模拟

模拟

澳门黄金城赌城官网 simulation-driven design changed product 开发ment forever, enabling engineers to reduce design iterations and prototype testing. 不断增长的科学计算能力扩大了应用分析的机会, 在程序的时间限制下使大型设计研究成为可能. Now engineering adoption of AI is transforming product 开发ment again. 将基于物理的模拟驱动设计与机器学习相结合, leveraging the latest in high-performance computing, 使团队能够在开发周期的更早阶段探索更多并识别出高潜力的设计,同时拒绝低潜力的概念.

浏览产品

按需网络研讨会

Converging Technology for a Smarter, More Connected World

Use 澳门黄金城赌城官网's simulation technology to improve 开发ment efficiency, optimize product performance, and accelerate growth.

查看网络研讨会

Structural 分析 and Optimization

Structural 分析 and Optimization

澳门黄金城赌城官网提供行业领先的结构工程分析和优化工具,从仿真驱动的设计概念到详细的虚拟产品验证, and simplified modeling workflows to advanced high-fidelity model building. Whether big or small, our customers trust their decision making to 澳门黄金城赌城官网, 仿真驱动设计和结构优化技术的先驱.

了解更多
Electronic System Design

Electronic System Design

电子系统设计对几乎每一种类型的产品都有越来越大的影响,需要新的仿真工具来帮助实现电子化, 电, 机械, 热, and connectivity goals. 澳门黄金城赌城官网使您的团队能够跨设备开发的所有方面进行协作,从概念到制造. 澳门黄金城赌城官网产品简化了流程,消除了设计迭代,并缩短了上市时间.

了解更多
流体动力学 & 热管理

流体动力学 and 热管理

无论您是执行高级计算流体动力学(CFD)建模的分析师,还是需要快速了解设计方案的热效应的设计工程师, 澳门黄金城赌城官网 offers a complete line of tools to support your project. From detailed component analysis to full systems performance, 澳门黄金城赌城官网提供一系列可伸缩的求解器和健壮的预处理和后处理.

了解更多


模拟-driven Design

When used early in the design process, 模拟支持对高性能设计解决方案的广泛探索, 可制造的, 和可持续发展.

澳门黄金城赌城官网®激发™

Accelerate simulation-driven design
When used early in the design process, 激励 通过提供单一的直观用户体验来模拟,使用户能够创建实现更好性能和可制造性的设计, 探索, 开发, and optimize products. 一套独特的模拟工具确保生产效率和优化许多制造过程的材料使用.

澳门黄金城赌城官网® HyperWorks™

Driving more design with simulation
HyperWorks experience enables teams to move efficiently from physics to physics, 域的域, and even create reports without leaving a model. It delivers the next generation of market-leading 澳门黄金城赌城官网® HyperMesh®, 澳门黄金城赌城官网® HyperGraph®, and 澳门黄金城赌城官网® HyperView® functionality to the analyst’s desktop.

澳门黄金城赌城官网®SimLab™

多重物理量 workflows with CAD associativity
SimLab 提供高度自动化的工作流程,大大减少了创建有限元模型的时间,并为产品工程师在多个物理领域(包括结构分析)解释结果, 热管理, 和流体动力学.

澳门黄金城赌城官网®SimSolid™

Structural analysis for rapid design iterations
SimSolid 通过在几分钟内对功能齐全的CAD组件进行结构分析,使客户在每次设计迭代中准确地测试更多的想法. 它提供了改变游戏规则的解决方案时间,同时消除几何准备和网格.

澳门黄金城赌城官网 Material Data Center, a high-fidelity material database for simulation

了解更多

A History of Solving the Most Challenging Problems

澳门黄金城赌城官网人被好奇心和强烈的渴望所驱使,想要超越地平线去寻找新的见解, 的想法, 和可能性, to drive the engineering innovations of the future.​​

澳门黄金城赌城官网® OptiStruct™

Optimization-enabled structural analysis
For more than two decades, OptiStruct 拓扑优化推动了您每天看到和使用的产品的轻量化和结构高效设计. 1994年推出, OptiStruct使用增强的NASTRAN专有版本和由澳门黄金城赌城官网开发和维护的现代专有非线性公式来解决线性和非线性问题.

