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次世代HyperWorksオンライントレーニング #4
次世代HyperWorksオンライントレーニング第4回「空間形状からヘキサ要素の作成」の録画です。

概要
- ソリッドの共有面作成
- ソリッドの分割
- ソリッドへのヘキサ・ペンタメッシング
- ソリッドメッシュの品質改善
- テトラメッシュの作成

※次世代HyperWorksとは、インストーラパッケージでHyperWorks 2019 Xとして表示される新しいGUIを備えたHyperWorksです。

Optimisez les procédés de fabrication de vos produits pharmaceutiques grâce à la simulation des particules avec Altair EDEM
Découvrez comment optimiser vos processus de fabrication tels que le mélange, la granulation et l'enrobage des comprimés

次世代HyperWorksオンライントレーニング #3
次世代HyperWorksオンライントレーニング第3回「樹脂形状のモデル化」の録画です。

概要
- CADから中立メッシュ作成
- シェル要素への板厚割り当て
- 中立メッシュがうまくできなかった場合の修正方法
- リビルド機能について

※次世代HyperWorksとは、インストーラパッケージでHyperWorks 2019 Xとして表示される新しいGUIを備えたHyperWorksです。

Spécial Covid 19 - Comment Altair peut vous aider à faire face aux défis de cette crise
Afin de vous aider à faire face au Covid-19, Altair France vous propose des solutions pour vous aider à relever vos défis.

Altair PollExご紹介ウェブセミナー
PollExによって、設計とEMCエンジニア、設計と生産技術、設計とデバイスメーカにおいて同じツール環境の構築が可能となり、製品開発のQCDが大幅に向上します。

本ウェビナーでは、PollExの概要および各種機能をご紹介します。プリント基板の設計、製造に携わる皆様はぜひご参加ください。

熱処理、熱問題解析セミナー
熱処理加工においては、効率的なワーク加熱のために適切な周波数の印加や、電源出力などが求められます。一方熱問題においては、発生した熱の速やかな冷却が課題となります。どちらのケースにおいても発熱分布を求めることが重要です。本ウェビナーでは、発熱に関するAltair Fluxのソリューションをご紹介します。

次世代HyperWorksオンライントレーニング #2
次世代HyperWorksオンライントレーニング第2回「板物(2D)モデルの作成」の録画です。

概要
- 中立面の自動抽出および修正
- サーフェスジオメトリの補完、編集
- バッチメッシュによるジオメトリ編集と要素品質を考慮したメッシング
- バッチメッシュに使用する基準値ファイルおよびパラメータファイルの作成
- 基準値ファイル、パラメータファイルのモデル全体とサーフェス単位でのファイルの使い分け

※次世代HyperWorksとは、インストーラパッケージでHyperWorks 2019 Xとして表示される新しいGUIを備えたHyperWorksです。

e-Motorデザインウェビナー
昨今の電動化の流れに伴い、電動機の開発に対する要求は日々高度になっています。中でも重量削減とコスト削減は重要な要求事項の一つです。本ウェビナーでは、これらの要求に対応するAltair FluxMotorのソリューションをご紹介します。

セミナーの内容

- 電動機の課題
- 複合領域最適化の必要性
- マグネット使用量削減事例
- 動作状況を通しての効率最適化
- 形状最適化事例

Altair SAOご紹介ウェブセミナー
Altair SAO(Software Asset Optimization)はソフトウェア資産を把握し、使用状況を視覚化、分析できるソリューションです。追加機能のAltair SAO Predictを使えば、予測も可能です。



The Altair Enlighten Award 2020 - Winners & Highlights Webinar & Panel Discussion
Are you an automotive lightweighting pioneer? Do you have a vehicle, module, system or technology that is driving down the weight of today’s vehicles, or could do so in the future? Are you interested in learning how to become the next lightweighting champion?

Meet the Winners! Industry pioneers Ferrari, csi entwicklungstechnik GmbH, ZF, and Material Science Corporation, winners of the 2019 Altair Enlighten Award, address evolving technology trends, lightweighting initiatives in industry and more, at the webinar and panel discussion on May 6, 2020.

The Altair Enlighten Award promotes innovation, and honors the greatest achievements in automotive vehicle weight saving. The award is presented in the following categories:

Full Vehicle - exceptional achievement in the lightweighting of an entire vehicle
Module - innovation in the lightweighting of a subsystem or component
Enabling Technology - any technology that enables lightweight innovation in a vehicle, such as a material or joining technology
The Future of Lightweighting – innovative ideas, processes, materials, and technologies that have significant potential to support lightweighting initiatives, but have yet to be leveraged on a production vehicle platform.


次世代HyperWorksオンライントレーニング #1
次世代HyperWorksオンライントレーニング第1回「スケッチングとメッシュ作成、簡単な設計変更」の録画です。

概要
- スケッチ機能、スナップ機能が形状の作成をサポート
- 対話形式、サーフェスごとに指定するメッシング
- 用意した形状に投影させるモーフィング
- 任意の形式で出力可能

※次世代HyperWorksとは、インストーラパッケージでHyperWorks 2019 Xとして表示される新しいGUIを備えたHyperWorksです。

Minimiza tus Costes de Análisis No lineal con Altair OptiStruct
No pagues más por algo que ya tienes en tu licencia de HyperWorks.

5 Claves para reducir los costes con Altair OptiStruct

Saca el máximo partido a tu licencia de Altair con el pionero sistema de Units.

Optimiza centralizando el flujo de trabajo desde el pre-proceso, pasando por el análisis no lineal y hasta el post-proceso de resultados.

