News

TFAWS 2021

August 24-26, 2021: Thank you to the TFAWS conference for the opportunity to share our new model correlation feature and how customers at NASA GSFC and Ball Aerospace have used reduced-order models to enhance their model correlation efforts.

ICES 2021

July 12-15, 2021: We presented our work “Advanced thermal model correlation using reduced-order models” at the 50th International Conference on Environmental Systems. Click here for the publication!

Veritrek 4.1

June 16, 2021: The Veritrek team is excited to announce the release of Veritrek v4.1 that includes a new Max Gradient output response option and compatibility with Thermal Desktop 6.2.

Veritrek 4.0

February 16, 2021: The Veritrek team is excited to announce the release of Veritrek v4.0 that includes a new approach to thermal model correlation, ROM parallelization, and other customer driven enhancements. Our model correlation feature provides a new approach to correlating thermal models to test data, by using a ROM to explore thousands of parameter combinations. This new approach enables more confidence as multiple solutions can be found quickly in an automated and repeatable manner.

SmallSat Conference

August 4 and 5, 2020: Thank-you to the SmallSat conference for the opportunity to discuss how Veritrek can be applied to SmallSats! Check out this recording of our talk for more details.

Veritrek 3.2

March 12, 2020: We’re excited to announce Veritrek 3.2 with new customer-driven features. You can now improve reduced-order model (ROM) accuracy faster and easier using the ROM Improvement feature. This new capability allows you to improve the accuracy of existing ROMs without starting over. Check out this video for more details.

Veritrek 3.0

October 16, 2019: We have heard our customer’s feedback and feature requests; and as a result, Veritrek 3.0 is here!

Veritrek 2.2

August 1, 2018: We’re pleased to announce the release of Veritrek 2.2. Built to enhance the capabilities of Thermal Desktop®, Veritrek produces thousands of simulation results in seconds by leveraging the power of reduced-order models (ROMs). ROMs act as statistical emulators built from high-fidelity simulations, and allow you to quickly investigate variations in your Thermal Desktop® model.