A comprehensive suite of API-first constitutive modeling tools for geomechanics.
Falcon Minis is built for material model development, verification, calibration, and integration with Falcon. It gives engineering teams and researchers a structured way to work on constitutive behavior without treating every model as a one-off implementation.
Coverage across soil, rock, and baseline material behavior
The suite is structured around reusable drivers and model families, not isolated code samples. That makes it useful for both production engineering workflows and research-oriented constitutive development.
SANISAND, NorSand, CASM, GCC, and related sand-focused drivers for calibration, verification, and workflow integration.
SANICLAY, MITS1, subloading and companion clay models for stress-path-sensitive constitutive development.
Linear, nonlinear, clay-elastic, and orthotropic elasticity modules for baseline response, regression checks, and solver validation.
Hoek-Brown and Mohr-Coulomb variants for rock and generalized yield-surface workflows inside a shared API-first structure.
Built for development, verification, and Falcon integration
Build material models in a structured codebase with consistent inputs, outputs, and reusable driver patterns.
Run standalone drivers and benchmark cases to validate stress paths, hardening response, and implementation correctness early.
Move proven models into Falcon workflows for larger analyses without rewriting the constitutive logic from scratch.
A studio built around real constitutive model work
Falcon Minis is intended to cover the models engineers and researchers actually need for development and validation workflows, not just a narrow demo set.
Need constitutive workflows that can move from verification into production?
Request access if you want early evaluation of Falcon Minis for model development, benchmark validation, custom UMAT-style workflows, or integration into larger Falcon analysis pipelines.