Simulate What Matters — On a Platform You Own
Own Your Simulation Stack — From Aerodynamics to Sustainment
Aerospace and defense programs are defined by their computational capability. The ability to simulate, predict, and optimize — from early-stage aerodynamic design through certification to fleet sustainment — determines how fast you develop, how confidently you certify, and how affordably you sustain. Yet most organizations depend on fragmented commercial toolchains controlled by foreign vendors. A license revocation, an export restriction, or a geopolitical shift can ground your entire simulation capability overnight.
We build unified, open-source simulation platforms that your organization owns completely — the source code, the solvers, the workflows. Customizable to your exact physics, deployable on infrastructure you control, and independent of any foreign vendor's business decisions. From CFD and multiphysics to flight dynamics and reservoir simulation — high-fidelity computational modeling without the vendor lock-in.
What We Help Solve
Engineering and defense organizations face challenges where computational capability is the bottleneck:
Fragmented Toolchains Slowing Integrated Design
Aerodynamic, structural, thermal, and control analyses run in different commercial tools with different data formats. Every design iteration requires manual data translation between tools that were never designed to talk to each other — slowing the overall design cycle by weeks.
Strategic Vulnerability to Foreign Software Vendors
Critical simulation capability locked behind foreign licenses that can be revoked, restricted, or sanctioned. When your ability to design and certify depends on a vendor in a different geopolitical bloc, you don't have sovereign capability — you have a dependency.
Vendor Lock-In Limiting Customization and Control
Commercial solvers with opaque numerics that can't be modified for proprietary physics, novel coupling, or domain-specific validation. Your engineering is constrained by what the vendor decided to implement.
HPC Scaling Blocked by Per-Core Licensing
The parametric studies and design exploration your engineering team needs require thousands of cores — but per-core licensing makes large-scale computation prohibitively expensive.
Certification Requiring Transparent, Reproducible Methods
Regulatory and certification processes demand simulation methods that are inspectable, auditable, and reproducible. Black-box commercial solvers that can't be examined don't meet this bar.
OUR CAPABILITIES
Unified, open-source simulation platform with full source code ownership — customized to your physics, deployable anywhere you operate.
High-fidelity aerodynamic analysis and virtual testing — replacing commercial licenses with capability you own and control.
Turbulence modeling (RANS, LES, hybrid) for external and internal aerodynamics
Adjoint-based aerodynamic shape optimization for design exploration
Compressible flow, gas dynamics, and propulsion system simulation
Supersonic, hypersonic, and cryogenic flow analysis
Coupled physics that commercial tools can't handle — fluid-structure interaction, conjugate heat transfer, aeroelastic analysis — with complete control over the source code.
Fluid-structure interaction for aeroelastic analysis and flutter prediction
Conjugate heat transfer for thermal protection and management systems
Custom solver development for proprietary physics and classified applications
Multi-physics coupling across domains
Automated design exploration that finds optimal configurations across thousands of parameters — under the physical constraints that govern your systems.
Adjoint-based shape optimization for aerodynamic surfaces and structures
Multi-point and multi-objective optimization under operational envelopes
Structural topology optimization under dynamic and thermal loads
Antenna, radar, and RF system design optimization
Design space exploration across hundreds of configurations in parallel
Simulation capability that runs where you need it — cloud, on-premise, or air-gapped — with no vendor dependency for operation or scaling.
Deploy on your own infrastructure — no license validation, no call-home, no per-core fees
Cloud-native deployment with on-demand compute bursting (AWS, Azure, GCP)
Air-gapped and classified network compatibility
Containerized, reproducible workflows with full provenance tracking
70-90% reduction in simulation software costs vs commercial CAE
Production-grade open-source frameworks — no per-core licensing, complete source code access, unlimited HPC scaling.
SU2 and OpenFOAM for computational fluid dynamics
FEniCSx, deal.II, and PETSc for finite element and multiphysics problems
preCICE for multi-physics coupling across solvers
Scalable, extensible, and fully under your control
Ready to Own Your Simulation Capability?
From aerodynamic design to fleet sustainment — we build unified simulation platforms your organization owns, customizes, and deploys without vendor dependency.