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BY CAPABILITY

Corvid provides end-to-end solutions including concept development, design and optimization, prototype build, test and manufacture.

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Artificial Intelligence

Develop and utilize artificial intelligence to solve a variety of problems, including cooperative-agent wargame engagement optimization, sensor scene modeling, and post-engagement sensor assessment.

Blast & Ballistics

Utilize our analysis tools, prototyping, and experimental capabilities to evaluate the effects of blast loading and ballistics to assets and personnel.

Facilities

Corvid maintains a massively parallel supercomputer system with 50,000 CPUs, a ballistics and mechanics lab, and a prototype manufacturing plant.

Instrumentation & Sensors

Design and utilize advanced instrumentation and sensors for complex data acquisition from tests and experiments, frequently in hostile environments.

Optimization

Leverage internally developed computational analysis tools to optimize design earlier than the standard build and test paradigm to improve efficiency, reduce the design cycle, and develop optimized solutions for complex problems.

Signatures & Sensor Modeling

First principle and high-fidelity modeling to generate Radar Cross Section (RCS) and Electro-Optical Infrared (EO/IR) signatures.

System Design & Integration

By leveraging physics based computational analysis early in the design phase of a program, Corvid is able to bring out successful System Design/Integration earlier in the design cycle and at a significantly reduced cost.

Warhead Design

Leverage expertise in shock physics and weapons effectiveness to design, develop, and test focused warheads for increased lethality and lower collateral damage.

Batteries and Energy Storage

Researching advancements in lithium-ion battery development toward low-cost, nonflammable energy storage.

Carbon/Carbon Composites

Process modeling of Carbon/Carbon and ceramic matrix composites.

Fluid Dynamics

Utilize our proprietary Computational Fluid Dynamics (CFD) solver to accurately predict aerodynamic effects in all Mach regimes and create virtual design environments.

Launch Services

Provide target systems engineering, integration, mission planning and test support.

Range Safety

Corvid leverages our extensive computational analysis capabilities along with our on-range support to ensure tests can be executed safely, on-time, and on-budget for a variety of test ranges for the DoD.

Structural Mechanics

Utilize our internally-developed multi-physics hydro-structural solver to accurately predict the behavior of complex structures when exposed to high rate or extreme loading conditions.

Test & Evaluation

Perform Test and Evaluation assessments of weapon systems and components; conduct fundamental research and experimentation.

Biomechanics

Develop and apply proprietary high-fidelity human models, including tissue characterization, to predict the outcomes of extreme loading events on the human anatomy.

Cybersecurity & Compliance

We provide the technology, procedures, training, and management to protect your environment and help you achieve compliance. Our in-house, 24/7 security operations center (SOC) is monitored by live security analysts.

HFCP Solver Development

Develop high-fidelity computational physics solvers that investigate high-rate physics phenomena. Corvid's proprietary solvers are proven to be accurate and predictive, and licenses are available for sale.

Manufacturing & 3D Printing

Utilize in-house advanced technologies to design, develop, and manufacture one-off and prototype builds for test and evaluation programs.

Shock Physics

Utilize our proprietary multi-physics hydro-structural solver to predict what happens to matter (gas, liquid, or solid) under extreme loading conditions.

Styling & Surfacing

In-house design department produces original Class A (Curvature Continuous) CAD surfaces from concept sketches or scan data.

Virtual Reality

Developing immersive and interactive virtual reality visualizations of computational models and simulation results, increasing comprehension of complex physical processes through intuitive methods of observation.

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