Convierte tus modelos rápidamente, sin transiciones ni curvas de aprendizaje eternas.

Experimenta la precisión de OptiStruct. ¿Material no lineal? ¿Grandes desplazamientos? ¿Multitud de contactos? Envíanos tu modelo a info-sp@altair.com y te mostraremos cómo.

Ahorra tiempo de modelado con el pre-procesador líder en la industria, Altair HyperMesh


How Whirlpool Evaluates and Validates Concepts in Minutes with Altair SimSolid
In this webinar, Alexandre Luis Marangoni, Senior CAE Engineer at Whirlpool Corporation discusses how they validated SimSolid against FEA solver results, then implemented the tool into their concept design processes.
SimSolid is used at Whirlpool to quickly evaluate concept feasibility, answer critical design questions, and deliver designs to project teams faster than ever before.

Altair will demonstrate additional powerful functionality of SimSolid, preview the upcoming SimSolid 2020 release, and introduce an exciting new integration with Altair Inspire. Inspire's award winning user experience for geometry creation and modification can be learned in just a few hours, and now delivers SimSolid's speed and accuracy for structural analysis. For users without access to CAD software, Inspire and SimSolid combine to enable interactive geometry modification while analyzing large assemblies and complex parts, all within one common user interface.

様々な振動音響問題を解析・対策するHyperWorksのNVHソリューション
HyperWorksには振動音響解析を実施するための様々なツールが含まれています。実世界で起こっているNVH現象を解析・対策することで、NVH性能に優れた製品を開発するためのソリューションをご紹介します。

様々な複合材料特性を解くMultiScale Designer
Multiscale DesignerはCFRP、繊維補強コンクリートなど、複数の材料を組み合わせた複合材料の材料特性(ヤング率、熱伝導率など)を算出するツールです。本ツールの概要、繊維配向を用いた解析テクニック、ユーザーの皆さまから頂いた面白いテクニックなどをご紹介します。

高度な非線形問題を解くOptiStruct
OptiStructは、静的解析から、動的解析、振動解析、音響解析、疲労解析、そしてマルチフィジックス解析まで、線形・非線形解析のための包括的で高精度なスケーラビリティに優れたソリューションからなる、実績ある最新の構造解析ソルバーです。

きしみ・がたつき音を予測・対策するSqueak and Rattle Director
Squeak and Rattle Director(SnRD)は、各種ソフトウェアオートメーションを統合した新しいタイプのソリューションです。アセンブリ内で生じる異音・低級音(S&R)の根本原因を排除するための設計案を、迅速に割り出し、解析できます。

La Revolución del Cálculo Estructural en Ingeniería Civil | Altair SimSolid
Altair SimSolid es un gran avance tecnológico que permite a los ingenieros civiles analizar conjuntos CAD con todas sus funcionalidades en menos de un minuto, eliminando la malla y la simplificación de geometría

Modélisation et simulation des systèmes dynamiques
Découvrez Altair Activate, notre outil ouvert et flexible permettant de modéliser et de simuler rapidement des produits sous forme de systèmes pluridisciplinaires (modèles 1D, éventuellement couplés à des modèles 3D).

Efficiently Simulating and Optimising Antenna Placement in Virtual Test Scenarios
In this practical workshop we will present both the theory and background of the numerical techniques used, as well as presenting application examples and real-world cases studies on how such a process is used in the industry today. It will be a combination of presentation and demonstration of the best insight in the process.

Due to increasing complexity and a higher demand for connectivity for all sorts of products, physical measurements are more and more enhanced by virtual testing, not only on component level but also for full platforms like vehicles, aircrafts, etc. in their environment. Simulation in the design stage is crucial for successful deployment.

This workshop demonstrates the development process, from antenna evaluation to placing the antenna concepts on a platform and performing the virtual test drive / flight analysis also using optimization to increase the performance of the system. The numerical methods applied for such types of analysis,like full wave solutions for the antenna design and placement, as well as different wave propagation models like empirical models or dominant path solutions will also be discussed in more detail.

Application examples from the automotive and aerospace domain will show time variant results for antenna systems on moving objects e.g. also for MIMO scenarios.

大手メーカーも絶賛、Altair SimSolidのご紹介
2018年末に弊社が買収して以来、多くのお客様に驚きと感動を与えているメッシュレス高速構造解析ツールAltair SimSolidは、現在大手メーカ様を中心に、開発上流段階の形状検討や設計の絞り込み、比較検証などの作業にかつてないスピードを提供しています。



メッシュ分割不要の独自新技術、部品選別/形状簡略化不要、CADモデルをそのまま利用、メッシュエラー無し、CPUで計算可能(GPU等の高価なハードウェアの追加購入不要)といった、SimSolidの機能と特長を本セッションでご紹介します。


製品概要 | 14日間無償試用版申請


SimSolidを搭載したInspire で形状変更⇔解析が高速化!開発期間の短縮方法
SimSolidのジオメトリベースの構造解析ソルバーがAltair Inspire 2019.4に追加されました。これにより、日本語環境の直感的で使い易いGUI上でSimSolidを扱えるようになりました。さらに、InspireのダイレクトモデリングやPolyNURBS機能を利用して形状作成・変更を素早く行えます。



本講演では、SimSolidのソルバーが搭載された新しいInspireを使用して、設計変更と性能確認の繰り返し工数を短縮する方法をご紹介します。

SimSolidの国内外事例
ルノー社における車両サブフレームへのSimSolid適用例、中国武漢市にある5500パートに及ぶ回転舞台の解析、複雑でメッシュ作成が困難な人骨の形状に適用したカナダの事例、リードタイム短縮にSimSolidが寄与した事例を多数ご紹介します。




