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DeWalt是Stanley Black & Decker的电动工具品牌,在其开发持久耐用的高端专业电动工具时,CAE是一项核心元素。

By Evelyn Gebhardt
Concept To Reality Winter/ Spring 2015
Subscribe to C2R Magazine

Altair Embed Connecting to Controller Hardware (Arduino, etc.)
How to generate code from a block diagram and move it onto target microcontroller (MCU) hardware such as an Arduino

Controlling LEDs - Frequency Controlled
Example of host-to-target communication to blink the red LED on the target Texas Instrument F28069M LaunchPad Development Kit using an Embed slider block.

Controlling LEDs - Frequency Controlled With "On Time" Measurement
Host-to/from-target communication to blink the red LED on the Target Texas Instrument F28069M LaunchPad Development Kit

Israeli motorsport company Griiip has designed a new, fast and professional race car that combines efficiency in racing with a competitive purchase price and low running costs, to make it more affordable. By harnessing the power of data, Griiip has created the first smart connected race car – the G1 – and with it, an entirely new racing series. Accessing the software via Altair's new Startup Program, Griiip engineers employ several products from the Altair HyperWorks™ suite, among these Altair Radioss™ for crash simulation, Altair OptiStruct™ for structural optimization, general FE analysis as well as Altair HyperMesh™ and Altair HyperView™ for pre- and post-processing tasks in the development of race cars.

The development of modern electric power tools requires special attention to be simultaneously paid to both the efficiency and user comfort of the tool, as well as the robustness and durability of the devices. For the fulfillment of these two groups of attributes, computer-aided simulations using HyperWorks has become central to the development process of Stanley Black & Decker Deutschland GmbH.

Rotorcraft Design Takes Flight
Optimization tools enable Boeing to balance form and function in the development of advanced aircraft.

Cobot, the Collaborative Robot - Get Ready for Industry 4.0
Development tools and methods, such as simulation, are increasingly important to face and address the pressure of innovation. As an example, for successful new design methods and to show how simulation tools are used, Altair developed a virtual demonstrator based on a cobot application. This complex machine interacts with a human operator as the ultimate smart manufacturing equipment - to show how challenges in modern product design can be overcome.

Altair Embed Datasheet
Altair Embed is an intuitive graphical environment for model-based embedded development. Diagrams are automatically converted to highly-optimized and compact code, which is essential for low-cost microprocessors and high-speed sampling rates. The code can be verified, debugged, and tuned with off-line simulation before downloading it to the target microcontroller (MCU).

Optimization Methods Land Results in ExoMars Project
Sophisticated simulation tools enable aerospace engineers to study the feasibility of airbag landing systems.

Flux Webinar: Accelerate your Design Process with Flux - Dealing with Complex 3D CAD Models
Flux is now fully part of HyperWorks and thanks to our flexible HyperWorks Units, users are now able to access even more tools that will help you to save time in your designs and enable powerful simulations. Flux embeds its own pre-preprocessing tools but designers sometimes need to deal with complex 3D geometries generated by their CAD team.

Oscilloscope Display Using Monitor Buffer
High speed data collection using the EMBED Monitor Buffer Read and Write blocks, using the plot block to display Monitor Buffer data, displaying the % CPU usage using the Target Interface Block, and controlling the Target update time.

Flux Webinar : Safe and Flexible Distribution : Smart Grid Equipment Design
From power plants that regulate their power output, to the coordination of centralized and decentralized energy supplies and fluctuations in power needs - Smart Grid is gaining importance and is expected to provide on-demand management.

Study of Mounted Surface Permanent Magnet Synchronous Machine Using Flux® Skew
Requirements: rotating electrical machine designers want high-reliability, minimum power losses, maximum power, maximum torque and low mechanical resonance vibration and noise. To meet the needs of electrical machine designers, CEDRAT started developing tools that take Skew into account in 2003. Several improvements have been made to this tool. Skew is usually accounted for by sub-dividing the active length of the machine into several 2D slices. In the latest Skew version of Flux the post processing is directly a full 3D post-processing.

