We have fast and accurate models for microscopic and macroscopic realms of physics, from quantum interactions to electrodynamics and mechanics. We use analytic techniques to reduce complex systems to their core degrees of freedom. Powerful results emerge when optimizations are informed by tuned physics models. Our philosophy is that the best software is developed on a solid foundation of scientific theory, rather than the other way around.
We tailor computing architectures to tackle the most demanding applications, leveraging CPUs and GPUs symbiotically. Our software thrives at all possible tiers of acceleration on modern hardware: vectorization, multicore processing, and distributed computing.
From processor instructions to top level architecture, we'll optimize every aspect of your system, whether it's scientific equipment, imaging hardware, or pure software. We'll find ways to improve accuray, speed, efficiency, as well as your own custom performance metrics.
We work with industry leaders to develop next generation product technology. Whether you're at a critical juncture on a development project, or inventing an innovative design, we'll do the underlying research to answer your fundamental questions.