🚲 Along with the hundreds of thousands of fans that attend Giro d'Italia every year, millions of fans are able to watch the race at home thanks to certain technological innovations and the minds behind them. In this story, we look at how researchers used simulation to design and optimize circularly polarized antennas for the mobile recording of live sporting events. Read it here:
COMSOL, Inc.
Software Development
Burlington, MA 48,094 followers
Simulate real-world designs, devices, and processes with the COMSOL Multiphysics® software.
About us
COMSOL develops mathematical modeling software for driving new breakthroughs in physics and engineering. The COMSOL Multiphysics® simulation software is used to model designs, devices, and processes in all fields of engineering, manufacturing, and scientific research. It includes the Model Builder, with fully coupled multiphysics and single-physics modeling capabilities, and the Application Builder, for turning models into easy-to-use simulation apps. Add-on products with specialized functionality are available for electromagnetics, structural mechanics, acoustics, fluid flow, heat transfer, chemical engineering, and CAD interfacing. Apps can be distributed to design teams, manufacturing departments, test labs, customers, and more via COMSOL Compiler™, used to compile apps into standalone executable files, and COMSOL Server™, used to manage and distribute apps organizationwide. COMSOL was founded in 1986 in Stockholm, Sweden, and now includes 16 offices and a distributor network throughout the world.
- Website
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https://www.comsol.com
External link for COMSOL, Inc.
- Industry
- Software Development
- Company size
- 501-1,000 employees
- Headquarters
- Burlington, MA
- Type
- Privately Held
- Founded
- 1986
- Specialties
- Multiphysics, Structural Mechanics, Simulation, Applications, Acoustics, Heat Transfer, Electromagnetics, Computational Fluid Dynamics, Electrochemistry, Finite Element Analysis, Chemical Engineering, Mechanical Engineering, MEMS, Microfluidics, Corrosion, and Batteries
Locations
Employees at COMSOL, Inc.
Updates
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The use of simulation-data-driven surrogate models in simulation apps yields compact apps that give near-instantaneous results for a seamless user experience. In this presentation, we cover: ✅ How to build faster simulation apps and digital twins with surrogate models using COMSOL Multiphysics ✅ The surrogate model workflow ✅ How to build an app of a tubular reactor that uses a surrogate model to provide quicker evaluations 🎥 Start watching here:
Training Surrogate Models to Build Faster Simulation Apps and Digital Twins
comsol.com
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Numerically computing the material properties of composites requires homogenization techniques. In this blog post, we showcase a simulation app created with COMSOL Multiphysics that can be used for composite material design and material homogenization: https://buff.ly/3ULLZZC
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Potentially the source of the term, "the real McCoy", Elijah McCoy's steam engine lubrication system transformed the railroad industry in the late 1800s and landed him a place in the U.S. National Inventors Hall of Fame. Hop on board with us as we celebrate Elijah McCoy’s birthday with a quick trip through his life and work 🚂:
Happy Birthday, Elijah McCoy
comsol.com
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Want to start building simulation apps? Then our new Learning Center course is for you! In this course, we cover how to build and customize simulation apps with COMSOL Multiphysics and the Application Builder. For an overview of the course, and to learn how to get started with it, follow the link ➡️ https://buff.ly/44t8Dcq
New Course on Building Simulation Apps with the Application Builder
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Using multiphysics simulation in the development process enables engineers to model all of the physics phenomena that affect a particular design. For an introduction to the multiphysics modeling capabilities of COMSOL Multiphysics, join us for this 18-minute webinar, happening on Tuesday, May 7. You will learn about setting up and solving models, turning a model into a simulation app, and managing models and apps in the software. Register here:
The Basics of COMSOL Multiphysics® in 18 Minutes
comsol.com
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Semiconductor chip manufacturing and quantum computing depend on high-vacuum (HV) environments for advanced production processes. In this keynote talk, Dr. Martin Wüest of INFICON discusses how he and his team used multiphysics modeling to help develop the IRG080, a better ionization gauge for measuring pressure in HV environments. Learn about INFICON's work by watching the keynote video here:
Keynote: Simulation of Vacuum Sensors
comsol.com
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Join us for COMSOL Day: Optimization, happening on Thursday, May 2, to see what is possible when multiphysics modeling is combined with optimization. This 1-day online event will include an overview of COMSOL Multiphysics and its capabilities for performing topology, shape, and parameter optimization. In addition, keynote speakers from the DTU - Technical University of Denmark and resolvent will discuss their use of the optimization features in the software for the design of photonic power splitters and battery packs, respectively. Register here: https://lnkd.in/ewy5--rd
COMSOL Day: Optimization
comsol.com
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🌍 Happy Earth Day! In this blog post, read about how engineers are using simulation to help the environment. This includes a look at the use of simulation in the production of electric vehicle components, energy-efficient ovens, biofuel, and more:
6 Ways Engineers Are Using Simulation to Help the Environment
comsol.com
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MEMS components are found in smartphones, vehicles, navigation systems, and healthcare monitoring systems. Successful MEMS design requires understanding the interactions between various physics at the microscale. This means that multiphysics analysis is critical for the development and optimization of MEMS devices. On Thursday, May 16, join us for COMSOL Day: MEMS to learn how COMSOL Multiphysics can be used for simulation that captures the multiphysics interactions that affect MEMS designs. Register today: https://lnkd.in/eB_7wAAc