Cloud Computing with HELYX and Penguin Computing On-Demand
WEBINAR ON-DEMAND Learn how HELYX customers can easily access on-demand, high-performance bare-metal computing resources from Penguin Computing On-Demand (POD). Companies using simulation in their design process, often utilize a spectrum of computing resources to meet budgetary and uptime requirements, manage security risks, and remain flexible in order to use only as much compute time as […]
Surface Optimization with Continuous Adjoint
WEBINAR ON DEMAND In this webinar we discuss how surface optimization within HELYX Adjoint enable industry leaders to achieve more. In industries where every design iteration counts, surface optimization is a game-changer. HELYX Adjoint’s Continuous Adjoint method stands out, offering a precise and efficient approach to optimizing designs for maximum performance and efficiency. Continuous Adjoint […]
Machine Learning for Accelerated Aero-Thermal Design in the Age of Electromobility
WEBINAR ON DEMAND Eugene de Villiers presents the work by ENGYS developers and engineers within the UPSCALE project and how that relates to future improvements in Aero-Thermal design in the automotive industry. Artificial Intelligence (AI) coupled with traditional Compute Aided Engineering (CAE) tools provide the potential of transforming the engineering design process. This is one […]
Automating CFD Analysis Tasks with PYTHON and HELYX
WEBINAR ON DEMAND Learn how the macro journal features can be used in the meshing, setup, solving, and post-processing steps of a CFD analysis within HELYX. Increase your simulation agility in HELYX by using the built-in macro language based on PYTHON to drive your CFD work within HELYX GUI. Users can record a journal of macro […]
Simulating Conjugate Heat Transfer Multiphysics with HELYX
WEBINAR ON DEMAND Learn how to mesh, set up and solve conjugate heat transfer multiphysics problems in HELYX. In real-world flows, we often witness the simultaneous occurrence of momentum and heat transport within and between fluid and solid regions. This webinar introduces you to meshing and simulating conjugate heat transfer problems using the implicit region-coupled solver […]
Improving Engineering Design with Topology Optimization
WEBINAR ON-DEMAND Learn from industry experts how topology optimization can help you achieve more with your engineering designs, Topology optimization is revolutionizing product design across industries by enabling engineers to create lighter, stronger, and more efficient products. By leveraging advanced simulation and optimization tools, engineers can explore innovative designs and reduce development cycles, leading to […]
Introduction to Meshing with HELYX
WEBINAR ON DEMAND Learn to perform conjugate heat transfer simulations with CFD and explore the capabilities of HELYX. Creating a computational mesh is a crucial step in the CFD analysis process. A poorly constructed mesh can lead to solver instability, inadequate resolution of flow features, and inefficient use of computational resources. On the other hand, […]
Multi-Region Meshing with HELYX
WEBINAR ON DEMAND This webinars provides a practical introduction to multi-region meshing HELYX. Multi-physics problems often involve multiple regions interconnected by complex interfaces. These complex interfaces are designed to enhance or deter transfer of heat, mass, or momentum between regions. These systems pose a meshing challenge and HELYX is capable of generating meshes for multi-region […]
HELYX-Core Compilation with CMAKE
WEBINAR ON-DEMAND This webinar provides a practical introduction to using CMAKE and walk through the process of compiling HELYX core. Maximizing performance on custom hardware configurations is extremely important for teams leveraging simulation within an engineering design process. This means that being able to easily compile updates and custom code within organizations needs to be […]
Porous Media Modelling with HELYX
WEBINAR ON DEMAND This webinar provides a practical introduction to porous media models in the volume and at boundaries. Complex or small structures can be difficult to mesh and we often need to use a porous media modelling approach to capture the momentum changes (pressure drop). This approach can help us represent screens, filters, radiator […]