Optimizing Powertrain Efficiency and Thermal Management for Improved Vehicle Performance and Energy Efficiency
This presentation focuses on presenting a synergy of different simulation methods and tools towards the accurate prediction of power losses, oil distribution and thermal effects focusing on an automotive and aerospace gearbox example. A number of different approaches are described, including CFD, gear design, bearing design and selection and oil selection, with the aim of maximizing efficiency and ensuring adequate lubrication of critical components and cooling of the powertrain components (e-motor and the associated gearbox)

Godrej 依靠HyperWorks的仿真技术优化钣金件加工流程
      通过使用Altair HyperForm,即HyperWorks’冲压成形技术,Godrej 能够成功地为后翼子板零件设计模具,减少物理试模次数,极大减少模具试模时间。同时,也能准确地预测坯料的尺寸、形状和位置。HyperForm的增量法模拟可以形象地预测种种成形失效,最终确定拉延筋的位置和特征。

Meaningful Results Earlier in the Design Process with SimSolid
Especially in the early design stages of product development, variants change quicker than conventional FEA tools and processes can keep up with. This is even more apparent when full assemblies or complex structures have to be evaluated. Simulation can be a powerful tool to help inform product development decisions, but you need fast, accurate results in order to react at the speed of design.

The Wahoo KICKR Bike: Designing a Ride Experience that Blurs the Line Between Virtual and Reality
As more products enter the market that simulate real world experiences, consumers' expectations are rapidly increasing. To meet these rising expectations the hardware and controls required are becoming more complex while maintaining time to market and cost. To achieve this, efficiencies are required in the control’s development and hardware tools chains. Wahoo Fitness and Altair collaborated to create the new Wahoo KICKR Bike utilizing a Model-Based Design approach to controls development combined with a simulation driven design process to meet the high expectations of the bike trainer community.

HyperForm 2017 Brochure
Altair HyperForm is an industry proven comprehensive finite-element-based sheet metal forming simulation framework. Its unique process-oriented environment captures the forming process with a suite of highly tailored and configurable analysis and simulation tools to optimize all aspects of stamped products development. HyperForm delivers a cost-effective solution to meet the demands of customers varying from individual analysts, and tool shops, and to large OEMS.

Multi-Physics Design and Optimization of a Complex Radar System
Today, most products are complex mechatronic combinations of advanced technologies, mixing electrical parts with controllers and embedded software. To efficiently manage innovative products, organizations are turning to a Model-Based Development approach for concept studies, control design, multi-domain system simulation and optimization. To meet this demand, Altair’s simulation and optimization suite aims to transform design and decision-making throughout product lifecycles with their multi-disciplinary software tools and consultancy services.

Fallbrook Technologies
Traction-based, patented NuVinci® transmission is a continuously variable planetary (CVP) technology enabling performance and efficiency improvements for machines that use an engine, pump, motor, or geared transmission systems. Fallbrook Technologies has been working on improving oil flow inside the NuVinci products as it affects the transmission’s efficiency, durability, power, capacity, and cost. Altair worked with Amazon Web Services (AWS), a secure cloud services platform, to provide an integrated solution to Fallbrook including advanced GPU hardware, high-performance computing (HPC) and the nanoFluidX software through industry-leading workload management and job scheduler Altair PBS Professional™.

Predicting and Eliminating Squeak & Rattle Noise in Vehicle Interiors with PSA Peugeot Citroën
During the development of new vehicles, PSA Peugeot Citroën Group (PSA) wanted to take the lead in using simulation technology to detect squeak and rattle noise problems, before physical testing was possible. The initiative led to a collaboration between PSA’s Method Development Engineering team and Altair ProductDesign to explore the use of simulation technologies and numerical optimization methods at an early stage of development. This 60-minute Webinar, jointly presented by PSA and Altair, discusses the project and its progress, describing the results achieved through the application of an “E-Line method” approach and detailing how the newly established processes have been integrated into PSA’s existing Virtual Development Process (VDP).

Introducing Altair EDEM
Altair's acquisition of DEM Solutions allows customers to design and develop power machinery while simultaneously optimizing how this equipment processes and handles bulk materials. EDEM's Discrete Element Method tool interfaces with Altair's leading physics applications to extend companies ability to simulate complex products as systems-of-systems.

With EDEM, users will be able to simulate the interaction between materials such as pellets, tablets, powders, coal, soil, and rocks with machinery. Combining DEM with Altair's applications for model-based development, structural analysis, computational fluid dynamics, and multi-body dynamics gives users unparalleled insight into the performance of their complex products in use.