製品概要 | 14日間無償試用版申請


Les solutions Cloud d'Altair pour travailler à distance
Découvrez les solutions flexibles Cloud d'Altair grâce à l’accès à distance à nos licences

Solve Your EMC/EMI Problems Involving Cables
Many problems of electromagnetic compatibility and interference involve cables, which either radiate through imperfect shields and cause coupling into other cables, devices or antennas, or which receive (irradiation) external electromagnetic fields (radiated from antennas or leaked through other devices) and then cause disturbance voltages and currents potentially resulting in a malfunctioning system. Altair offers a comprehensive combined electromagnetic field and cable solution using the Multiconductor Transmission Line (MTL) method, as well as a hybrid solution combining MTL with Method of Moments (MoM+MTL), to solve the EMC/EMI problems involving cables. This webinar covers the cable analysis solution from Altair with a detailed overview of the methodology with examples.

Attaining Nonlinear and Multiphysics Mastery for SMBs with SimLab and OptiStruct
A growing number of companies aspire to perform multiphysics, but each added analysis tool introduces new complexity to a development process. Model translation, remeshing, design modification – these tasks offer no added value and increase the likelihood of error. Altair SimLab enables users to model and solve multiple physics, including nonlinear analysis, within one unified platform. Each analysis runs from one master model, allowing you to spend less time prepping and more time solving. Join the webinar to see these powerful workflows in action.

In this webinar, we will demo the design of a smart speaker with an emphasis on nonlinear analysis, multiphysics, and improving perceived sound with vibro-acoustic simulation.

Get One Step Ahead of 5G With Wireless Network Planning and Performance Analysis
5G is the next evolution of communication networks. With an exponential increase in consumer demands for high-speed data, the existing technologies can only sustain this demand for the next few years. We need a new technology with new capabilities, improved downloading and uploading speeds, and that can enable companies to control devices remotely in much more efficient and faster way than currently possible. This webinar presents Altair’s advanced computational tools for the propagation analysis and network planning of the emerging 5G technologies.

Accelerating Complex Linear and Nonlinear Analysis Processes from HyperMesh to OptiStruct
Supported by the streamlined, intuitive workflows in HyperMesh, running nonlinear analysis in OptiStruct is easier and more powerful than ever. Nonlinear explicit analysis is now supported, enabling simulation of drop tests, impact analysis, and more. Check out this webinar to see how Altair’s unified modeling and simulation platform can eliminate tedious meshing tasks and accelerate your nonlinear analysis processes.

In this webinar, we'll demo 5 different car door abuse use-cases, solving using linear dynamics, nonlinear quasi-static implicit, and nonlinear explicit dynamics analysis in OptiStruct.

Altair OptiStruct - Maîtrisez l'analyse non-linéaire avec une solution complète, rapide et précise
Découvrez comment de nombreuses entreprises bénéficient au quotidien des capacités linéaires, non-linéaires et d’optimisation d’Altair Optistruct tout en optimisant leurs coûts logiciels grâce au système unique de licence Altair.

Webinar: Accurate and Efficient Simulation of Laminated Composites
Webinar: Accurate and Efficient Simulation of Laminated Composites.

This webinar presents a complete composites workflow for all industries, the simulation-driven design workflow allows for an efficient process that enables time and money reduction.

積層造形向けの設計/シミュレーションツールInspire Print3Dご紹介ウェビナー
<2020年2月18日(火)放送>

Altair Inspire Print3Dは積層造形の方向やサポート材の検討、プリントシミュレーション、造形プロセスにおける欠陥の特定、プリント用ファイルのエクスポートが可能なソフトウェアです。Inspire Print3Dのこれらの機能や特長を紹介するウェブセミナーです。


■主な機能と特長
- 部品やサポート材の設計
- 操作方法がわかりやすいユーザーインタフェース
- プリント解析
- 欠陥の特定

- プリント準備


■無償試用版
14日間の無償試用版をご利用いただけます。solidThinkingウェブサイトよりお申し込みください。

Avec Altair Monarch, exploitez plus efficacement vos données
Avec Altair Monarch, exploitez plus efficacement vos résutltats d'étude, de production et accélérez la mise sur le marché de vos produits.

Optimize Your Antenna Design Through Machine Learning
Machine learning is a method of data analysis that automates analytical model building. As the antennas are becoming more and more complex each day, antenna designers can take advantage of machine learning to generate mathematical models for their physical antenna designs and perform fast and intelligent optimization on these mathematical models. This webinar presents a process of fast and intelligent optimization by adopting both the Design of Experiments (DOE) and machine learning.

Rapid Structural Evaluation of Complex Electronics Assemblies
One of the biggest challenges in the consumer electronics industry is reducing the time-to-market given the highly competitive landscape. Given the lack of time, companies are becoming more and more dependent on virtual simulations rather than physical prototyping to inform the design process. However, performing virtual simulations on large complicated assemblies can also be a tedious and time-consuming process due to geometry simplification and meshing. Additionally, rapid changes in material, geometry, and assemblies complicate the model building process and make it difficult to generate answers comparing various design iterations.

This webinar seeks to introduce a CAD-based simulation process that drastically reduce the time it takes to make informed design decisions on large complicated electronic components. The methods presented in this webinar enable both the design and engineering teams to rapidly explore the performance of large electronic assemblies in seconds as opposed to hours.

