About

Rose Solutions delivers tailored simulation and modeling consulting services facilitating swift design iteration and expediting product development processes. We specialize in applying cutting-edge computational tools, such as Finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD), to model and analyze a myriad of domains including structural, fluid flow, and heat transfer analysis. This approach not only results in a deeper understanding of the underlying physical principles but also yields significant time and cost savings.

Isaac Rose

Founder

In 2023, Isaac Rose established Rose Solutions LLC with the aim of facilitating accelerated progress and development through advanced simulation and modeling techniques. Holding a Bachelor's and Master's degree in Mechanical Engineering from Villanova University, Isaac brings over eight years of comprehensive experience in the automotive and aerospace industries.

In his past role at Materials Research and Design Inc., an aerospace engineering consulting firm, he developed innovative hypersonic leading edge designs, including a phase-change cooling technology for high Mach number projectiles. Subsequently, he joined Penske Racing Shocks, where he significantly enhanced the company's comprehension of physical phenomena occurring within automotive dampers. His contributions included the creation of a comprehensive physics-based dynamic model of shocks. Furthermore, he enabled the production of Penske's lightest Formula 1 shock to date, utilizing structural topology optimization. Isaac's diverse experience equips him with multidisciplinary expertise to navigate complex design challenges.

Samuel Rose

Software Engineer

In 2024, Samuel Rose joined Rose Solutions LLC in order to contribute his skills in software engineering and algorithm optimization. Samuel Rose holds a Bachelor’s degree in both Physics and Computer Science from the University of Pennsylvania and has been working in the aerospace industry for two years.

Through his role as a software engineer at Lockheed Martin, Samuel developed code for Overhead Persistent Infrared (OPIR) satellites and gained experience creating large scale software systems. Within the OPIR software system, Samuel employed his knowledge of graph theory to design and implement algorithms used to facilitate the satellites’ imaging capabilities. Samuel is excited to apply his creative problem solving skills to any challenge he faces.