EMC Modeling of an Industrial Variable Speed Drive With an Adapted PEEC Method
This paper presents an adapted partial element equivalent circuit (PEEC)-based methodology applied to the modeling of interconnections of power electronics devices. Although this method is already well known, the originality of this work is its use to model a device presenting an industrial complexity.

An Automated Head Impact Process Setup for Automobile Instrument Panel (IP) Application
FMVSS 201 procedure originally rolled out in 1968 by Federal Motor Vehicle Safety Administration to protect the automobile occupants from fatal injury during the crash. Since the beginning of the law, the automobile interior safety has become considerably more challenging for manufacturer to meet FMVSS 201 standard criteria. During the course of instrument panels (IP) development, engineers are heavily relied on computer simulation to optimize the design for a more robust design. Based on FMVSS 201, there are an infinite number of target points on the instrument panels that must be tested for head impact performance. Therefore, this becomes not only costly but it is impossible for the manufacturer to test all possible target points using the current conventional process.

Ping Golf: Using CAE and HPC for Virtual Prototyping
In this short interview Eric Morales, Sr Research Engineer at PING Golf, explains how combining CAE simulation with the latest HPC technology has greatly reduced product development time.

Korg Italy
Korg utilized 3D modeling and rendering simulation to manage the frequent design modifications that occur during the product development process. 

Design Innovation for the Medical Industry
Altair helps medical companies across the world achieve product development objectives through its unique approach, which blends CAE simulation software, design creativity and in-depth engineering expertise to achieve optimal product designs.

在ATCx能源2014会议上,贝克休斯公司(Baker Hughes)的Ganesh Nanaware介绍了CAE仿真驱动的可膨胀尾管悬挂器产品的开发

Predicting the Dynamics of Mechanical Systems in the Automotive Industry
The application of CAE tools to help design and develop mechanical systems in the automotive industry is a widely accepted practice. This paper highlights various applications of these tools, in particular, the application of MotionView and MotionSolve from Altair Engineering. Each example demonstrates the advantages of using such tools to work rapidly and seamlessly within the general design process. This results in the development of innovative designs to face challenging problems in a short time frame.

Scania Customer Story
Squeak and rattle phenomena are studied in the automotive industry in an attempt to reduce the cabin noise and as a result, give a better ride quality and comfort to occupants. In the case of Scania’s Cabin Development Department, this kind of simulation was not performed historically. The team had to rely on tolerance calculations as well as the choice of materials to reduce the risk of squeak and rattle. To reduce development time and cut down on iterative changes, a desirable solution was identified that enabled a simulation-driven design process during the early stages of the cabin development cycle.

Multiphysics Design Optimization Using an Adjoint Sensitivity Analysis
Optimal design methods involving the coupling of fluid and structural solutions are a topic
of active research; particularly for aerospace applications. The paper presents a coupled fluid and structure approach to topology optimization using two commercial finite element solutions; AcuSolve and OptiStruct. A gradient based method is used to minimize the compliance of a structure subject to thermal loading. The optimal material distribution to minimize compliance is computed using the Solid-Isotropic Material with Penalty (SIMP) method available in OptiStruct. A volume fraction constraint is imposed in order to iteratively reduce the parts mass. Draw constraints are used to ensure manufacturability. The thermal loading is computed iteratively using a computational fluid dynamics (CFD) solution from AcuSolve. The optimization produces an innovative design which increases the heat rejection rate of the part while reducing the mass.

Streamlining Aerodynamic CFD Analyses
External aerodynamic simulations using computational fluid dynamics (CFD) are well established tools in the product development process for the automotive and aerospace industries. CFD simulation technology helps engineers to understand the physical phenomena taking place in their design and provides an environment to optimize the performance with respect to certain design criteria.

2018 Global ATCの参加者が語るインタビュー
知識や情報、アイデアやストーリーの交換から生まれるエネルギーや情熱について、2018 Global ATCの参加者が語るインタビューの様子

2019 Global Altairテクノロジーカンファレンス

Altair Activate Clutch
A dry-plate clutch used to transmit power from engine to driven wheels

e-Motor Concept Optimization Coupling with Altair FluxMotor and Altair HyperStudy
Designers starting with a blank page face an unlimited number of configurations and need to quickly select machines types. By coupling Altair FluxMotor to Altair HyperStudy design exploration and optimization solution, Altair offers designers a unique process to optimize their motor concept at an early design stage, defining their constraints and their objectives. A typical objective is to reach maximum global efficiency across a given duty cycle. Then, designers can select and focus on the topologies that fulfill the main specifications before going further in their design.

