Engineering consulting services for virtual product development.

ETA specializes in all major aspects of CAE structural analysis, serving automotive, transportation, aerospace, and other key industries.

ETA’s Engineering Services deliver in all key aspects of CAE structural analysis, such as crash and safety, noise, vibration and harshness, durability, vehicle dynamics, static and dynamic. ETA has decades’ experience full vehicle programs including passenger cars, buses, and trucks. ETA employs CAE simulation through conventional methods as well as proprietary patented technologies.

Crash and Occupant Safety

ETA has a firm understanding of all aspects of crash and safety.

Product Development from Clean Sheet

A complete engineering firm, ETA delivers from concept to product.

Beyond Forming & Stamping

Use CAE simulation to solve many common manufacturing issues.

CAD and Engineering Design

ETA employs major tools, like CATIA, NX, Creo, AutoCAD & Solidworks.

We are a full-service CAE virtual product development firm specializing in programs requiring sophisticated simulation solutions. At ETA, we have literally built the software tools needed to get the job done, if none already exist.

Crash and occupant safety

Crash and occupant safety simulations provide deep insight into structural behavior and impact on occupants.

Interior & Subsystems

Help you meet and exceed interior system and subsystem evaluations, seat system performance for FMVSS & ECE, FMVSD 207/210/…

Material Modeling

Applying a logical comprehension of how load-paths, along with material and gauge, work in diverse scenarios.

Vehicle Dynamics, Ride, & Handling

Predict road loads from Virtual Proving Ground, cascade into vehicle design and evaluate ride handling performance.

Need help with NVH

NVH response is a key facet to robustness. ETA analyzes major aspects, identifies concerns, and provides efficient options.

Accurate durability simulation

Shrinking product development cycles demand accurate durability simulation. ETA can employ 2 methods based on requirements.