Webinar: How Brompton Bicycle Makes Design Decisions in Seconds with Altair SimSolid
Together with Altair, Brompton Bicycle will give you insight into its experiences of utilizing Altair SimSolid, a revolutionary structural analysis solution developed specifically for design engineers. During the 60 minute session, Jonathan Heath, Lead Mechanical Engineer at Brompton Bicycle, demonstrates live how SimSolid is enabling their design and engineering teams to rapidly explore the performance of its new product gaining accurate feedback on whether parts and assemblies are fit for purpose in just a few seconds.

日本語メニューと進化した使いやすさ - ハイエンドCAEプリポスト HyperWorks X
<2019年 7月31日(水)放送>

企業や研究・教育機関で世界トップクラスの実績を誇るCAEプリプロセッサーHyperMeshが、「HyperWorks X」としてリニューアルされました。


日本語メニューになったほか、深いコマンド配置の撤廃、操作に迷わないよう工夫された様々なガイド、広範囲かつ複雑な課題に対する同一の操作環境など、操作感も一新され、ユーザーを強力にサポートします。ハイエンドな機能はそのままです。




■主な機能と特長

NURBSカーブ、サーフェス、ソリッド、PolyNURBSによる自由度の高い3Dモデリング
企業や研究・教育機関で世界トップクラスの実績を誇るCAEプリプロセッサーHyperMeshが、「HyperWorks X」としてリニューアルされました。

日本語メニューになったほか、深いコマンド配置の撤廃、操作に迷わないよう工夫された様々なガイド、広範囲かつ複雑な課題に対する同一の操作環境など、操作感も一新され、ユーザーを強力にサポートします。ハイエンドな機能はそのままです。

  • 刷新されたユーザーインターフェースと日本語メニュー

  • ガイド機能

  • モデリング機能

  • モーフィング機能






■放送中にいただいた質問

Q: 現在Evolveを使用していますが、バージョンアップはどうすれば良いですか?

A: 弊社もしくは販売代理店までご連絡いただければ、Inspire Studioのライセンスをご案内します。尚、EvolveデータはInspire Studioで読み込めますが、構成履歴がなくなってしまいますのでご注意ください。

Q: 既存のHWUでHyperWorks Xも利用できますか?

A: 既存のHWUで利用可能です。


Q: 21HWUでHyperWorks X、HyperMesh、SimLabを利用できますか?

A: いずれも21HWUでご利用いただけます。


Q: システム要件とハードウェアの要件を教えていただけますでしょうか。

A: システム要件等は、こちらからご確認ください。


Q: HyperWorks Xをインストールしましたが、メニューが日本語化されていませんでした。メニューを日本語化する方法を知りたいです。

A: HyperWorks Desktop 2019.1から日本語対応となりました。FileプルダウンのPreferenceメニューから、Applicationの項目で言語を変更できます。


Q: SimLabとの使い分けは、シェルを使うかソリッドを使うかだけの違いになりますか?

A: シェル、ソリッドだけではなく、SimLabにはエンジン特有の機能や、PT特有の機能があります。一方、車体モデルの構築や幅広い機能を有しているのがHyperWorks XとHyperMeshの強みです。それぞれの製品の強みを活かして独立した製品として今後も開発が進む予定です。


Q: CADジオメトリを編集すると元データも影響を受けますか?

A: ジオメトリを編集しても、元のデータには影響はありません。HyperWorks Xにおいてのみ形状が更新されています。


Q: HyperWorks X、HyperMesh、SimLabの使い分けを教えてください。それぞれどのような方をターゲットとしていますか?

A: HyperWorks Xは今回ご紹介したようにHyperWorks初心者の方やこれから覚えていく方のほか、既存のHyperWorksユーザーにとっても時短効果が高いツールです(HyperMeshも引き続きご利用いただけます)。SimLabはPT特有の機能が多数搭載されており、特にソリッドモデリングに強みがあります。


Q: HyperWorks Xはメッシャーという理解でいいでしょうか。解析の条件設定などは従来のHyperWorksで実施するのでしょうか。

A: HyperWorks X内で境界条件設定も可能です。基本的には、HyperMeshにあるコア機能は全てご利用いただけます。


Q: モーフィングの機能紹介が基本的にシェル要素に関する内容でしたが、テトラ要素やヘキサ要素を使用する場合の使い勝手は向上していますか?

A: 向上しています。大規模により強く対応する方針です。


Q: CATIA-V5(.CATPart)のモデルインポートには従来どおり、別途オプションのライセンスが必要なのでしょうか。

A: CATIA V5については別途ライセンスが必要となります。


Q: HyperWorksクラシックとHyperWorks Xとの間でのhmファイルの互換性はありますか。

A: 互換性はあります。相互に行き交うことが可能です。


Q: import、exportのパス名に日本語が入っていた場合も読込、書込ができますか。

A: パスに日本語が入っていても読込可能です。ただしドラッグアンドドロップでは読み込めないのでご注意ください。


Q: HyperMeshとHyperViewがXで一緒になったということは、積層材メッシュのPly+Laminate表示がポスト処理でも可能になっているのでしょうか?

A: 今後ポスト機能の搭載に合わせて順次可能になる見込みです。


Q: 開発でPythonを用いる場合、今までのTCLでのAPIがPythonにもすべて移植されているのでしょうか?