HyperWorks优化技术融入包装设计 流程,帮助联合利华削减成本、加速研发
利用Altair HyperWorks 计算机辅助工程工具,联合利华降低仿真时间,显著削减成本。

Altair ElectroFlo Datasheet
Altair ElectroFlo is a CFD-based thermal package to simulate challenging electronics cooling and other EDA thermal
management applications. Easy to use even for non-CFD experts, it is capable of solving complex problems involving conduction, natural and forced convection, radiation and conjugate heat transfer.

Feko Lua Script: High-resolution range profile calculation
This plugin computes a high-resolution range profile (HRRP) of an object. An HRRP is a one dimensional signature of the target object, and one of the main applications is in automatic target recognition systems.

FEA Based Design Optimization to Mitigate Anchor Cage Impact Damage Risk
The power of Finite Element Analysis (FEA) simulations can be effectively used for failure analysis and design optimization to improve product reliability and mitigate operational risks. Expandable Liner Hangers used for wellbore construction within the oil and gas industry are complex mechanical systems that require sophisticated setting tools.

Accelerating Complex Simulations: An Example From Manufacturing - Radioss
Altair's software products enable a wide range of industries to conduct complex simulations crucial to engineering innovation and deliver reliable products to market. In a sector where supporting enhanced performance and new feature sets is critical, Altair is using Intel® Software Development tools to scale on Intel® Xeon® and Intel® Xeon Phi™ processors and coprocessors as quickly as possible to improve its customers' competitive advantage. Join us as Altair's Director of Engineering, Eric Lequiniou, discusses how Intel® tools help drive application innovation to provide the best possible performance.

Driving Million Dollar Savings at Ford using Structural Optimisation
The automotive business is a very competitive industry and in today’s markets, leading manufacturers are keen to find ways of reducing costs without compromising either quality or performance. This paper will cover the process of applying OptiStruct software to the re-development of a high volume and high cost plastic PAS (Power Assisted Steering) pump bracket into a much cheaper aluminium alternative. The outcome of this was a lighter, stiffer and cheaper replacement bracket that had the potential, based on the current production engine volumes, to save Ford Motor Company over $1.1 million a year.

RUAG Space Streamlines Composite Analysis with Improved Data Workflow
RUAG Space combines the power of the Altair HyperWorks Suite with the advanced composite failure analysis methods from ESAComp to improve their efficiency and composite modeling process.

Stanley Black & Decker Case Study
Stanley Black & Decker chose Altair’s HyperWorks Unlimited to optimize their CAE processes for power tool design, enabling them to explore concepts more deeply, reduce cycle times and make better decisions faster.

Altair Aerospace: Bird Strike and Other Nonlinear Transient Analyses
This webinar covers bird strike analysis on a wing, starting out with model setup, going over the impactor management and ending in the analysis of the results. Another topic to be discussed is the forming simulation of a composite rib and result mapping.

Solid Modeling of a Mechanical Part
A short workflow illustrating the power of solid modeling and editing in Inspire Studio, applied to a junction pipe with flanges.

More innovation using Cradle CFD software
Yuya Ando, General Manager, Cradle North America Inc.

CAE software, including CFD, has been extensively used in R&D in many industries and becoming indispensable tools. However, each simulation is merely one of many aspects an engineer needs to consider about. Therefore, ideally, each tool utilized for R&D is easy, fast, robust, accurate, reliable and being able to interact with other tools to aid the innovation in onefs design.

HyperWorks Enables Global Appliance Manufacturer to Use New Material for Stronger, Lower-Cost Product
To qualitatively and quantitatively analyze the stress on the door cover during thermal expansion and contraction, the engineers used HyperMesh, a high-performance finite element pre-processor and RADIOSS, a modern structural analysis and optimization solver, both of which are part of Altair’s HyperWorks suite of computer-aided engineering tools. With these tools, engineers created a computerized simulation of the refrigerator door cover temperature field, employing HyperMesh to create a finely meshed model of the upper and lower covers, while shell elements were used to mesh the steel plate and interior lining, along with solid elements for the foaming material.

