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Simulia (company)

From Wikipedia, the free encyclopedia

Dassault Systèmes Simulia Corp. is a computer-aided engineering (CAE) vendor. Formerly known as Abaqus Inc. and previously Hibbitt, Karlsson & Sorensen, Inc., (HKS), the company was founded in 1978 by David Hibbitt, Bengt Karlsson and Paul Sorensen, and has its headquarters in Providence, Rhode Island.[1]

In October 2005, Dassault Systèmes acquired Abaqus, Inc.[2] and announced Simulia, the brand encompassing all DS simulation solutions, including Abaqus and Catia Analysis applications. Dassault Systèmes Simulia Corp. is the legal entity that encompasses the Simulia brand of Dassault Systèmes.

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Transcription

Abaqus product suite

The Abaqus suite consists of three core products: Abaqus/Standard, Abaqus/Explicit and Abaqus/CAE (Complete Abaqus Environment). In addition to this, recent versions of Abaqus (6.10 onwards) also contain Abaqus/CFD for computational fluid dynamic simulations.[3] Each of these packages offers additional, optional modules that address specialized capabilities required by some customers.

Abaqus/Standard provides Abaqus analysis technology to solve traditional implicit finite element analysis, including static, dynamic, and thermal analyses, all powered with the widest range of contact and nonlinear material options. Abaqus/Standard also offers additional add-on products and interfaces, which cater to functionalities like design sensitivity analysis, offshore engineering, and seamless integration with third-party software, such as plastic injection molding analysis tools.

Abaqus/Explicit specializes in analysis technology tailored for transient dynamics and quasi-static analyses, employing explicit time integration methods. This approach proves suitable for various applications, including drop tests, crushing scenarios, and manufacturing processes.

Abaqus/CAE provides a complete modeling and visualization environment for Abaqus analysis products. With direct access to CAD models, advanced meshing and visualization, and with an exclusive view towards Abaqus analysis products, Abaqus/CAE is the modeling environment of choice for many Abaqus users.

Abaqus/CFD provides advanced computational fluid dynamics capabilities with extensive support for pre- and post-processing provided in Abaqus/CAE. These scalable parallel CFD simulation capabilities address a broad range of nonlinear coupled fluid-thermal and fluid-structural problems.

Simulia

In addition to the development of the pre-existing Abaqus portfolio, DS has also developed Simulia V5 and V6 product suites which seeks to combine the modelling and simulations aspect into one tool.[4]

CST Studio Suite

CST Studio Suite
Developer(s)Simulia
Initial release1998 (as CST Microwave Studio)
2005 (as CST Studio Suite)
Stable release
2018
Operating systemMicrosoft Windows and Linux
TypeEM simulation software
LicenseProprietary commercial software
Websitewww.cst.com

CST Studio Suite is a computational electromagnetics tool developed by Dassault Systèmes Simulia. It contains several different simulation methods, including the finite integration technique (FIT), finite element method (FEM), transmission line matrix (TLM), multilevel fast multipole method (MLFMM) and particle-in-cell (PIC), as well as multiphysics solvers for other domains of physics with links to electromagnetics.[5][6][7]

The predecessor to CST Studio Suite, MAFIA [de] ("solving Maxwell's equations with the Finite Integration Algorithm"), was sold by CST, a university spin-off from TU Darmstadt founded in 1992 to commercialize the FIT method originally invented in 1977 by Thomas Weiland.[8] Although the software was initially developed for particle accelerator laboratories, it found application in microwave engineering, and so FIT was implemented in CST Microwave Studio (CST MWS) in 1998, which became CST Studio Suite in 2005.[9][8] CST was acquired by Dassault Systèmes in 2016, and since then CST Studio Suite has been a product of Simulia.[10]

PIC simulation of the multipactor effect.