A: TCLでのAPIが今は標準的な使い方であり、今後も続きます。PythonはPlatFormとしては対応していますが、現時点でCommandWindowのような使い方はまだ使用環境が完全に整っておらず、利用開始はもう少し先になる見込みです。


Q: .modelという拡張子のものをimportできますが、そのモデルに対しても今回の拡張されたモデル修正機能を使用することはできますか。

A: .modelはCATIAのインターフェースとなりますが、今回ご紹介したジオメトリの一般的な編集が可能です。CADパラメーターの直接編集は現状NXのみとなります。


Q: CADのジオメトリ直接修正が紹介されていましたが、HyperMeshのCATIA Readerのようなオプションのアドオンリーダーなどは必要でしょうか。

A: パラメータ編集と同時に、バックグラウンドでCAD側の編集を行い自動更新するCADアップデート機能については、現在のところNXで作成されたファイルのみに対応しています。また、NXを起動できる有効なライセンスが必要です(弊社側の追加オプション等は不要です)。HyperWorks Xの大きな特徴であるダイレクトモデリングについては、CADの種類に関わらず編集が可能です。



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Faster, More Efficient Modeling With Next-Gen HyperMesh
The next generation HyperWorks experience was created to enable teams to move from physics to physics, domain to domain or even create reports without ever leaving their simulation model. Every tool in the suite delivers a solution-specific workflow with a meticulously designed and discoverable user-interface, differentiated for each user profile, but still familiar across the toolset.

Altair started delivering on this vision with the initial release of Inspire and has continued to bring more and more functionality to its customers with each release. Now, the next generation HyperMesh provides a modern environment for meshing, modeling, and morphing with no loss of existing functionality for long-term customers.

Learn about the reimagining of Altair HyperMesh and how your product development can benefit today.

The presentation will showcase:
-Brand new workflows for geometry recreation and editing
-Midmeshing and interactive batch meshing
-Free direct morphing
-Parts and reps management
-Concept design iteration

Boostez votre puissance de calculs GPU grâce au partenariat Altair - Nvidia
Dans cette présentation dédiée aux thématiques du Deep Learning et de l'Intelligence Artificielle, découvrez les solutions d’intelligence artificielle adaptées aux besoins de l’enseignement et la recherche

Webinar: Lead-Time Reduction at Renault with Altair SimSolid
Renault presents how they've adopted SimSolid to significantly speed up design time and gain deep design insights upfront in the design process.

Find out how SimSolid is used to run multiple structural simulation iterations directly on their CAD geometry in minutes with amazing accuracy.

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.

Altair HyperMesh X, la nouvelle génération d'outil de pré-traitement unique sur le marché
Découvrez Altair HyperMesh X, la nouvelle interface de son outil de pré-traitement, en rupture avec les logiciels actuellement disponibles sur le marché.

Faster Concept Modeling with HyperWorks X
In this webinar, we address challenges common to conceptual modeling engineers and the powerful new time-saving features and workflows available in the HyperWorks X user experience.

Increasing Your Productivity for CFD Model Build
This webinar, presented jointly between Altair and the UK's leading CFD consultancy, TotalSim, demonstrated how the latest model build technologies can drastically accelerate your external aerodynamics programmes, freeing up Engineers' time to provide design insight and enhance performance, not stuck endlessly refining meshes.

Avec Altair Monarch, découvrez comment préparer plus efficacement vos préparations de données
Découvrez Altair Monarch, la solution de préparation de données en mode libre-service qui vous permet rapidement d'extraire, de nettoyer, de transformer, de fusionner et d'enrichir vos données à partir de n'importe quelle source.

Scaling Up Your Nonlinear Analysis Solver Throughput with HyperWorks Unlimited
In this webinar, you'll learn about OptiStruct's nonlinear analysis performance at scale as well as Altair's powerful and cost-efficient solutions for on-premise or virtual compute clusters.

Concept Design for Plastic Parts - Better and Earlier Decisions with CAE Driven Design
Traditionally, products are created with a draft, which is then specified by taking into account external factors. The next step is to validate, test them as prototypes and adapt the design. If simulation is used as a virtual test, this cycle can be accelerated.

The foundation for a successful design is set in the concept phase.

This raises the question of how simulation can be used as a motor for creative solutions and how it can be used as a groundbreaking basis for decision-making in the early phase of product development.

With the simulation-driven design approach, you can achieve early design maturity, efficient material utilization and shorter development times in the development of complex plastic components. Using the example of a front-end module, Code Product Solutions and Altair will demonstrate efficient product development in the recording "Concept Design for Plastic Parts".

エンジニアリングにおける機械学習

GoogleやAmazon、Facebookなどの世界有数の大企業は皆、データを収集し高度に分析する技術で市場に変革をもたらす、データ駆動型の組織です。データは「新たな石油」と呼ばれ、市場で優位に立つための原動力です。


ところが、エンジニアリング分野において、機械学習技術の活用の動きはあまり素早くありません。今後5年間で一番成長が見込まれている技術は、機械の故障を予測する予知保全です。機械学習を応用させることで、保守コストや稼働停止時間が減少するメリットがあります。


動画では、数値的手法の活用を始めたギネス社のイノベーションの紹介にはじまり、人工知能(AI)と機械学習(ML)の違い、エンジニアリング分野における機械学習モデルの作り方などを解説しています。


エンジニアリング分野における顧客事例として、実験データとシミュレーションデータを組み合わせて学習させ、数値流体力学の代わりに液体の流れを予測する事例、ロボットアームの予知保全プログラムの事例も動画の最後に紹介しています。


ご興味をお持ちの方はアルテアエンジニアリングまでお問い合わせください。



こちらも併せてお読みください。
【ブログ】機械学習で「見た目」を限定して最適化する



Introduction to Altair PollEx
This webinar introduces the benefits of PollEx for fast PCB design viewing and exploration, analysis (including signal integrity and thermal), verification (considering electrical, assembly, and manufacturing constraints), and how these solutions work within the unified PollEx electronics part data management software.

