Company

Built by a computational geomechanics scientist

Terra Multiphysics comes from a decade of building and validating coupled finite-element models for GeoEnergy systems — solver, surrogate, and the geometry-to-results pipeline around them.

How it fits together

One pipeline, from geometry to a sized ground loop

A purpose-built physics engine, a guided interface, and an AI layer that makes the whole thing real-time.

Terra Multiphysics system architecture and workflow Finite-element pipeline — geometry builder, translator, Fortran coupled THM solver, then 3-D post-processing — with an optional Python AI acceleration layer trained on solver runs. Terra Multiphysics: Architecture & Workflow Coupled thermo-hydro-mechanical finite-element solver for geothermal energy piles & borehole heat exchangers, with AI acceleration core engine AI layer (optional) Geometry builder own CAD geometry + mesher geometry · mesh · pipes · BCs Translator Terra_Trans.exe decks → native solver input THM Solver Terra.exe · Fortran coupled Newton–Raphson FE engine Post-processing interactive 3-D viewer outlet T · fields · design Inside the engine: Terra.exe (Fortran, statically linked, no external FE libraries) Monolithic Newton–Raphson 17 constitutive laws Embedded 1-D pipe network Custom banded / sparse solvers trained on ~200 coupled solver runs AI Acceleration Layer: Python, optional Gaussian-process surrogate ~1,000,000× faster · <1 ms Pareto design optimizer Natural-language copilot Offline web demo HTML5 Windows 10/11 (x64) · standalone app Fortran · Python · JavaScript
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Let's size your next ground loop.

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