Resources

Documentation, validation, and the THMC-G platform roadmap

Everything you need to understand the Terra Multiphysics workflow: geometry, meshing, material characterization, constitutive modelling, boundary conditions, coupled solving, visualization, scientific data management, AI support, and the path to custom apps and digital twins.

Documentation

Start here

From a first solve to the full geometry-to-results workflow, the documentation walks engineers and researchers through every module.

Quick-start: from install to first result

1

Install

Run the single installer on a Windows desktop — no account, no internet, and no cluster required.

2

Build the geometry

Start a model and shape the domain with primitives and boolean operations on the built-in CAD kernel, or import a solid.

3

Set materials, laws & boundaries

Pick faces to assign conditions, define heterogeneous material regions, choose constitutive laws, and set the processes the case needs.

4

Mesh

Generate an analysis-ready tetrahedral mesh at coarse, medium, or fine resolution — built in, nothing exported.

5

Solve or predict

Run the coupled THMC-G solve, or evaluate a validated surrogate when a case has enough solver evidence behind it.

6

Explore and deploy

Read plan, section, and 3-D fields, compare candidate designs, manage scientific data, and prepare the workflow for a custom app or digital twin when the use case repeats.

The full user manual, worked tutorials, and a theory & validation reference ship with the package. Request access to receive them.

Release notes

What's shipped

A short changelog of the coupled solver, data layer, AI support, and deployment roadmap.

v1.1 · June 2026

Unified workflow, data roadmap, and pile fields

The validated geo-energy demo, pile-field thermal interference, time-varying and seasonal loads, data-driven workflow, and digital-platform roadmap.

v1.0

Coupled solver and visualization

The custom finite-element solver, CAD geometry builder, mesher, and in-app plan, section, and 3-D visualization workflow.

FAQ

Questions engineers ask first

How accurate is it, really?

Current Terra validation includes independent multiphysics reference checks, instrumented field data, and closed-form analytical solutions for the shipped geo-energy cases. The broader THMC-G roadmap adds laboratory, field, analytical, and international benchmark evidence as new physics modules are released.

Does the AI replace the physics?

No. Surrogates and AI-assisted tools sit on top of real coupled finite-element evidence. You can run the full solver whenever you need the exact field, and the data-driven layer stays traceable to the case it learned from.

Is Terra Multiphysics claiming a quantum FEM solver?

No. The core finite-element solver remains classical. Quantum-inspired ideas belong to optimization and search workflows, not to replacing the validated physics engine.

What does it run on?

A standard Windows desktop today. Terra Multiphysics is a self-contained application with its own geometry builder, mesher, solver workflow, data layer, AI demo, and visualization tools. GPU/HPC-ready batch workflows are on the scaling roadmap.

Is my project data sent anywhere?

No. Everything runs locally on your machine. The optional natural-language copilot is the only feature that can call an external service, and only if you switch it on with your own API key.

Which systems does it cover?

Geo-energy systems, energy geostructures, underground thermal energy storage, underground hydrogen storage, CO2 sequestration, deep geological repositories, underground excavations, and geotechnical infrastructure.

How do I get it, and what does it cost?

We're onboarding early-access design partners now. Tell us what you're working on and we'll share access and commercial terms that fit your team.

Live, in your browser

Run it yourself

The current trained surrogate runs entirely client-side for the geo-energy demo. Use it as a live example of the data-driven layer planned for broader THMC-G workflows.

Open the demo full-screen ↗

Bring coupled THMC-G physics to your next design

We're onboarding early-access design partners now.

Request access