Schlumberger Eclipse Integration White Paper and How-To Guide
The Schlumberger ECLIPSE software family offers the industry’s most complete and robust set of reservoir simulation software. In response to user requests, Altair has collaborated with Schlumberger to deliver a tightly integrated version of ECLIPSE for PBS Professional. This paper documents the integration and provides step-by-step instructions for configuration and use.

The World is Built on Engineering
Dr. Uwe Schramm and James Dagg, CTOs at Altair, keynote presentation at the 2018 Global ATC in Paris, France.

This presentation will illustrate the power of Altair’s simulation technology through several practical examples applied to some of the most common product development challenges in automotive, aerospace, and other industries.

Starting with simulation in the early phases of concept design, designers can take advantage of CFD simulation to explore and validate how different designs impact the aerodynamic performance of a vehicle. Viewers will be shown how complex, detailed nonlinear airframe simulations can be modeled and performed quickly and accurately. The presenters will also explain how multiphysics problems like e-powertrain development can be solved with a model-based development approach, which considers electrical and electro-magnetic simulation of systems and sub-systems.

Electromagnetic Study of a Transformer
Presented at the 2015 Flux Conference

HyperWorks for Aerospace Series: Electromagnetics
This webinar will give an overview and update on the EM simulation solutions (FEKO, Flux and WinProp) in HyperWorks for the aerospace industry and its segments covering applications and real use cases from antenna design and placement, EMC, RCS and wave propagation to electric machines, actuators and sensors and high power equipment.

Validation Ensures Trains Are on Track to Meet European Safety Standards
Numerical simulation aids in the design of passive safety systems to minimize passenger injury during railway

Aeroelastic Investigation of the Sandia 100m Blade Using Computational Fluid Dynamics
Recent trends in wind power technology are focusing on increasing power output through an increase in rotor diameter. As the rotor diameter increases, aeroelastic effects become increasingly important in the design of an efficient blade.

Multi-Disciplinary Evaluation Of Vehicle Platooning Scenarios
Presenter: Christian Kehrer, Business Development Manager, Altair

This presentation discusses the multi-disciplinary evaluation of truck platooning, with the lead truck sending out acceleration, braking and steering signals for the following trucks to react accordingly. The benefits address safety requirements, fuel savings, traffic capacity and convenience.

The presentation demonstrates why platooning requires a holistic approach in the sense of connecting different modeling and simulation methods for a virtual evaluation of this system of systems.

Altair Inspire Form Helps Pragati Engineering Address Sheet Metal Formability and Inconsistent Thinning Issues While Reducing Physical Try-out Time by 50%
Pragati Engineering, established in 2004, is one of the leading press tool design and manufacturing companies in India. The company has a national reach and successfully carries out projects riding on the robust shoulders of qualified and dynamic engineers from their Design department and Tool Room division. The company’s competency lies in manufacture of Press Tools Fixtures and Panel Checkers for various critical sheet-metal components and assemblies. With new technologies, facilities, and experience in Press Tooling, the company is confident of seamlessly catering to any requirement in the sheet-metal forming segment.

The Multiphysics Optimization Platform for e-Motor Innovation
Altair develops multiphysics simulation technologies that allow you to accelerate next generation mobility solutions development. From smart control design to powertrain electrification and vehicle architecture studies, our solutions enable optimization throughout the development cycle, all backed up by a global team of engineering consultants.

Experience the Sound of Your Future EV Before it is Built
Achieving the targeted brand image in a short development cycle time with minimal or zero prototypes is a major challenge faced by EV companies. To overcome this challenge, Altair, HBK and Romax have jointly developed a simulation driven process coupled with capabilities to virtually experience the noise and vibration characteristics, giving engineers a way to obtain real time performance feedbacks as the vehicle is being developed.

This joint presentation on the proposed NVH development process covers a wide range of topics, including benchmarking, target setting, full vehicle and motor gearbox simulation loadcases, troubleshooting, optimization and stochastic analysis, and playback of simulation results for subjective evaluations, with a number of new technologies representing the global best practice in sound and vibration design and development. Join us to explore ways to control the sound and vibration characteristics of the vehicle, achieve the right sound, and avoid common NVH pitfalls, while accelerating time to market utilizing and experiencing virtual NVH prototypes.

