Volcano Platforms Inc., is an early-stage technology startup focused on cutting-edge, physics-based simulation capabilities. Our goal is to provide automated, predictive, and cost-effective Computational Fluid Dynamics (CFD) simulation software that can generate the extensive datasets for a variety of engineering applications. Our flagship software, Volcano ScaLES, offers several key features: GPU-accelerated simulations for faster results, automated mesh generation for simplified workflows, predictive algorithms for improved accuracy, and rapid post-processing with integrated in-situ visualization. Volcano ScaLES represents a substantial advancement in leveraging the capabilities of AI within the engineering field by serving as a powerful data creator.
VirtusAero, LLC
VirtusAero delivers powerful software for high-fidelity CFD analysis, specifically focused on supersonic and hypersonic flow regimes. US3D is our state-of-the-art research and analysis tool developed collaboratively at the University of Minnesota, NASA Ames, and VirtusAero, providing unstructured-grid, finite-volume CFD. At VirtusAero we believe that powerful software should be easy to use. This simple idea drives us to improve every aspect of software that we develop and support. We work hard to incorporate our knowledge and expertise into the tools we build so that researchers and engineers can more quickly and easily find the answers they need.
Utah State University
Online Master of Science in Aerospace Engineering, Department of Mechanical and Aerospace Engineering , Utah State University. Our master’s in aerospace engineering is tailored for engineers aspiring to be a leader in the aerospace industry. With courses covering optimization, compressible fluid fow, aerodynamics, propulsion, and more, it offers a comprehensive curriculum aligning with the latest industry demands. Dive into spacecraft navigation, optimal guidance, and hypersonics, gaining spcialized knowledge crucial for success.
nTop
nTop: Engineering Platform for Advanced Aircraft ConfigurationnTop helps engineers working on advanced aircraft concept design go from requirements to design faster. We enable rapid design space exploration for complex aircraft systems, allowing engineering teams to evaluate hundreds of design variants where traditional workflows might explore only a few. Platform CapabilitiesnTop’s implicit modeling platform lets engineers capture parametric design logic that always generates valid geometry during parameter changes. Instead of tedious manual lofting, teams capture engineering logic that addresses performance targets, operational constraints, and system requirements. The platform generates simulation-ready geometry that enables systematic exploration of the design space.In-the-loop simulation allows engineers to analyze performance rapidly while designing rather than waiting for extended analysis cycles. Every design variant is simulation-ready for aerodynamic performance, structural loads, or thermal behavior, enabling near real-time design decisions based on physics insights.Engineers can model complete aircraft configurations, including structural layouts and outer mold lines, as integrated parametric systems. When requirements change, the entire vehicle design updates automatically while maintaining performance relationships and design intent. Reusable Workflows for Program AccelerationnTop provides reusable workflows that engineering teams can deploy immediately rather than starting every new program from scratch. Teams can leverage proven design logic for common aircraft subsystems like wings, inlets, and structural components. This eliminates months typically spent developing custom models for each program.These workflows encode engineering best practices, ensuring new team members can contribute effectively without extensive training. Senior engineers can capture their expertise in reusable design logic that scales across multiple programs. Advanced Aircraft Concept DesignEngineering teams use nTop for vehicle-level concept design on UAVs, launched effects, next-generation fighters, and other complex aircraft programs. The platform excels at integrated system design where structures and aerodynamics must work together. Teams can rapidly evaluate different configurations, payload arrangements, and mission profiles by adjusting parameters rather than remodeling geometry.For programs requiring modular, reconfigurable aircraft, nTop enables teams to explore how different payloads or mission equipment affect overall vehicle performance. Engineers can generate optimized variants for specific operational requirements and understand performance trade-offs across the design space. Speed and Exploration AdvantageTeams report moving from initial specifications to simulation-ready aircraft geometry in hours rather than weeks. Complete parametric aircraft models that traditionally require weeks of CAD work can be developed in days.This speed enables comprehensive design space exploration during proposal development. Teams can evaluate more configuration options, conduct thorough trade studies, and deliver technical proposals backed by deeper analysis. Impact on Defense ProgramsModern defense programs demand faster delivery of increasingly complex aircraft systems. nTop addresses these compressed timelines by enabling engineering teams to iterate rapidly without sacrificing design fidelity. We help improve pWin with more well-understood, highly performant, and defensible designs that teams can confidently present.For organizations developing next-generation aircraft, nTop provides the design exploration capabilities needed to win competitive programs. The platform enables teams to thoroughly investigate the design space, reduce technical risk, and deliver credible performance predictions faster than competitors using conventional tools.
NSWC Carderock
For over a century, the NSWC Carderock Division has been at the forefront of technologies vital to the success of the U.S. Navy and Maritime Industry. Since our component organizations were founded at the turn of the century, the Division has earned a distinguished reputation as the birthplace of superior naval technology.
Navier AI
Navier AI is building the first Agent-Driven Engineering platform. We believe engineers should focus on designing great products, not wrestling with simulation software. Navier AI makes it simple to run CFD simulations at scale through our web-based platform built on OpenFOAM, the industry-standard solver for CFD. Our AI agents autonomously handle the complex, time-consuming steps of simulation—from geometry cleanup and meshing to solver configuration and cloud resource management. By automating the tedious parts of the workflow, we enable engineering teams to move faster, explore more design possibilities, and spend their time on high-value engineering decisions.
Mississippi State University; Department of Aerospace Engineering
The ASE department offers an enriching undergraduate program leading to a Bachelor of Science degree, as well as challenging and exciting graduate programs leading to the Master of Science and Doctor of Philosophy degrees. Founded in 1935, the aerospace engineering program is one of the most established in the nation. Aerospace engineers are primarily focused on the design, fabrication, testing, and analysis of aircraft and spacecraft.
Metacomp Technologies
Metacomp Technologies is at the forefront of cutting edge simulation technology with software products for Computational Fluid Dynamics (CFD++), Aero-Acoustics (CAA++), Geometry Preparation (SIM++) and Mesh Generation (MIME) and Structural Mechanics (CSM++) including MetaFSI for fluid-structure interactions. Founded in 1994 by a pioneer in CFD, Metacomp has positively impacted R&D, application and academic organizations worldwide. With an unparalleled reputation for high-level support, Metacomp can be an Integral part of your success.
Luminary Cloud, Inc.
Luminary Cloud is a Physics AI platform for rapid design iteration, design exploration and optimization. Customers span industries from aerospace and defense, automotive, to leading industrial manufacturing companies, including Otto Aerospace, Sceye, and Welbilt.