Company

Built from coupled geomechanics research

Terra Multiphysics comes from a decade of building and validating coupled finite-element models for subsurface systems - geometry, meshing, heterogeneous materials, constitutive models, THMC-G solving, visualization, scientific data, and the digital-twin workflow around them.

How it fits together

One pipeline, from geometry to a deployable workflow

A purpose-built coupled-physics engine, a guided interface, and a data layer that turns validated subsurface models into scientific evidence, custom apps, and future digital twins.

Terra Multiphysics system architecture and workflow Finite-element pipeline - geometry, meshing, material characterization, THMC-G solver, visualization, scientific data, custom apps, and digital twins. Terra Multiphysics: Architecture & Workflow Unified THMC-G simulation for subsurface engineering and geo-energy systems core engine data + AI support Geometry + data CAD, mesh, materials geometry - mesh - BCs - records Translator Terra_Trans.exe model setup to native input THMC-G Solver Terra.exe - Fortran coupled multiphysics FE engine Results + deployment visualization, apps, twins fields - data - digital twins Inside the platform: coupled THMC-G physics and object-oriented scientific data Monolithic Newton-Raphson Advanced constitutive laws Chemical + gas transport Heterogeneous porous media connected to validation, monitoring, and uncertainty workflows Data integration, uncertainty, and AI-assisted decision layer Geophysical imaging roadmap Field monitoring Uncertainty quantification Apps + digital twins roadmap Windows 10/11 x64 - standalone app GPU/HPC-ready scaling path
Get started

Let's model your next subsurface system.

Tell us what you're working on, and we'll set you up with early access and a walkthrough.