Delivering Innovation and Intelligence in Product Design
Packaging designers must constantly inject innovations to attract consumers in a constantly evolving and highly competitive market. Keeping ahead of the competition by bringing new and exciting products to market faster whilst maintaining quality, presents a major engineering challenge. A new packaging development process is described, which introduces advanced automated simulation and optimization technology right from the concept development phase. Detailed predictions of primary, secondary and tertiary packaging performance are made possible through use of advanced simulation technology. Design optimization is then employed using the modelling as a virtual testing ground for design variants. The approach provides clear design direction, an opportunity for wider experimentation, helps to improve performance and reduces uncertainty in the development process.

Lead Time Reduction using Automatic Reporting Director (ARD) for MAHLE
Mahle is one of the top automotive suppliers and one of the top 3 piston suppliers worldwide. With the recent advancements in numerical simulation and computing power, the FEA process has become a major tool to look at the reliability of different design variants. With these advancements, the reporting aspect remained a relatively unchanged process of manually creating pictures and tables with all of the different results. This presentation will look at the collaboration work between Mahle and the Altair Product Development (PD) team to customize the Automatic Reporting Director (ARD) for Mahle's requirements. The goal was to use to better utilize the engineers time by automatically generating a report with standard formats, pictures, and tables. By using the ARD tool, Mahle was able to reduce the lead time for a report from over 4 hours down to less than 1 hour.

Altair SimLab Datasheet
Altair SimLab is a process oriented, feature based finite element modeling software that allows you to quickly and accurately simulate engineering behavior of complex assemblies. SimLab automates simulation-modeling tasks to reduce human errors and time spent manually creating finite element models and interpreting results. SimLab is not a traditional off-the-shelf pre- and post-processing software, but a vertical application development platform for capturing and automating simulation processes.

Altair Inspire Print3D Datasheet
Altair Inspire Print3D is an additive manufacturing (AM) product development and process simulation solution that enables teams to enhance part quality and minimize lead time and AM costs by reducing material usage, print time and post-processing. It provides a fast and accurate toolset for the design and process simulation of selective laser melting (SLM) parts.

Inspire Print3D Product Overview
Altair Inspire Print3D is an additive manufacturing (AM) product development and process simulation solution that enables teams to enhance part quality and minimize lead time and AM costs by reducing material usage, print time and post-processing. It enables Design for Additive Manufacturing (DfAM), providing a fast and accurate toolset for the design and process simulation of selective laser melting (SLM) parts.

Intel Solution Brief: Maximize Performance and Scalability with Radioss on Intel® Xeon®
This paper summarizes the findings of a benchmark project to evaluate the performance and scalability of Radioss on Intel® Xeon® Processor E7 v2 family-based platforms.

Inside a NASA Production Supercomputing Center
It takes a super workload management tool to power grid, cluster and on-demand computing environments for computational modeling and simulation applications at NASA.

By Cathleen Lambertson

Concept To Reality Summer/Fall 2011

2015 Japan Altairテクノロジーカンファレンスにおいて開催された、国内外の主要ユーザー様の先進事例や米国Altair 本社の開発責任者からの製品ロードマップなど、クラウドの可能性を最大限に活用するためのAltair クラウドソリューションをご紹介するセミナーの講演資料です。

MIMOS Berhad Delivers HPC Across Malaysia with Cloud
In partnering with PBS Works, MIMOS Berhad
brought onboard a strategic collaborator
committed to help its clients overcome
these limitations by deploying Altair's
PBS Professional®, the industry leading
commercial workload management and job
scheduling solution.

Improving the Accuracy of Weather Prediction
This brochure covers the Cray-Altair Solution for Optimized HPC Resource and Workload Management – Using a Cray supercomputer with Altair’s PBS Professional scheduler provides weather prediction centers with a rich solution for optimized forecasting.

QIMR Case Study: Altair and Dell Improve HPC Capabilities for Leading Research Institute
Queensland Institute of Medical Research (QIMR) is using PBS Professional on a Dell cluster to improve HPC computing. According to the CIO, “Everyone has benefited from this installation. Researchers can do things they couldn’t do before, like running jobs multiple times or utilizing larger data sets, to achieve outcomes they couldn’t otherwise get. It’s pretty easy to see the value."

Integration of Optimization into Design with Altair's MDO Offering
CAE has since long been established as the tool for validating and certifying mechanical properties during product development. Simulation-driven design takes simulation and optimization into the creative design process. Primary goal of simulation-driven design is to provide a continuous stream of decision data to support concept design and later product development stages.

Presentations recorded at the Global ATC in Paris, France on October 16, 2018.