The time domain FIT method uses a proprietary meshing technique called perfect boundary approximation (PBA) to represent curved surfaces in a hexahedral mesh, and there is also a frequency domain FEM solver.[11] Other methods include the MLFMM and shooting boundary ray EM solvers. There are also multiphysics solvers such as PIC, wakefield, thermal and structural mechanics.[12]

The computer aided design (CAD) tools and 3D geometry engine in CST Studio Suite are based on the ACIS kernel.[13] Hardware acceleration is provided by both Nvidia GPUs and Intel Xeon Phi.[14][15]

As an electromagnetic design tool, CST Studio Suite is chiefly used in industries such as telecommunications, defense, automotive, aerospace, electronics and medical equipment.[15] One application of CST Studio Suite is the design and placement of antennas and other radio-frequency components.[16] The antenna systems on the BepiColombo Mercury Planetary Orbiter were developed using CST Studio Suite to investigate their radiation pattern and possible electromagnetic interference.[17]

Electromagnetic compatibility (EMC) – the analysis and mitigation of interference and electromagnetic environmental effects – is another application, because simulation allows potential issues to be identified earlier in the design process than physical testing alone can.[18] Similarly, CST Studio Suite is also used to analyze signal integrity – the quality of electric signal transmission – on printed circuit boards and other electronics.[15]

Other areas of research where CST Studio Suite has been applied include accelerator physics, biological electromagnetics, nanotechnology and metamaterials.[8]

References

  1. ^ "SEO And Digital Marketing Updates".
  2. ^ "Dassault Systèmes Acquires Realistic Simulation Software Firm - Managing Automation". Archived from the original on 2013-01-28. Retrieved 2012-07-07.
  3. ^ "Abaqus/CFD - Dassault Systèmes". www.3ds.com. Archived from the original on 2012-07-16.
  4. ^ "SIMULIA V5 - Dassault Systèmes®".
  5. ^ Sumithra, P.; Thiripurasundari, D. (1 March 2017). "A review on Computational Electromagnetics Methods". Advanced Electromagnetics. 6 (1). doi:10.7716/aem.v6i1.407. Retrieved 19 October 2018.
  6. ^ Yu, Wenhua (2011). Advanced FDTD Methods: Parallelization, Acceleration, and Engineering Applications. Artech House. p. 1. ISBN 9781608071777. A wide variety of packages are currently available, and some of the most popular EM software packages include [...] CST (http://www.cst.com) microwave studio that utilizes the finite integration technique (FIT).
  7. ^ Davidson, David B. (2010). Computational Electromagnetics for RF and Microwave Engineering. Cambridge University Press. p. xv. ISBN 9781139492812. the three codes whose application is discussed in this book, viz. CST, FEKO and HFSS, have further established themselves as amongst the market leaders
  8. ^ a b c Johnston, Hamish (26 May 2009). "Electromagnetic software accelerates ahead". Physics World. Retrieved 23 October 2018.
  9. ^ Grudiev, Alexej. "Simulation packages and Review of Codes" (PDF). CERN.
  10. ^ "Dassault Systèmes to Acquire CST". 20 July 2016. Retrieved 23 October 2018.
  11. ^ Staras, Stanislovas; et al. (2012). Wide-Band Slow-Wave Systems: Simulation and Applications. CRC Press. p. 228. ISBN 9781439881545.
  12. ^ "Solvers". CST. Retrieved 19 October 2018.
  13. ^ "Computer Simulation Technology (CST) - Spatial Corp" (PDF). Spatial Corp. 2015.
  14. ^ "GPU-accelerated applications" (PDF). Nvidia. p. 16. Retrieved 23 October 2018.
  15. ^ a b c "CST Simulations Benefit from Intel® Xeon Phi™ Coprocessors". Intel. p. 16. Retrieved 23 October 2018.
  16. ^ "Antennas". CST. Retrieved 23 October 2018.
  17. ^ Imhof, Christian; Airbus Defence and Space. "Airbus Defence and Space Analyzes Antenna Systems on BepiColombo Using CST STUDIO SUITE". CST. Retrieved 23 October 2018.
  18. ^ Pye, Andy (2016-11-14). "A marriage of design and EM simulation". Environmental Engineering. Retrieved 23 October 2018.
This page was last edited on 14 March 2024, at 03:17
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