AI-powered engineering for faster, smarter product development
Hybrid ML + Physics based solver
What is AI Works?
Unified AI + Physics-Informed Engineering
MeshWorks AI blends machine learning techniques – CNNs, DNNs, PINNs, GNNs, U-Nets – with traditional physics-based CAE tools such as Nastran and Abaqus. This hybrid approach delivers accurate predictions while respecting engineering constraints and domain knowledge.
Rapid, Adaptive, and User-Friendly Platform
Modular components like Adaptive Trainer, Predictor, Auto-Parameterizer, Optimizer, Generative AI, Data Manager, and Visualization Tools make the platform flexible. Engineers can deliver PoC models in under six weeks and iterate without deep data science expertise.
End-to-End Capabilities Across Verticals
Supports automotive, aerospace, energy, manufacturing, telecom, oil & gas and more – covering data integration, feature engineering, AutoML, MLOps, visualization, and real-time deployment, while targeting major cost reductions and productivity gains.
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AI Works
DEP MeshWorks AI/ML Brochure
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AI Works Architecture
Adaptive Trainer
This module continuously learns and retrains models with new data, ensuring that predictions remain accurate and relevant as new information becomes available.
Predictor
The Predictor uses a predictive AI/ML model to process inputs and deliver outputs such as pressure contours and flow lines, with prediction types including scalars, vectors, field responses, time histories, and matrices.
Auto-Parameterization
Enables rapid design modifications and allows quick evaluation of performance. Tailored to the incoming geometric data and automatically identifies and parameterizes the most critical parameters for faster iterations.
Optimizer
Combines AI/ML models with parameterized geometry and optimization tools to deliver rapid optimization, applicable across all design phases, especially in the early stages.
Gen-AI
The platform’s generative AI capabilities enable the creation of new design possibilities. By synthesizing point clouds into manufacturable geometries, it helps engineers explore innovative design solutions.
Data Manager
Portal-based interface manages all models, training runs, and optimization data.
Download Our AI Works Resources
DEP’s AI/ML Solutions enhance vehicle engineering by delivering predictive analytics, optimized system design, and efficient validation workflows through AI-powered CAE.
Predictive simulation results analysis
Vehicle layout and architecture optimization
Streamlined validation and testing processes
Interested in a Demo?
See how AI Works can accelerate your engineering workflows. Request a demo to explore use-cases relevant to your industry.
AI Architecture Deep Dives
Adaptive Trainer
What it does: Builds ML models from historical datasets (crash, NVH, CFD). Supports CNNs, GNNs, physics-informed models. Offers Power User & Developer modes.
Why: Produces continuously-improving, reusable predictive models.
Predictor
What it does: Applies trained models to produce instant predictions without coding.
Why: Cuts simulation turnaround from hours to seconds.
Auto-Parameterizer
What it does: Automatically identifies key design variables from FE or geometry models.
Why: Speeds concept validation & workflow integration.
Optimizer
What it does: Using the ML model as a fast solver & design space defined by parameteric setup, it solves for optimal design.
Why: Enables fast convergence to optimal designs.
Generative AI
What it does: Generates new design geometries from constraints & goals.
Why: Bridges concept to production-ready CAD.
Data Manager
What it does: Central repository for all AI/ML data.
Why: Improves future training and supports MLOps.
MeshWorks Uniqueness
MeshWorks simplifies the application of machine learning for CAE engineers through intuitive operation modes like ‘Power User Mode’ and ‘Developer Mode.’ These features, combined with its parametric CAE backbone, enable the generation of extensive training datasets, even in scenarios with limited in-house data. By tightly integrating simulation data and machine learning, MeshWorks ensures that AI-driven design and prediction processes remain fast, accurate, and highly applicable to real-world engineering challenges.
Physics-Integrated Machine Learning
Combines traditional ML with physics-based modelling to improve the realism and reliability of predictions.
Rapid Design Evaluation
Enables quick assessments and informed decision-making during time-constrained development cycles.
Model-to-Task Matching
Selects and applies the most suitable AI/ML architecture based on the specific application or domain objective.
Production-Ready Design Output
Transforms early-stage concepts into manufacturable designs, guided by AI-generated geometry and performance constraints.
AI Works - Case Studies
'Predictions of CFD Responses with 97% accuracy
DEP’s intelligent prediction platform has extremely high accuracy. Currently, the accuracy of CFD prediction of wind resistance coefficient is in the range of 97%.
Predictions of Structural Response
MW AI predictions of structural responses including fatigue, craswhorthiness and stiffnes performance have provided valuable and immediate design direction
Pre-Trained Architecture for Data
Leverage pre-trained AI/ML architectures to accelerate model development and ensure robust, data-driven insights.