The Secrets to Fast AND Accurate Simulation Webinar
No Tradeoffs Required!

There has always been a required compromise when it comes to structural simulation. This tradeoff required users to select a tool that excels in either depth/accuracy OR speed (you have likely experienced this yourself).

With Altair SimSolid, this compromise is no longer necessary. SimSolid works directly on CAD geometry and gives its users incredibly accurate design insight in seconds to minutes.

Blazingly Fast AND Incredibly Accurate Simulation is possible! View our webinar to learn more!

Fast Forward Your Nonlinear Analysis with OptiStruct
Simulate the effects of large displacements, material nonlinearity and advanced contacts with Altair OptiStruct™.

OptiStruct is the industry standard for the optimization of topology, composites, mechanisms and additive manufactured parts, but over the past three decades, it has evolved into a comprehensive linear and nonlinear analysis solution, delivering the functionality that customers of traditional nonlinear implicit codes expect coupled with the high performance they need.

Watch this webinar to learn about how OptiStruct is being used to reduce software cost, simulate faster, and improve design process efficiency.

Model Based Development of Mechatronic Products
Webinar for the first launch of Compose, Activate and Embed


Sensorless AC Motor Control
Webinar from Prof. Dr. D.W.J. Pulle


Webinar - Renault Altair SimSolid
Découvrez comment Renault a réduit de 90% ses temps de calculs grâce à Altair SimSolid !

Avec Altair SimLab, boostez votre productivité en réalisant vos maillages 3D les plus complexes sans perte de qualité !
Découvrez pourquoi Altair SimLab est la solution qualitative la plus rapide pour générer vos maillages 3D à partir de géométries très complexes.

Optimizing CAE Data Preparation Processes Using CADdoctor
As the use of 3D data throughout the produce lifecycle broadens, it is ever more essential to prepare high-quality 3D CAD geometry models to streamline the entire simulation process. CADdoctor is a tool to streamline CAD geometry preparation to make the data suitable for the HyperMesh simulation process. This helps to achieve reducing your simulation lead time and improving the accuracy of the simulation result. This presentation will be an introduction to one of the leading software on the Altair Partner Alliance and how this software has been benefitting users throughout the globe.

  •  
Simulation-Driven Design of Sheet-Metal Components
A good Design is not complete unless it meets desired performance and qualifies for efficient manufacturing. Design of sheet-metal components demand the following, From a Design perspective - if sheet-metal can be used for intended design, their sizing & shape, choice of material, weight and cost.
From Manufacturability perspective - manufacturing feasibility of the designed shape, allowable thinning and wrinkling limits, addressing process constrains and importantly forming feasibility.


Leveraging Simulation to drive the design as it unfolds at the concept generation stage, helps design engineers to accrue downstream benefits upfront.

  •  
Altair Activate Mechatronic System Engineering
This webinar outlines how 1D block diagrams can be successfully combined with 3D non-linear multibody systems for model based development of mechatronic systems. Examples include an active suspension systems and a robotics application.


5G電波伝搬解析ウェブセミナー
近年注目集めている「第5世代移動通信システム(5G)」の基本的な解説に加え 、Altair WinPropによる5G電波伝搬モデルを紹介します。

  • 5Gについて



Improving Vehicle Performance with Multi-Body Simulation
Learn about the special capabilities available for vehicle simulations (cars & trucks) with Altair MotionSolve™

Altair Activate 1D Block Diagram Modeling
Model and simulate systems using one-dimensional (1D) block diagrams


Altair Activate Physical Modeling via Modelica
Construct models using a physical modeling approach with Modelica


Altair Activate Combining 1D Signal and Physical Blocks
Example of simulating a system-of-systems by combining signal-based modeling with physical modeling


Altair Activate Open System Integration via FMI
Leverage the Functional Mock-up Interface to help couple together 3D models with 1D models


Altair Activate 1D/3D Example: Active Suspension
Example of using both 1D models + 3D models together to simulate an Active Suspension system


Altair Activate 0D & 1D Modeling
Example of using either 1D modeling or 0D modeling to simulate a basic electrical circuit system


Altair SimSolid Webinar
SimSolid è un software di analisi strutturale sviluppato appositamente per i progettisti. Elimina la semplificazione geometrica e il meshing, le due attività più lunghe e complesse eseguite nell'analisi FEM tradizionale. E' in grado di analizzare parti complesse e assiemi di grandi dimensioni in modo efficiente, anche su computer portatili.

What's New in OptiStruct 2019
Find out what's new in Altair OptiStuct 2019, THE solver for linear and nonlinear analysis.

CAD to Multiple Physics in Minutes with SimLab
Analyzing full-featured parametric CAD assemblies is an extremely labor intensive process requiring skilled CAE expertise. Common practices to shorten simulation cycles have included simplifying and defeaturing CAD geometry – offering little “engineering” value, negatively impacting results accuracy and consistency, and falling short of desired program objectives.

Aircraft Radome Multiphysics Using Simulation
Watch this webinar to see a demonstration of a multiphysics simulation approach using the Altair HyperWorks platform for the analysis of airborne radomes for electromagnetic , structural, aerodynamic, and bird strike performances.

