The Role of Simulation in Medical Device Innovation

1. FEA Explicit Dynamic for Drop Impact Simulation Using Altair Radioss　 2. Multi parameter Sensitivity Analysis & Deterministic Design Optimization on A/C Outdoor Unit. 3. Uncertainty Quantification & Reliability Based Design Optimization 2D CFD Case Study

With faster computers comes new complexities that, if understood, can be mastered to yield significant application performance and cost improvements. In this breakout session, we will investigate how the Azure HBv3 offering, with increased memory bandwidth and L3 cache, can drastically reduce time to solution for AcuSolve at scale. We will cover some benchmarks and show how they perform on Azure at various scale points. This data will enable AcuSolve users to reduce time to solution so they can dedicate more time to improving their product.

Together with cloud providers and our other HPC partners, Intel is driving the performance and flexibility that are critical to running advanced HPC workloads in the cloud. We collaborate across our HPC ecosystem to help cloud providers offer accelerated, secure, and agile environments using our latest technologies, such as Intel® Xeon® processors. As cloud customers continue exploring new possibilities and applications for HPC, Intel is dedicated to facilitating their success. Intel works with HPC partners from various industries to enable forward-thinking cloud use cases such as bursting, AI, and advanced analytics. Learn how Intel collaborates with Public and Private Cloud Service Providers to optimize HPC workloads for fast, cost-effective execution on Intel-based Cloud Instances.

Digital Twin is enjoying a breakthrough, fueled by advances in the sophisticated use of physics-based simulation models of varying fidelities. Connected and informed by data from the field with the help of artificial intelligence, Leonardo S.p.A. validates the performance of product systems virtually in the early stages of design to accelerate the development of their next generation of products.

In modern Electric Vehicles, body panel design plays a huge role in thermal management for the Li-Ion battery and powertrain performance. Early-stage aerodynamic and thermal prediction is necessary for surface optimization of vehicle exterior. Well defined and controlled flow phenomena need to be achieved around the vehicle during A- surface development phase, to improve the ride performance and handling of the vehicle on the road In this phase, Altair CFD Thermal solver AcuSolve drastically reduced the time consumed for analysis

The aerodynamics design of high-performance bikes plays a significant role in reducing the overall drag, increase in speed, and improving the range efficiency. To improve and sustain the performance of the EV, it is necessary to explore various factors such as aerodynamically streamlining the vehicle design, optimise frontal area, and cooling electronic components as well.

Dactem (a DAM group company), developer of specialist test, measurement and assembly solutions for the aerospace industries, presents an overview of the optimization of a thrust balance used for accurate measurements in electrical thruster qualification endurance testing. The presentation will provide details on how a Multiphysics simulation approach was used to find the optimum design taking mechanical, thermal and electromagnetic performance into account. Speakers: Emmanuel Pouleau, CEO, Dactem (a DAM Group company) Pierre Moutet, Engineer, Dactem (a DAM Group company) Duration: 15 minutes

Altair® EDEM™ is a discrete element method solver that enables users to accurately simulate particulate processes. When coupled with Altair Computational Fluid Dynamics (AcuSolve), these two solutions enable the simulation and analysis of two-phase solid-fluid systems. These simulation tools are widely used in various industries and in academia to deepen the understanding of different unit operations, such as mixers, coaters, fluidized beds and pneumatic conveyors. The unique and novel solutions that Altair offers address the challenges when using DEM and coupled CFD-DEM methods.

In this prestation at SC21, Eric Lequiniou highlights the latest achievements of Altair Radioss™ running on Arm-based processors.

Learn how to maximize performance using AMD's 3rd Generation Epyc™ Processors to run simulations with Altair solvers in Eric Lequiniou’s presentation at SC21.

Industry 4.0 is bringing automation of traditional manufacturing and industrial practices, using modern smart technology via the Industrial Internet of Things (IIoT). IIoT technology is making agricultural and mining equipment, trucks, and other heavy industrial assets smarter by adding connectivity. Antennas play a critical role in providing reliable connectivity. During this talk, we will show how advanced electromagnetic (EM) simulation tools can help in the placement and integration of antennas into tractors, heavy-duty trucks, trains, etc. This talk also will showcase, use of wireless propagation simulation tools for network planning and virtual drive test (VDT) scenarios.Presented at the ATCx Heavy Equipment in May 2021.