澳门黄金城赌城官网®收音机™

Product performance under dynamic loadings
For more than 30 years, 收音机 has been an industry leader for automotive crash and safety, shock and impact analysis, 坠落试验, 终端弹道, blast and explosion effects, and high-velocity impacts. 收音机是一个强大的多物理求解器,可以与其他澳门黄金城赌城官网工具和第三方解决方案进行优化整合.

澳门黄金城赌城官网®Feko®

Solving connectivity, compatibility, and radar challenges
Feko 20多年来一直是高频电磁仿真领域的领导者,并提供并行求解器,为日益连通的世界设计产品, enabling teams to optimize wireless connectivity, 包括5克, ensure electromagnetic compatibility (EMC), and perform radar cross section (RCS) and scattering analysis.

澳门黄金城赌城官网®DesignAI™

云 native, transformative, AI- and simulation-driven design
澳门黄金城赌城官网DesignAI 通过结合基于物理模拟驱动的设计和基于机器学习的人工智能设计,改变工程决策,在开发周期的早期创造高潜力的设计. 利用人工智能技术增强产品开发实践,探索更广泛的客户满意度, 高性能, 有意义的, and 可制造的 new product design alternatives.

有意义的模型

The right model, for the right decision, at the right time.

Relevant and timely models for concept design, product engineering, and detailed analysis need different levels of complexity and data. 澳门黄金城赌城官网了解整个项目和跨学科的有意义模型的需求,通过实现产品性能目标探索,提高决策的信心和速度, trade-off evaluations, and ‘what if’ studies.

By combining computationally efficient reduced-order models 详细的CAE分析和过程自动化的重复和繁琐的任务, 澳门黄金城赌城官网 provides workflows for early system models, to mixed-fidelity simulations and multiphysics validations, across domains including electrification or advanced manufacturing.

基于物理的模拟驱动设计,加上基于机器学习的ai驱动设计,有潜力在开发周期的早期创造高潜力的设计. 澳门黄金城赌城官网DesignAI使组织能够扩展现有的专业知识,并实现存档模拟数据的价值,以更快地解决最具挑战性的设计和工程问题.

Featured 资源

What is 5G and why are there so many new antennas?

There’s no questioning the hype around 5G. The buzz around a faster and more connected future is exciting, but for many product designers, the exact definition of the term 5G isn’t totally clear.

特色的文章

澳门黄金城赌城官网和劳斯莱斯德国联合将人工智能与工程融合

澳门黄金城赌城官网和劳斯莱斯德国的合作将解决各种各样的用例, 包括将数据科学应用于大量的工程测试数据, which can lead to a significantly reduced number of sensors needed.

新闻发布会上

What is the Discrete Element Method (DEM)?

这本电子书描述了离散元方法(DEM)背后的理论背景——一种颗粒尺度的数值方法,用于模拟颗粒材料和许多地质材料(如煤)的体积行为, 矿石, 土壤, 岩石, 聚合, 球团矿, tablets and powders. The following topics are covered: - Modeling Approaches ——民主党的背景 - Particle Motion Calculations ——时间步骤 - Interaction Models - 联系 Detection ——粒子形状 - Material Calibration - Geometries in DEM - Coupling DEM with other CAE tools

电子书

Designer Oriented Software - Is it Accurate?

NAFEMS的Ian Symington通过一系列八个分析基准测试澳门黄金城赌城官网 SimSolid的准确性. Article originally published in Benchmark Magazine by NAFEMS, the International Association for the Engineering Modeling, 分析 & 模拟 社区. Find out more at nafems.org.

Technical Document
View All 资源