MathWorks
MathWorks is an American technological company that works for mathematical software.[1]
Private | |
Industry | Mathematical computing software |
Founded | 1984 |
Headquarters | , |
Area served | Worldwide |
Key people | CEO & President: Jack Little, Chief Mathematician: Cleve Moler |
Products | MATLAB, Simulink |
Website | www |
Company logo
The logo represents a L-shaped object which is related to the wave equation.[2] This was the subject of Moler's thesis.[3]
Who is Cleve Moler?
Cleve Moler is a famous mathematician. He is known for his scientific textbooks[4][5] and technical reviews.[6][7][8]
Notable products
MathWorks is known for making powerful software used in many scientific and technical fields.[9]
MATLAB
MATLAB is a programming language made for numerical analysis (especially numerical linear algebra).[10][11][12] It is named after Matrix Laboratory.
Simulation software
MathWorks is also known for their simulation-related products. The most famous one is Simulink.[13][14][15][16][17][18][19] It is very popular as same as MATLAB. There is also SimEvents and Stateflow. SimEvents was made to simulate physical or dynamical events.[20][21][22] On the other hand, Stateflow aims to understand the state (status) of fluid/atmospheric or any other kind of flows.[23][24][25][26][27]
MathWorks Media
Apple Hill Campus in Natick
Notes
- ↑ Higham, Nicholas (March 16, 2017). "Tracing the Early History of MATLAB Through SIAM News". SIAM News. https://sinews.siam.org/Details-Page/tracing-the-early-history-of-matlab-through-siam-news.
- ↑ This is a partial differential equation about physical waves.
- ↑ Haigh, Thomas (January 2008). "Cleve Moler: Mathematical Software Pioneer and Creator of MATLAB". IEEE Annals of the History of Computing. 30 (1): 87–91.
- ↑ Moler, C. B. (2011). Experiments with MATLAB. Society for Industrial and Applied Mathematics.
- ↑ Moler, C. B. (2004). Numerical computing with MATLAB. Society for Industrial and Applied Mathematics.
- ↑ Gupta, M. M. (1991). Numerical methods and software (David Kahaner, Cleve Moler, and Stephen Nash). SIAM Review, 33(1), 144-147.
- ↑ Moler, C., & Van Loan, C. (1978). Nineteen dubious ways to compute the exponential of a matrix. SIAM review, 20(4), 801-836.
- ↑ Moler, C., & Van Loan, C. (2003). Nineteen dubious ways to compute the exponential of a matrix, twenty-five years later. SIAM review, 45(1), 3-49.
- ↑ Welker, Grant (29 May 2017). "MathWorks now in more than 180 countries". Worcester Business Journal Online. http://www.wbjournal.com/article/20170529/PRINTEDITION/305269996/mathworks-now-in-more-than-180-countries.
- ↑ Gilat, Amos (2004). MATLAB: An Introduction with Applications 2nd Edition. John Wiley & Sons.
- ↑ Quarteroni, Alfio; Saleri, Fausto (2006). Scientific Computing with MATLAB and Octave. Springer.
- ↑ Gander, W., & Hrebicek, J. (Eds.). (2011). Solving problems in scientific computing using Maple and Matlab®. Springer Science & Business Media.
- ↑ Binh, L. N. (2014). Optical fiber communication systems with Matlab and Simulink models. CRC Press.
- ↑ Stewart, R. W., Barlee, K. W., & Atkinson, D. S. (2015). Software defined radio using MATLAB & Simulink and the RTL-SDR. Strathclyde Academic Media.
- ↑ Chaturvedi, D. K. (2017). Modeling and simulation of systems using MATLAB and Simulink. CRC press.
- ↑ Bishop, R. H. (1996). Modern control systems analysis and design using MATLAB and SIMULINK. Addison-Wesley Longman Publishing Co., Inc..
- ↑ Xue, D., & Chen, Y. (2015). Modeling, analysis and design of control systems in MATLAB and Simulink. World Scientific Publishing.
- ↑ Yakimenko, O. A. (2019). Engineering Computations and Modeling in MATLAB®/Simulink®. American Institute of Aeronautics and Astronautics, Inc..
- ↑ Klee, H., & Allen, R. (2016). Simulation of dynamic systems with MATLAB and Simulink. CRC Press.
- ↑ Gray, M. A. (2007). Discrete event simulation: A review of SimEvents. Computing in Science & Engineering, 9(6), 62-66.
- ↑ Harahap, E., Sukarsih, I., Gunawan, G., Fajar, M. Y., Darmawan, D., & Nishi, H. (2016). A Model-Based Simulator for Content Delivery Network using SimEvents MATLAB-Simulink. INSIST, 1(1), 30-33.
- ↑ Rahatulain, A., Qureshi, T. N., & Onori, M. (2014). Modeling and simulation of evolvable production systems using Simulink/SimEvents. In IECON 2014-40th Annual Conference of the IEEE Industrial Electronics Society (pp. 2591-2596). IEEE.
- ↑ Zuliani, P., Platzer, A., & Clarke, E. M. (2013). Bayesian statistical model checking with application to Stateflow/Simulink verification. Formal Methods in System Design, 43(2), 338-367.
- ↑ Agrawal, A., Simon, G., & Karsai, G. (2004). Semantic translation of simulink/stateflow models to hybrid automata using graph transformations. Electronic Notes in Theoretical Computer Science, 109, 43-56.
- ↑ Scaife, N., Sofronis, C., Caspi, P., Tripakis, S., & Maraninchi, F. (2004, September). Defining and translating a" safe" subset of simulink/stateflow into lustre. In Proceedings of the 4th ACM international conference on Embedded software (pp. 259-268).
- ↑ Hamon, G., & Rushby, J. (2004, March). An operational semantics for Stateflow. In International Conference on Fundamental Approaches to Software Engineering (pp. 229-243). Springer, Berlin, Heidelberg.
- ↑ Hamon, G. (2005, September). A denotational semantics for stateflow. In Proceedings of the 5th ACM international conference on Embedded software (pp. 164-172).
Other websites
Coordinates: 42°18′01″N 71°21′01″W / 42.30025°N 71.35039°W