Speaker: CJ Reddy, VP Business Development–Electromagnetics, Americas, Altair

Duration: 20 minutes

In a world of accelerating technological development, connected products provide the data for manufacturers to stay competitive. Discover how Toggled evolved from manufacturing commoditized lighting products to being a leader in connected building products. See what it takes to design and maintain a connected product ecosystem and the benefits of the data it collects.

The usability of a headset is largely determined by a comfortable fit and its resistance to everyday use. Learn from Alice Lin, Manager of Mechanics at GN Audio R&D how she introduced FEM simulation capabilities at Jabra. The presentation shows how product design benefits from structural analysis, design for comfort, and drop test simulation. A future extension of simulation capabilities intends to address more areas and improve the simulation-driven design process efficiency. Speaker: Alice Lin, Manager of Mechanics, GN Audio Duration: 22 minutes Click the AD icon to select alternative audio translations - French, German, Portuguese and Spanish.

Sustainable designs last longer. David Yáñez from Vortex Bladeless, a Spanish start-up, shares his vision of the technology, the strategies used for the integration of the different physical phenomena involved in the simulation-driven design, and the development of their resonating structures having minimal parts susceptible to wear by friction. The simulation results from CFD, with fluid-structure interaction, and electromagnetic field simulation are compared with experimental wind tunnel results and from in-service environments.

Dust is a serious problem for industries that handle and process bulk materials, causing deteriorating ambient air quality, human health concerns, while increases housekeeping labor costs to meet safe levels for health and fire risks. Learn from Dr. Andrew Grima about the technologies employed to develop a successful solution to minimize dust by using calibrated discrete element modeling (DEM) and new dust extraction technology.

An intuitive and robust CFD workflow is available in Altair® SimLab® - a process-oriented, feature-based finite element analysis software that allows you to quickly and accurately simulate the engineering behavior of complex assemblies. For fluid and thermal analyses, SimLab can make the model setup process even faster, repeatable, thereby minimizing tedious manual steps that can be automated. A live demo will be performed using real-world models to show the simple and smooth analysis process in Altair SimLab that goes from CAD to results in minutes.

For the past three decades, Altair’s optimization solutions have driven the innovative, lightweight, and structurally efficient designs of many products you see and use every day. The intense focus on additive manufacturing in recent years have given a boost to topology optimization and generative design, providing more freedom to explore alternatives. Today, we keep on innovating the technology, looking at including multiple physics, like thermal, electromagnetics, and fluid flow to drive design. Altair AcuSolve – coupled with Altair Optistruct – enables engineers to find the optimum shape by simply defining inlets, outlets, and the allowable space in which the solver can work. AcuSolve’s gradient-based topology optimization method will quickly and efficiently find the path of least resistance to deliver fluid flows with minimal effort.

The Digital Twin concept is broadly applicable to all Altair customer base wanting to develop better products faster. We will explain how to maximize the value you can get from the Altair Platform for Digital Twins. We will illustrate how this solution helps diverse engineering teams develop better, more complex products faster by avoiding work in silos. This will include proven uses cases for the convergence of simulation and data.

In this panel, participants including Dr. Gerardo Olivares of the National Institute for Aviation Research (NIAR) and David Griffith of Robotic Process Automation software provider, AmdoSoft, will be joined by Altair’s own SVP - Strategic Relationships, Piush Patel, to discuss the benefits and complexities of navigating the complex HPC and cloud landscape. If you are a software user looking to accelerate productivity or vendor eager to understand how cloud delivery models can benefit your customers and bottom line, this panel will provide a practical look at the complex cloud landscape from the perspective of software stakeholders and advice from experts on how to embrace it.

In this presentation hear about academic research at the Antenna and Electromagnetics Group at Queen Mary University of London. Examples include the use of Altair Feko to enhance a bee tracking radar performance and to design new generation compact antenna test ranges.

Presented at the 2nd Altair Academic Outreach Event in June 2021

Speaker: Dr. Rostyslav Dubrovka, Lecturer, Terahertz & Quasi Optics Research Unit Manager, Queen Mary University of London
Duration: 21 minutes

This presentation discusses how and why business are moving to Oracle Cloud and what benefits they're realizing in areas including biomedical research, automotive simulation, and weather forecasting. The presentation, by HPC cloud architect Dr. Kevin Jorissen from Oracle, was recorded at the 2021 Altair HPC Summit, and is about 30 minutes long. View all HPC Summit 2021 Presentations

We are seeing a mass increase in data, coming at us from all directions. Whether you are running AI-enhanced HPC applications on-premises or HPC workloads in the cloud, you need platforms and solutions that will offer the performance, scalability, and flexibility to redefine what’s possible with HPC. This presentation by Trish Damkroger from Intel aired at the 2021 Altair HPC Summit, and is about 17 minutes long. View all HPC Summit 2021 Presentations