Intel AcuSolve Case Study: Analyzing Complex Designs Faster
Working in collaboration with Intel’s technical support team and utilizing key Intel® software development tools, Altair was able to improve performance, scalability, and time-to-results for AcuSolve, Altair’s leading CFD flow solver.

Orient Model
This demonstration covers the tools available to orient and set the global origin of the geometry.

Evolve Helmet Model
An Evolve model of a bicycle helmet created using Evolve's polygonal modeling and Nurbify tools.

Evolve Bike Seat Model
An Evolve model of a bicycle seat that was created using basic NURBS modeling tools.

Quality Driven by CAE
Advanced CAE tools enable companies to design quality into their products.

The Complete Package: Applying Altair's Technology Process to Reusable Packaging Design
This paper demonstrates the flexibility that Altair technology provides throughout the design process with tools applicable to all stages. An overview of the LINPAC design process incorporating Altair's technology is given together with examples of how and which tools are being implemented. The limitations of the traditional LINPAC approach and the use of Altair's tools is demonstrated through the use of a detailed example; without the use of Altair technology, more iterations in expensive tool modifications would have been required to achieve a satisfactory design without introducing unacceptable costs.

Altair HyperView Datasheet
Altair HyperView is a complete post-processing and visualization environment for finite-element analysis (FEA), multi-body system simulation, digital video and engineering data. Amazingly fast 3D graphics, open architecture design and unparalleled functionality set a new standard for speed and integration of CAE results post-processing. Coupling these features with HyperView’s advanced process automation tools dramatically improves visualization, correlation, and reporting results.

Simulating the Suspension Response of a High Performance Sports Car
The use of CAE software tools as part of the design process for mechanical systems in the automotive industry is now commonplace. This paper highlights the use of Altair HyperWorks to assess and then optimize the performance of a McLaren Automotive front suspension system. The tools MotionView and MotionSolve are used to build the model and then carry out initial assessments of kinematics and compliance characteristics. Altair HyperStudy is then used to optimize the position of the geometric hard points and compliant bush rates in order to meet desired suspension targets. The application of this technology to front suspension design enables McLaren Automotive to dramatically reduce development time.

Optimising Vehicle Dynamics for Student Racing with Altair University
You will learn how to use multi-body dynamics (MBD) simulation tools from the Altair HyperWorks CAE suite to improve the design and performance of your student race car. By using Altair’s academic vehicle library, you can adapt suspension models to represent your existing half or full vehicle and make virtual changes to the design in order to improve stability and manoeuvrability.

Integrated Composites Design with ESAComp and HyperWorks
Markku Palanterä and André Mönicke, Componeering Inc.

The design process of composite structures involves tasks that require special attention and which are not typically covered by general finite element simulation tools.

Additive Manufacturing Design
Jason Lopes, Production Development Engineer at Carbon, presents at Converge 2017 in Los Angeles, California.

Using Machine Learning and Optimization to Develop e-Motor
The Altair Multiphysics platform provides a broad portfolio of solvers and tools to help engineers develop e-motor design requirements by using simulation and optimization methods. This presentation provides examples, using Altair Machine Learning and optimization solutions, of the e-motor requirements by leveraging in data available, which is key for e-motor designers to reduce time-to-market.

Altair Multiscale Designer Datasheet
Altair Multiscale Designer is an accurate and efficient tool for the development of multiscale material models and simulation of parts manufactured from any heterogeneous material, such as continuous and chopped fiber composites, honeycomb cores, lattice structures, reinforced concrete, and soil and bones.

HyperWorks Enables Ingeniacity to Reduce Mass of Sailing Yacht Composite Bowsprit by 65%
Altair's HyperWorks Suite provided the pre-processing, optimization and FE-solving tools to help create a new bowsprit design that was 34kg lighter than the previous model

皮卡车的超大装载量要以牺牲储物空间为代价。载货区往往只是一个简单的货箱,无法安全存放较小的物品,也不具备防盗功能。因此,市场上出现了各种各样试图解决这类问题的第三方产品,产品形式通常是需要专业安装或必须经大规模改造才能正确安装的金属锁闭装置。在看准市场商机后,企业家Lance Meller开始着手开发一种更为精良的替代产品。Lance 携手商业伙伴Jake Peters 共同创办了DECKED,决心为商务用户和私家车主开发一款既坚固又实用的创新型储物解决方案。这套系统必须能够承受2,000磅的重量,同时还应足够浅,以免完全占用装货台的整个高度。此外,DECKED系统应能装入福特、通用、克莱斯勒、丰田和尼桑等各种型号的皮卡车。DECKED选择能够参与概念设计工作和提供高级工程及样机制造服务的Altair ProductDesign选为合作伙伴。

