Automotive

Accelerate the development of high-performance,
safe, and efficient vehicles through AI-powered predictive engineering.

Automotive Industry Challenges

The automotive industry facing modern design challenges

Mass electrification requires drastic battery thermal management to prevent overheating and ensure safety.

Reducing aerodynamic drag has become the primary lever to maximize EV range without increasing vehicle weight.

Global safety standards and digital crash tests demand absolute precision to obtain international certifications.

The absence of a combustion engine makes road and wind noise (NVH) critical to the customer’s perception of quality.

Shrinking “Time-to-Market” forces manufacturers to compress R&D phases while technical complexity increases.

Integrating composite materials and light alloys complicates the prediction of long-term structural behavior.

Our platform addresses specific automotive industry needs with advanced AI solutions.

Real-Time CFD & Aero

Instant aerodynamic optimization to maximize efficiency and range.

Instant Aerodynamic Feedback Immediate performance analysis of design modifications.

Efficiency & Range Maximization Optimizing battery life and energy use for electric vehicles.

Optimized Thermal Management Advanced cooling for batteries and critical components.

Aero-Acoustic Reduction Minimizing aerodynamic noise at high speeds.

Advanced NVH Analysis

Predictive noise and vibration analysis for optimal comfort.

Predictive Vibration Modeling

Cabin Acoustic Optimization

EV & Hybrid Specific NVH

Structural Resonance Control

Crash & Safety Simulation

Predictive impact simulation to validate safety from the design phase.

Predictive Impact Modeling

Structural Integrity Validation

Rapid Iterations on Safety Designs

NCAP and Regulatory Compliance

A platform designed to transform your automotive development process.

Our “AI-first” approach provides real-time simulation results (CFD, Crash), compared to several days with traditional methods.

Predictive models are built on high-end engineering expertise, validating technical feasibility during the styling phase.

The collaborative digital twin centralizes data, allowing designers and engineers to work on a single unified version.

Our high-fidelity solvers allow for the simulation of thousands of crash scenarios in parallel for optimal safety.

An intuitive 3D visualization interface allows for adjusting performance parameters without being a calculation expert.

The platform natively integrates manufacturing constraints, ensuring that every prediction is industrially feasible.

Discover how DeepMobility AI can transform your design process and reduce your development timelines.