The scalability performance of Altair Radioss software when running in parallel with up to 1152 cores, using mono and multi-domain techniques, was assessed for a large airplane-ditching model. Within the range of cores tested for the multi-domain (72 to 288 cores), the overall efficiency of the multi-domain simulations was significantly higher than the monodomain, taking almost a third of the time to complete the simulation when compared to the monodomain model for 72 cores. Both techniques have shown excellent scalability, with high scaling efficiency and with outstanding reliability of the results. This presentation by Rafael Bini Leite from National Institute for Aviation Research (NIAR), Amarendra Joshi from Oracle, and Jean-Michele Terrier of Altair aired at the 2021 Altair HPC Summit, and is about 25 minutes long. View all HPC Summit 2021 Presentations

In order to ensure the safety of passengers and on-board personnel, finite element calculation is used at SNCF as part of the acquisition, renovation / modernization projects of trains as a decision aid and preparation for testing approval of trains. This is the main case of the mechanical strength of bolted and screwed assemblies, and more and more of the integration of composite materials into rolling stock structures in order to make them more capacious and less energy intensive. To do this, SNCF is developing methodologies to make the modeling of bolted assemblies and composite parts more reliable, as well as topology optimization. The tools of the HyperWorks suite, and in particular, the OptiStruct solver, allow SNCF to represent its types of materials, as well as these phenomena (bolted assemblies + topology optimization).

Presented at the ATCx Heavy Equipment in May 2021.

Speakers: Patrick Jumin, Derik Joël Kengne Tapchom & Karim Slimani, SNCF

Duration: 20 minutes

This presentation is by Program Manager Rob Jopson. It’s a given that the simulation models we build are intended to capture and predict physical behavior, the data used to create them is not always representative of the manufacturing process used to build the physical part. For layered composite parts in particular, this mismatch can cause significant overhead in managing the simulation data as the model is created and evolves. To solve this problem, Altair’s ply-based modeling methodology strives to maintain a 1:1 relationship between the simulation data and the manufacturing process, independent of solver. The latest developments of this methodology will be presented as a workflow in the new Composite Browser, available in HyperWorks. The recording is about 18 minutes long and was originally presented at the 2020 ATCx Composites.

This workshop on end-to-end workflow for modeling layered composites in HyperWorks was conducted by Program Manager André Möenicke. The recording is about an hour and 37 minutes long, and and was first presented at the 2020 ATCx Composites.

This workshop on molding and structural simulation of injection molded parts was conducted by Frank Ehrhart, EMEA Technical Specialist - Material Engineering/Multiscale Designer. The recording is a little over an hour long, and and was first presented at the 2020 ATCx Composites.

Variational asymptotic beam section (VABS) is a unique technology continuously funded by the US Army since 1988 and it has become a tool of choice in the helicopter and wind turbine industries for modeling composite rotor blades. With analysis of a finite element meshed cross section, VABS can compute the best set of beam properties for 1D beam analysis and also accurately recover 3D stress/strain distribution over the cross section. VABS has been integrated with HyperWorks and OptiStruct for Altair users to take advantage of this powerful technology for better design and analysis of composite beam-like structures.  The recording of the presentation by Dr. Wenbin Yu, CTO of AnalySwift, is almost 20 minutes long, and was originally presented at the 2020 ATCx Composites.

This workshop on end-to-end workflow for modeling layered composites in HyperWorks was conducted by Program Manager Rob Jopson. The recording is about an hour and 32 minutes long, and and was first presented at the 2020 ATCx Composites.

This workshop on material characterization/ virtual testing was conducted by Jeff Wollschlager, VP of Composites Technology. The recording is about an hour and 32 minutes long, and and was first presented at the 2020 ATCx Composites.

This presentation is by Markku Palanterä, Director Composites Business Development, Altair The composites design and simulation suite by Altair is actively developed with a holistic view to cover all stages of the process from material modeling all the way to the certification of composite structures. On the material modeling side, the focus is on continuous further development of Altair’s multiscale modeling technology for continuous fiber composites and injection molded plastics, but not forgetting further application areas, such as additive manufacturing. The ply-based composite modeling in Altair HyperWorks has recently undergone a major update to achieve an improved, more efficient modeling workflow. This together with planned further developments tie the modeling even better with the manufacturing to create realistic models of composite components as built. Altair’s solver technology for implicit and explicit analyses can utilize multiscale material models to accurately describe composite material nonlinear behavior up to failure. Altair’s unique composites optimization technology is being enhanced with the repeat laminate concept that provides added efficiency and user control over lay-up design. To further complement the idea of an integrated system with all the necessary composites capabilities, the Composite Stress Toolbox has been introduced in HyperWorks to support design and certification. The recording is about 22 minutes long and was originally presented at the 2020 ATCx Composites.

