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FEA

Altair HyperWorks

Unified simulation and optimization platform for engineering-driven product development

5000+
ISO 9001
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Category
Software
Ideal For
Enterprises
Deployment
On-premise / Cloud / Hybrid
Integrations
50++ Apps
Security
Role-based access control, data encryption, audit logging, IP protection
API Access
Yes, comprehensive REST API for custom integrations

About Altair HyperWorks

Altair HyperWorks is an enterprise-grade Computer-Aided Engineering (CAE) platform that consolidates finite element analysis (FEA), computational fluid dynamics (CFD), multibody dynamics (MBD), and optimization tools into a single integrated suite. Designed for complex product development across aerospace, automotive, defense, and energy sectors, HyperWorks enables engineers to simulate physical behavior, validate designs, and optimize performance before physical prototyping. The platform reduces development cycles, minimizes costly iterations, and improves time-to-market. Through AiDOOS marketplace deployment, organizations gain flexible access to HyperWorks with simplified license management, scalable computing resources, and integrated governance frameworks. AiDOOS enhances governance through centralized user provisioning, streamlines integrations with existing CAD/PLM systems, and optimizes resource allocation for computationally intensive simulations. The platform supports collaborative workflows, ensuring teams can execute complex analyses efficiently while maintaining security and compliance standards across distributed engineering teams.

Challenges It Solves

  • Long product development cycles and excessive physical prototyping costs delay time-to-market
  • Design validation across multiple physics domains requires fragmented, incompatible tools
  • Inability to optimize designs early in development stages wastes engineering resources
  • Scaling simulation capacity and managing expensive computational infrastructure
  • Difficulty ensuring design performance and safety across extreme operating conditions

Proven Results

64
Reduction in physical prototyping iterations and development time
48
Improved design performance through multidisciplinary optimization
35
Lower overall product development costs and faster market entry

Key Features

Core capabilities at a glance

Unified FEA & Structural Analysis

Advanced finite element analysis with nonlinear materials and contacts

Accurate stress, strain, and fatigue predictions for complex geometries

Computational Fluid Dynamics (CFD)

High-fidelity fluid flow and thermal analysis

Optimized aerodynamic and thermal performance with reduced experimental testing

Multibody Dynamics Simulation

Dynamic behavior analysis for moving assemblies and mechanisms

Validated motion, forces, and performance of mechanical systems pre-production

Design Optimization Tools

Parametric optimization across multiple design objectives

Lightweight, cost-effective designs meeting performance and regulatory requirements

HyperMesh Pre-Processing

Industry-leading mesh generation and model preparation

Faster setup times and higher mesh quality for accurate simulation results

Post-Processing & Visualization

Advanced result analysis and interactive 3D visualization

Faster insight generation and stakeholder communication through intuitive reports

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Real-World Use Cases

See how organizations drive results

Aerospace Component Design & Validation
Aircraft manufacturers use HyperWorks to validate structural integrity, fatigue life, and aerodynamic performance of wings, fuselages, and control surfaces before flight testing.
65
Reduced certification time and flight test iterations
Automotive Crash & Impact Analysis
Automotive engineers simulate crashworthiness, occupant protection, and structural deformation to meet safety standards and optimize designs for impact scenarios.
72
Compliance with NHTSA/EURONCAP without extensive physical testing
Thermal Management & Heat Transfer
Electronics and energy sector companies optimize cooling systems, thermal distribution, and heat dissipation in motors, batteries, and power equipment.
58
Improved reliability and extended product lifecycle
Lightweight Structure Optimization
Defense and manufacturing sectors leverage topology optimization to reduce weight while maintaining structural performance and reducing production costs.
81
Weight reduction and material cost savings simultaneously achieved
Fluid-Structure Interaction (FSI) Analysis
Complex coupled simulations for turbomachinery, aerospace control surfaces, and pipeline systems where fluid dynamics influence structural behavior.
54
Accurate prediction of coupled multiphysics phenomena

Integrations

Seamlessly connect with your tech ecosystem

C

CATIA

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Seamless CAD geometry import and bi-directional model exchange for design optimization workflows

S

SOLIDWORKS

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Direct integration for mesh generation and FEA preparation from solid models

N

NX (Siemens)

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Native CAD-CAE integration with associative modeling and design change automation

C

Creo

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Parametric design integration enabling iterative optimization and design exploration

A

ANSYS Fluent

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CFD solver interoperability for advanced fluid dynamics and thermal analysis

A

Abaqus

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Model and result exchange for advanced nonlinear structural analysis

M

MATLAB

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Integration for post-processing, optimization algorithm development, and result analysis

T

Teamcenter & Windchill (PLM)

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Enterprise data management integration for design governance and version control

Implementation with AiDOOS

Outcome-based delivery with expert support

Outcome-Based

Pay for results, not hours

Milestone-Driven

Clear deliverables at each phase

Expert Network

Access to certified specialists

Implementation Timeline

1
Discover
Requirements & assessment
2
Integrate
Setup & data migration
3
Validate
Testing & security audit
4
Rollout
Deployment & training
5
Optimize
Performance tuning

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Alternatives & Comparisons

Find the right fit for your needs

Capability Altair HyperWorks Keysight PathWave ClearSky Connect SatSure
Customization Excellent Excellent Good Excellent
Ease of Use Good Good Good Good
Enterprise Features Excellent Excellent Excellent Excellent
Pricing Fair Fair Fair Fair
Integration Ecosystem Excellent Excellent Good Good
Mobile Experience Fair Fair Fair Fair
AI & Analytics Good Good Excellent Excellent
Quick Setup Fair Fair Good Good

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Frequently Asked Questions

What industries benefit most from Altair HyperWorks?
Aerospace, automotive, defense, energy, industrial equipment, and consumer electronics industries use HyperWorks extensively. Any sector requiring complex product simulation, optimization, and validation can benefit from its integrated CAE capabilities.
Can HyperWorks integrate with our existing CAD/PLM systems?
Yes, HyperWorks supports bidirectional integration with major CAD platforms (CATIA, SOLIDWORKS, NX, Creo) and PLM systems (Teamcenter, Windchill). AiDOOS marketplace deployment simplifies this integration setup with pre-configured connectors and governance frameworks.
What computational resources are required for HyperWorks?
Computational requirements vary based on simulation complexity. Simple FEA models may require modest resources, while CFD and coupled multiphysics analyses demand high-performance computing. AiDOOS provides scalable cloud infrastructure to handle variable workloads efficiently.
How does HyperWorks support collaborative engineering teams?
HyperWorks enables team collaboration through centralized project management, shared model repositories, and multi-user simulation workflows. AiDOOS enhances collaboration with integrated access control, audit trails, and distributed computing capabilities.
Is training and support available for HyperWorks?
Altair provides comprehensive training programs, documentation, and technical support. AiDOOS marketplace partnerships often include onboarding assistance and best-practice guidance to accelerate time-to-value.
How does HyperWorks compare to other CAE platforms?
HyperWorks stands out through its integrated multidisciplinary approach (FEA, CFD, MBD, optimization in one platform), advanced optimization capabilities, and strong CAD integration. It excels for organizations seeking comprehensive simulation without tool fragmentation.