Altair's New, Modern Fatigue Solution: HyperLife
Before a product ever goes to market, companies must understand how their products will behave during and beyond their expected use cycle. Building a brand perception of product quality relies on consistently durable products, regardless of when and where they are produced, time after time. Additionally, high development costs and expensive warranty claims can be mitigated by integrating fatigue simulation into the product development process. There are many tools on the market to simulate the durability and fatigue life of products, but what sets some solutions apart?

Learn how HyperLife enables you to differentiate your products through quality and beat competitors to market with quicker engineering decisions.

Altair HyperLife ご紹介ウェビナー =すぐにできる疲労解析ツール
Altair HyperLifeとは

Altair HyperLife は形状を確認しながら直感的に操作できる疲労解析ソフトウェアです。結果をHyperLife 上で確認でき、ウィークポイントをすぐに把握できます。
本ウェビナーではHypreLifeを利用した疲労解析の流れを解説し、他のAltair HyperWorks製品と組み合わせた評価手法をご紹介します。

ウェビナーの内容:
・疲労限度(SN:応力疲労、EN:ひずみ疲労)データベースの標準機能
・高サイクル疲労(SN)、低サイクル疲労(EN)の評価機能
・ランダム荷重履歴のインポート機能

*2019年6月25日放送

Altair HyperLifeの製品概要

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).

What's New in HyperStudy 2019
Find out about the new features of HyperStudy 2019

What's New in HyperMesh 2019 - Meshing and Geometry
Learn about the new features and workflows available in HyperMesh 2019 for meshing and geometry

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.

Intro to HyperWorks 2019: Unifying the Design Engineering Community
Join Altair CTO James Dagg as he introduces Altair HyperWorks 2019, the most comprehensive open simulation platform for design and engineering. The updated platform offers customers the ability to design and optimize connected, high-performing, weigh-efficient and innovative products throughout the entire product development process; from idea to production.

What's New in Feko and WinProp 2019
New features and benefits of Altair Feko and WinProp in the 2019 release

Real-World Applications of Generative Design
Using Topology Optimization to Create Manufacturable Product Designs

Generative design is one of the hottest buzzwords in the product development world. You've seen the organic structures and promises of material reduction and cost savings, but how and when do you apply these principals to your design process, and how to you ensure that those designs can actually be manufactured?

Find out how manufacturers like American Axle are leveraging generative design to improve real-world, in-service products using both traditional and advanced manufacturing processes.

Altair Access: Descubre en 40 minutos cómo lanzar y monitorizar tus cálculos con nuestro portal web.
Si eres ingeniero o investigador, no te pierdas este webinar para aprender a lanzar, gestionar y monitorizar tus cálculos con una simple y potente interfaz en la nube, clústeres remotos y en otros recursos.

E-Motor Weight and Cost Reduction Webinar
Nowadays, it is more and more challenging to design an e-motor. Many constraints have to be fulfilled, including maximizing power using minimal size, considering thermal constraints, material and production costs, and of course reducing weight. In order to meet these constraints, a multifaceted solution is needed, leveraging physics tools in combination with optimization methods.

This webinar will introduce Altair's e-motor design and optimization solutions in a step by step process. We will discuss pre-design, magnetic computation and thermal analysis and show how optimization methods can help to optimize weight and cost at each step of the process (especially the weight of magnets) . We’ll demonstrate how Design Of Experiments (DOEs) allows designers to run different types of optimization very quickly, which enables informed decisions at different stage of the design cycle.

Radio Coverage Planning for Heterogeneous Wireless Networks, Including 5G
This webinar will give an overview of WinProp's capabilities for the radio planning with real use cases showing the performance of WinProp in topographical, built-up, industrial, and indoor scenarios including live demonstrations at the end.

In-depth Optimisation with Altair Feko & HyperStudy
Altair Feko is a well-known and trusted numerical analysis tool for a wide range of problems in electromagnetics. Its efficient solvers make it a very good tool to utilize as part of a process that explores solution spaces or performs advanced optimisation tasks in electromagnetics.
Altair HyperStudy makes a strong complement to Altair Feko for exactly this purpose. This webinar will introduce attendees to HyperStudy and demonstrate how its features and workflows can help electromagnetics scientists and engineers explore solutions spaces with advanced design of experiments (DOE) strategies and perform advanced optimisations using hyperdimensional solution surfaces.


Wireless Network Design for Railway Scenarios, Including Tunnels and Metro Stations
Key challenges for train/metro operators are increasing traffic volumes, ensuring passengers safety and security during their journey, as well as providing real time multimedia information and access to social networks in stations and tunnels. To meet these requirements various broadband telecommunication networks based on WiFi, GSM-R, LTE need to be put in place.

This webinar will show how WinProp is used for the wireless network design and deployment in various railway scenarios including tunnels and metro stations, inside train wagons, as well as along railway tracks. Both antennas and leaky feeder cables can be deployed in the 3D environment of the station/tunnel scenario including the train.

Improving Electric Vehicle Range with Advanced Losses Computation Considering PWM Across a Full Duty Cycle
Introducing electric traction in automotive brings new challenges for the design of electric machines. Nowadays designers have to consider increasing constraints like efficiency, temperature, weight, compactness, cost but also stricter regulations, while reducing time to market. Fortunatly, Altair proposes disruptive methodologies to make relevant choices in the early stage of the design, based on numerical simulation and optimization techniques.

Once the machine has been selected and designed in Altair FluxTM this webinar covers how an electric motor design's performance is evaluated and maximized considering its global efficiency along the whole driving cycle.

