Modern geotechnical simulation software, built for real engineering workflows.
Artemis Dev builds Falcon — a high-fidelity finite element platform for soil-structure interaction, coupled hydro-mechanics, and seismic response. Advanced geomechanics, shipped as production-grade software on macOS, Windows, and Linux.
Legacy tools were designed for a different era.
The dominant geotechnical FEM platforms are decades old. Engineering teams today need auditable models, faster iteration, and workflows that don't depend on tribal knowledge — but the incumbents were never built to deliver modern software experience around serious analysis.
Too much expert labor in setup
Model edits, boundary conditions, and solver configuration are still stitched together by hand. Every iteration costs time and introduces risk that compounds across a project.
Reviewability is an afterthought
When inputs, run parameters, and outputs are hard to inspect, technical review slows down and confidence in results becomes harder to defend — internally and with regulators.
No clean path from analysis to product
A solver alone is not a product. Teams need packaging, documentation, automation, and quality controls to turn advanced analysis into a repeatable, scalable capability.
Built around the realities of simulation work.
Falcon is the core simulation engine. Around it, Artemis Dev ships tools that make advanced analysis easier to prepare, verify, run, and manage — all in a single installable package.
Falcon simulation engine
2D, 3D, and axisymmetric finite element analysis — static, dynamic, consolidation, and fully coupled workflows in one native solver with UMAT extensibility.
Material mini-tools
Standalone single-element solvers for developing, calibrating, and validating constitutive models before committing them to full-scale analysis.
Workflow and automation
Guided model preparation, input validation, run management, and result tracking — designed to reduce manual steps and support repeatable engineering processes.
Why this approach is defensible.
The opportunity is not just better physics. It is better software around serious engineering work — and the incumbents are not structured to deliver it.
Signed installers, bundled documentation, and local deployment mean Falcon reaches project teams — not just the expert who built the model.
Structured inputs, validation checks, and tracked artifacts make internal and external technical review straightforward to support.
API-driven workflows and surrogate training support create a path from single-run analysis to parameter studies, uncertainty quantification, and broader engineering processes.
A strong simulation core makes it natural to layer on material tooling, workflow automation, and AI-assisted capabilities — each expanding the value of the same platform.
Start with Falcon.
Falcon is the primary product — a complete geotechnical simulation platform shipping on macOS, Windows, and Linux. As teams adopt more demanding workflows, they extend into material development and automation tools built on the same foundation.