such as the A-perm and U-perm) at the expense of having to repeat these algorithms to solve other cases, with additional "looks" to identify the next step. [8]
Feko is a computational electromagnetics software product developed by Altair Engineering. [3] The name is derived from the German acronym "Feldberechnung für Körper mit beliebiger Oberfläche", which can be translated as "field calculations involving bodies of arbitrary shape". [4]