The next design challenge is to get an accurate estimation of the losses, which becomes more and more strategic in the design process in order to accelerated speed to market with balanced design and confidence. This estimation is also a key issue of thermal design. Therefore, the study of losses (in particular non-conventional losses) is crucial. Two methods are proposed to take the current wave form into account: by using an equivalent circuit model in Altair ActivateTM system modelling software, or by representing the PWM in Flux circuit context.

Coupled Electro-Magnetic and Acoustic Simulation of an In-Wheel Electric Motor
At Elaphe, the engineers have been facing the NVH challenges from the very beginning. The topology of this electric motor, which on the one hand enables the team to use the otherwise empty space inside the wheel, can on the other hand, result in some new and unexplored NVH challenges. The experience over the years has proven that NVH is a bottleneck in the design cycle of Elaphe's motors and this was the main motivation for a more automated and more user-friendly NVH simulation workflow. Within the NVH, noise radiation was the area Elaphe was most interested in.



Webinar d'introduction à SimSolid
SimSolid est la solution qui change les règles du jeu en matière de simulation. Le logiciel travaille sur des assemblages CAO particulièrement fiables pour fournir rapidement une simulation structurelle, à la fois, précise et robuste qui ne nécessite pas de simplification de la géométrie, de nettoyage ou de maillage.

Traction Motor - 20 March 2019
Given EVs are gaining momentum and the recent Govt. of India’s strict localization norms in EVs to avail incentives, Altair announces a 3-part webinar series to introduce its powerful and most comprehensive industry solution set for E-mobility from concept till end use.

  •  
System Modeling & Control System - 27 March 2019
Given EVs are gaining momentum and the recent Govt. of India’s strict localization norms in EVs to avail incentives, Altair announces a 3-part webinar series to introduce its powerful and most comprehensive industry solution set for E-mobility from concept till end use.

  •  
Using Math for Post-Processing Aerospace CAE Data
Learn how Altair Compose™ can help you reduce the number of tools required to import data from Finite Element Analysis (FEA), then perform useful post-processing calculations, and visualize the results in useful ways.

Battery Thermal Management - 13 March 2019
Given EVs are gaining momentum and the recent Govt. of India’s strict localization norms in EVs to avail incentives, Altair announces a 3-part webinar series to introduce its powerful and most comprehensive industry solution set for E-mobility from concept till end use. Open to startups, OEM and supplier alike, we invite you to join our 3-part live webinar series.

We will discuss the various challenges in EV systems and how Altair solutions play an important role in the design & development stage. Namely, how you can cut down development time and cost while improving your designs, how you can rapidly prototype your ideas, tame the complexities involved in a highly complex system and lots more. We will highlight some unique challenges for EVs specific to India and discuss how to address them.

  •  
Virtual Drive Tests for ADAS Radar Sensors and Communication Antennas
This webinar shows how Altair WinProp considers the full environment including buildings, cars, street objects in order to get accurate representations of the radio waves impinging on the installed car antennas and the multipath radar channels including reflections, diffractions and scattered contributions. For the efficient analysis the car objects can be also replaced by their corresponding radar cross sections (pre-calculated in Altair Feko). Thus allowing the realistic and fully reproducible evaluations of different options for the antennas and sensors including their integration and configuration.

Improving E-Motor Acoustics with Seamless Multiphysics Simulation
Discover Altair SimLab's automated workflow for coupled electromagnetic and vibration analysis. SimLab uses Altair Flux for electromagnetic analysis and Altair OptiStruct for vibro-acoustic simulation.

Using Multiphysics Optimization to Design High Performance Rotating Machines
Light-weight, low cost, compact, high efficiency are some of the many objectives and constraints that have to be considered when designing a rotating machine.

To meet these various challenges it is necessary to take into account several physical aspects:

- electromagnetic
- structural
- thermal

This presentation shows how Altair HyperStudy can involve several Altair solvers to consider different requirements into a single optimization and will be illustrated through various examples.


Considering Temperature Constraints in the Design of Electric Machines
Because of always more compact and high efficiency systems, temperature is a critical constraint in electric machine design.

Depending on the design stage, different levels of modeling can be proposed:

- 1D for fast pre-design, to
- full 3D CFD models for the validation stage.

This presentation shows, through a complete example how the Altair platform for innovation helps machine designers to manage temperature distribution and evolution.

Simulación de procesos de estampación y fundición con Altair Inspire™ 
Simulación de procesos de estampación y fundición con Altair Inspire™. Descubre cómo diseñar, simular y verificar al mismo tiempo con una única plataforma.

Fast Assessment and Optimization of the Energy Efficiency of Electric Machines with Altair Flux
In the early stage of the design of an electric machine, it is key to assess its potential in terms of global energy efficiency when submitted to specific duty cycles.

This presentation will show how:

- FluxMotor is able to extract efficiency maps in a very fast way.
- FluxMotor can be coupled to Altair HyperStudy for design exploration and optimization studies, considering the efficiency over duty cycles as an objective function to be maximized.


Evaluation rapide et optimisation de l'efficacité énergétique des machines électriques
AltairFlux est le logiciel qui permet d’améliorer le processus de conception de vos machines électriques notamment en vous aidant à optimiser l’efficacité énergétique de ces dernière.

Optimisation multi-physiques pour concevoir des machines rotatives hautement performantes
Découvrez comment améliorer le processus de conception de vos machines électriques et comment concevoir des machines tournantes hautement performantes !

Considérer les contraintes de température dans la conception de machines électriques
Découvrez comment améliorer le processus de conception de vos machines électriques en considérant les contraintes thermiques dans la conception de vos E-Motors.

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