HyperWorks仿真和优化工具驱动Cleveland Golf公司产品创新
Much more goes into a golf club than simply wood, iron and graphite. To shape the performance, the distinctive appearance, the personalized feel and even the sound of the club striking the ball, manufacturers must precisely engineer every aspect of the design. Today, simulation-driven design has dramatically reduced development time for new golf clubs while allowing them to meet strict regulations more efficiently.

克莱姆森大学的Deep Orange 3 项目面向未来工程师引进了强大的分析软件,帮助他们开发新型跑车的概念架构。

By Dr. Paul Venhovens

Concept To Reality Winter 2013 Subscribe to C2R Magazine

AMETEK utilized model-based development to develop a new embedded control system for a aerospace suit  chiller unit under a very tight schedule and high safety standards.

Combined Electromagnetic Field and Cable Coupling Solutions
Many problems of electromagnetic compatibility and interference involve cables. FEKO offers engineers tools to solve combined electromagnetic field / cable problems

ATCx - Inspire 2014 Overview
Presentation of "Inspire 2014 Overview." This was given by Russell Vernon, Application Engineer, solidThinking, at ATCx West on June 18, 2014.

Shanghai Arts and Crafts Factory
The Shanghai Arts and Crafts Factory utilizes digital NURBS-based conceptual design tools to generate ideal 2D and 3D designs and renderings for parade floats.

The huge capacity of a pickup comes at the expense of storage. The loading area is often a simple box with no ability to store smaller items safely or secure them from theft. After spotting an opportunity in the marketplace, entrepreneur, Lance Meller, started work on a well-built alternative. Lance founded DECKED with his business partner, Jake Peters, with a shared determination to create an innovative, robust and useful storage solution for both commercial users and private owners alike. The system had to be able to withstand a load of 2,000 lbs, fit it into a wide range of pickup models including those from Ford, GM, Chrysler, Toyota and Nissan and be manufactured for a compelling retail target price. DECKED selected Altair ProductDesign as it needed a partner that was able to deliver conceptual design work along with advanced engineering and prototyping services.

Scania uses a simulation-driven design process including topology optimization and finite element analysis. This speeds up their design and development process and produces lighter, more efficient components.

Optimization Drive Design - A Desktop Engineering Sponsored Report
Optimize every stage of product development with an integrated workflow that democratizes simulation and analysis. In this Desktop Engineering sponsored report Altair's vision for product optimization is analyzed

Chiller Unit Keeps Joint Strike Fighter Pilots Cool
A model-based embedded development system enables AMETEK to design, simulate, create firmware for and validate a chiller unit control system.

By Beverly A. Beckert
Concept To Reality Winter/ Spring 2015
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FEKO: Combined Electromagnetic Field and Cable Coupling Solutions
Many problems of electromagnetic compatibility and interference involve cables. FEKO offers engineers tools to solve combined electromagnetic field / cable problems

Creating a Virtual Press to Optimize the Extrusion Process
Today's advanced computational tools increase productivity and quality, as well as lower energy consumption in the design and fabrication of extrusion dies.

Fast Tracking Rail Vehicle Design
Bombardier Transportation UK offers one of the most comprehensive and diverse rail vehicle portfolios in the world. The strategy is one of continuous development that provides the most effective and cost-efficient rail solutions for today and the future. A key ingredient is the use of Altair HyperWorks enterprise computer aided engineering (CAE) solution. Altair's technology is now present at every stage of the design process and has increased the efficiency of the product development process. The paper details how Altair tools have been used to generate Finite Element (FE) models of carbodies, bogies and secondary structures in reduced time scales. Significant weight and cost savings are achieved through structural optimisation of components such as large steel castings, aluminium extrusions and steel fabricated structures which are subjected to linear static, fatigue and abuse loading. Automated post processing facilitates the interpretation of results and the writing of detailed official reports.

Evolve Polymesh Mug Model
An Evolve model of a coffee mug. This was modeled using Evolve's Polymesh and Nurbify tools.

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