Altair Releases Altair® HyperWorks® 2025

Rhea-AI Summary

Altair (Nasdaq: ALTR) has announced the release of HyperWorks® 2025, an advanced design and simulation platform aimed at achieving a zero-prototype world. The platform combines artificial intelligence (AI), high-performance computing, and multiphysics simulation with cloud-based scalability.

Key features include AI-powered engineering with physics prediction models, cloud-based SaaS solutions like Altair® DSim™, and enhanced automation capabilities with Python APIs. The platform offers digital twin technologies, improved solver efficiency through the 'One Model, One Solver' approach, and advanced material simulation capabilities.

Notable improvements include enhanced multiphysics simulation for electronics, CAE design tools with AI assistance through Altair® CoPilot™ Beta, and expanded particle simulation features with new physics models for various industries including agriculture, batteries, and pharmaceuticals.

Positive

• Introduction of AI-powered engineering and optimization capabilities to improve simulation accuracy and speed
• Launch of flexible pay-as-you-go SaaS model eliminating upfront costs
• Implementation of automation features to reduce workflow complexity and time consumption
• Enhanced digital twin technologies for improved data integration and system modeling

Negative

• None.

Insights

Technology Industry Analyst

The release of HyperWorks 2025 marks a strategic pivot that could significantly strengthen Altair's market position in the $9.3 billion computer-aided engineering (CAE) software market. The platform's AI-powered capabilities and zero-prototype vision directly address the industry's most pressing challenge: reducing the astronomical costs of physical prototyping, which typically consume 30-50% of product development budgets.

Three key innovations stand out for their revenue potential and competitive implications:

• The new DSim SaaS solution for semiconductor design introduces a pay-as-you-go model, potentially opening up a new revenue stream in the rapidly growing semiconductor design market while reducing barriers to entry for smaller customers.
• The integration of AI-powered physics prediction models and machine learning solvers could reduce simulation times by up to 80%, based on industry benchmarks, providing a compelling differentiation from competitors like Ansys and Dassault Systèmes.
• The expansion of digital twin capabilities and sustainability analysis tools positions Altair to capitalize on the growing demand for ESG-compliant engineering solutions, a market segment expected to grow at 15% CAGR through 2028.

The shift toward cloud-based and SaaS solutions represents a strategic transformation of Altair's business model, potentially accelerating the transition from perpetual licenses to recurring revenue streams. This could lead to more predictable revenue patterns and higher customer lifetime value, though it may initially impact short-term revenue recognition.

The platform's enhanced automation capabilities and customization options address a critical pain point in the industry - the engineering talent shortage. By automating routine tasks and simplifying complex workflows, HyperWorks 2025 could help clients achieve more with smaller teams, making it an attractive solution in the current market environment where engineering talent is both scarce and expensive.

New capabilities and enhancements make a zero-prototype world possible

TROY, Mich., Feb. 19, 2025 /PRNewswire/ -- Altair (Nasdaq: ALTR), a global leader in computational intelligence, is thrilled to announce the release of Altair^® HyperWorks^® 2025, a best-in-class design and simulation platform for solving the world's most complex engineering challenges. At the forefront of this release is a bold vision of the future of product development: a zero-prototype world, where design is perfected in the virtual domain before reaching the physical world. By combining the power of artificial intelligence (AI), high-performance computing (HPC), and multiphysics simulation with cloud-based scalability and digital thread connectivity, Altair HyperWorks 2025 is more than a simulation platform – it's a launchpad for innovation.

"Altair HyperWorks 2025 builds on four decades of Altair's expertise in simulation, design, and optimization," said James R. Scapa, founder and chief executive officer, Altair. "By integrating advanced simulation technologies with AI and machine learning, automation, open architecture, and a connected digital thread, the platform accelerates design processes, fosters scalable cloud collaboration, and empowers teams to deliver smarter, faster, and more sustainable solutions. It is yet another leap in our vision of democratized computational intelligence."

AI-Powered Engineering and Optimization

Altair continues to pull away from the competition with our unparalleled AI-powered engineering, machine learning, and optimization capabilities. Physics prediction models powered by new transformer architectures deliver accurate simulations, even with limited or incomplete data. Machine learning models act as solvers, slashing simulation times while improving reliability. AI-enabled reduced order modeling (ROM) enables faster, more precise simulations of nonlinear systems, providing insights early in the design process.

Cloud-Based and SaaS Solutions

Embracing the shift to cloud-based and SaaS solutions, Altair is democratizing access to advanced engineering simulations with flexible infrastructure. The new Altair^® DSim™ SaaS solution allows semiconductor designers to run unlimited simulations with a pay-as-you-go model, eliminating upfront costs and offering the freedom to scale on demand. And the Altair One^® cloud innovation gateway enhances collaboration, providing instant access to simulation applications, data, and HPC resources.

