The GoEngineer Team has been busy this quarter, attending the top engineering and technology events in the country. From Houston for 3DEXPERIENCE World to RAPID + TCT in Detroit. Let us fill you in on the latest updates and hot topics from the conference center floor.
CST Studio Suite is the electromagnetic analysis software package, developed by SIMULIA, used to design, analyze, and optimize Electromagnetic Systems. This blog will provide step-by-step instructions explaining how to install CST Studio Suite with the Managed DSLS (Dassault Systèmes License Server) option.
Simulation becomes more important by the day for competitive product innovation, but it comes at a cost. Can you do a more sophisticated simulation while keeping the budget under control? The answer is “yes” thanks to a new type of universal licensing and cloud compute for Abaqus, CST Studio Suite, and the other SIMULIA and 3DEXPERIENCE SIMULATION tools.
SIMULIA CST Studio Suite is an advanced electromagnetic simulation software that offers a user-friendly interface and integrated solvers for High Frequency, Statics and Low Frequency, EDA and Electronics, EMC / EMI, Particle Dynamics, and Multi-Physics Thermal / FEA. This article highlights all the new enhancements now available in CST Studio Suite 2024.
Welcome to part three of our five-part series that provides guidance on optimizing your workstation purchase for different CAD workflows. This article will focus on Structural and Plastics Simulation. In each article, we discuss which components of the workstation are essential to that particular workflow and develop some sample configurations to help optimize your spending budget.
Computer Aided Engineering (CAE) is a powerful discipline that enables engineers to design, analyze, and optimize complex systems and structures more efficiently and accurately. It has revolutionized the way engineering is done and will continue to be a critical component of the engineering process in the future. If you are looking to bring Finite Element Analysis (FEA) or Computational Fluid Dynamics (CFD) software in-house, there are a few things you should know before you buy.
As a design progresses, engineers move on to more detailed analyses to validate the design. This is where SOLIDWORKS Simulation can be leveraged to quickly analyze individual components and multi-part assemblies in a range of loading conditions. However, as designs become more complex, the limitations of SOLIDWORKS Simulation become apparent, and more powerful tools like Abaqus are required. This article helps you determine when is a good time to upgrade.
Every year, product developers improve their products, and new, innovative players enter the market, making it more essential to take advantage of simulation in your design and engineering process. In response to this growing need, Dassault Systèmes is making their CAE tools – including CST Studio Suite – more connected to design, more connected to other physics, and more affordable to fully utilize. A big part of that adjustment is new ways to license that software. This is where the SIMULIA Unified License Model comes in.
The size and complexity of product designs that are analyzed and tested with Abaqus continue to grow. Submodeling is an effective technique that can be used when detailed product simulation results are required for a small, localized region within a larger model, allowing the analyst to significantly reduce the computational demands and runtime of an analysis. In this blog, we will look at the theory behind submodeling, the two submodeling techniques available in Abaqus, and how to implement submodels. We will also highlight the limitations of submodeling in Abaqus and the important step of verifying analysis results.