In this presentation, Dr Jacob Fish, Professor, Columbia University, introduces some of the key concepts and approaches in multiscale modeling, highlights recent advances aimed at developing practical multiscale tools, and survey the current landscape in multiscale modeling ranging from linking atomistic-to-continuum and continuum-to-continuum scales, physics and data-driven multiscale approaches, and applications in automotive, aerospace and biomedical industries. The recording is about 41 minutes long and was originally presented at the 2020 ATCx Composites.

This presentation is by André Mönicke, Program Manager Classical composite analysis and certification methods continue to be used in a significant share of the composite design process. In particular, applying classical methods early in design, and integrating them with finite methods as soon as possible can allow faster decisions which will be rewarded when it comes time for certification. Altair’s latest developments to respond to those needs will be presented, covering the Integrated Composite Stress Toolbox and a Certification framework available in HyperWorks. The recording is about 20 minutes long and was originally presented at the 2020 ATCx Composites.

This presentation is by Dávid Migács, R&D Engineer at CIKONI GmbH. A key design issue for new hydrogen-based vehicle drive systems is assuring safety of the start-of-the-art polymer lined, carbon fiber overwrapped vessels working at pressures over 700 bar. Cikoni will describe how a multiscale approach gives a better estimation of burst pressures and insight into damage mechanisms for different laminate layups, at both the macroscopic and micromechanical levels, to validate simulation models for structural optimization of layups, along with life predictions. The recording is about 28 minutes long and was originally presented at the 2020 ATCx Composites.

This presentation is by Dr. Tomasz Garstka and Graham Barnes, LMAT Ltd. Manufacturing induced deformations and residual stresses are an unavoidable consequence of processing composites at elevated temperatures. A number of mechanisms have been identified causing residual stresses and distortions, including mismatch in the thermal expansion, cure shrinkage of the resin, consolidation and tool-part interaction. These mechanisms usually act collectively through the curing process and may lead to severe changes in the laminate characteristic. When cured and exposed to natural environment moisture swelling, as well as subsequent stress relaxation mechanisms lead to further geometrical changes. A novel cure simulation solver is demonstrated here with the application to typical aircraft components. The recording is about 10 minutes long and was originally presented at the 2020 ATCx Composites.

In this presentation, MIRDC’s Bionic Intelligent Automatic Guided Vehicle (BI-AGV) is introduced. This “collaborative handling module” has three characteristics of wireless intelligence, flexible use and flexible movement. Through the wireless intelligent collaborative handling system, it can control several automatic guided vehicles (AGVS) in real time, and several vehicles can conduct remote control and serial connection to carry out handling tasks. At the same time, the 360-degree mobile omni-directional wheel design framework is adopted. It has the advantages of flexible use in the area where the traditional unmanned vehicle cannot run smoothly in the indoor narrow space.

Dr. Royston Jones, Global CTO, Altair Consultancy, discusses how the global pandemic has been a catalyst for companies to harness the potential of simulation by reconfiguring their established design processes and traditional organizational structures. Technologies and methods that can deliver design feedback at the speed of development are already available; reducing expensive physical testing while injecting innovation into a company’s product. The rapid evolution towards a connected everything is having a huge effect on design. From autonomous and electric mobility to smart consumer products with new business models, development teams must now integrate simulations of controls systems into complex multi-physics models enriched by data captured by sensors in the field. Especially during concept development when rapid exploration of design ideas is essential, a full embrace of simulation will be essential to compete. The recording is about 19 minutes long, and was presented at the 2020 Global Altair Technology conference.

Join Altair Radioss development and HPC solver VP Eric Lequiniou to find out how AMD EPYC processors speed up crash and multiphysics simulations with Radioss.

A welcome address to Altair's ATCx CFD virtual event hosted in 2020, presented by Andy Fine, VP CFD Solutions EMEA at Altair.

Presented at the ATCx CFD 2020, Fast and Accurate Solutions to Optimize CFD Performance by Stephen Cosgrove, VP CFD Solutions Americas at Altair.