Automation and Customization

New automation capabilities, including Python APIs, eliminate repetitive tasks, streamline data queries, and simplify report generation. For large-scale projects, advanced batch execution and task libraries reduce time spent on complex workflows. The platform's customization options allow users to tailor simulations to unique applications, such as modeling particle interactions in pharmaceuticals or agriculture.

Additional Highlights

Digital Engineering: A Connected Ecosystem

By connecting data, teams, and processes across the product life cycle, Altair delivers a more integrated approach to design and simulation. Enhanced digital twin and digital thread technologies ensure seamless data flow and align virtual models with physical systems. To meet sustainability goals, private material databases provide a single source of truth for material decisions, including tools for carbon dioxide (CO₂) impact analysis.

Solver Efficiency

Simplifying structural simulations, the "One Model, One Solver" approach of Altair^® OptiStruct^® enables smooth transitions between implicit and explicit analyses. By deploying Altair^® PhysicsAI™ models as solvers, users can replace traditional numerical solvers with AI-powered alternatives, accelerating simulations while maintaining accuracy.

Multiphysics Simulation for Electronics

Recent updates simplify managing thermal, electromagnetic, and power interactions in electronics design. ECAD meshing improvements speed up cooling and durability analysis, while enhanced electromagnetic-thermal coupling provides better system performance predictions. Power electronics simulation updates optimize motor drive and converter modeling for improved efficiency.

CAE as a Design Tool

Altair^® Inspire™ continues to make CAE essential by offering designer-friendly computational physics for structural, fluid, and motion analysis – alongside manufacturability and optimization workflows. Altair^® CoPilot™ Beta – an intelligent AI-assistant embedded within Inspire – provides on-demand guidance, Q&A, and workflow support, while new tools like image planes for sketching and expanded implicit modeling streamline geometry creation and exploration.

Advanced Material Simulation

As material complexity, sustainability demands, and AI-powered workflows advance, Altair's material solutions give users the tools they need to lead. With Altair's material solutions, organizations can source, standardize, and simulate high-fidelity material data for advanced materials like composites, polymers, and additive manufacturing. Engineers can optimize designs, achieve sustainability goals with CO₂ analysis, and reduce physical testing costs by using AI to complete missing data.

Particle Simulation

Altair continues to define the industry standard for the discrete element method (DEM) by delivering new physics models—a Fibers Bonding Model, Liquid Bridge Model, and updated Linear Elastic Bond Model (LEBM) with polyhedral particles—enhance workflows and enable a realistic representation of fibers and particles for applications in agriculture, batteries, and pharmaceuticals.

To learn more about Altair HyperWorks and see the full list of enhancements, visit https://altair.com/hyperworks-2025.

About Altair

Altair is a global leader in computational intelligence that provides software and cloud solutions in simulation, high-performance computing (HPC), data analytics, and AI. Altair enables organizations across all industries to compete more effectively and drive smarter decisions in an increasingly connected world – all while creating a greener, more sustainable future. To learn more, please visit www.altair.com.

Media contacts
Altair Corporate	Altair Investor Relations
Bridget Hagan	Stephen Palmtag
+1.216.769.2658	+1.669.328.9111
corp-newsroom@altair.com	ir@altair.com
Altair Europe/The Middle East/Africa	Altair Asia-Pacific
Louise Wilce	Man Wang
+44 (0)7392 437 635	86-21-5016635,,825
emea-newsroom@altair.com	apac-newsroom@altair.com

 

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SOURCE Altair

FAQ

What are the main features of Altair HyperWorks 2025 (ALTR)?

Altair HyperWorks 2025 features AI-powered engineering, cloud-based SaaS solutions, enhanced automation capabilities with Python APIs, digital twin technologies, improved solver efficiency, and advanced material simulation capabilities.

How does Altair's (ALTR) new DSim SaaS solution benefit customers?

Altair DSim SaaS solution offers semiconductor designers unlimited simulations with a pay-as-you-go model, eliminating upfront costs and providing scalability on demand.

What AI capabilities are included in Altair HyperWorks 2025 (ALTR)?

The platform includes AI-powered physics prediction models, machine learning solvers, AI-enabled reduced order modeling (ROM), and the Altair CoPilot Beta AI assistant for guidance and workflow support.

How does HyperWorks 2025 address sustainability goals for ALTR customers?

The platform includes private material databases and tools for CO₂ impact analysis, helping organizations source, standardize, and simulate materials while optimizing designs for sustainability.

What new particle simulation features does Altair (ALTR) offer in HyperWorks 2025?

The platform includes new physics models such as Fibers Bonding Model, Liquid Bridge Model, and updated Linear Elastic Bond Model with polyhedral particles for applications in agriculture, batteries, and pharmaceuticals.