Our membership in the NVIDIA® Partner Network paired with our expertise in ruggedized embedded computing systems design and enclosure packaging, enables us to offer deployable rugged AI embedded computing platforms based on NVIDIA® Jetson™ modules specifically designed for applications that need to operate reliably regardless of the deployed environment.
Advances in AI and computationally intensive data processing for deep learning are enabling faster adoption of capabilities like object detection/recognition and navigation of autonomous vehicles. Applications in agriculture, automotive, construction and mining, industrial, and military and defense require platform solutions that absolutely require reliable operation in challenging environments.
Companies in these industries are leveraging Elma's deep expertise in industrial and rugged-grade embedded computing platforms and enclosures for their next-gen designs. Using NVIDIA® Jetson™ family AI and video compute system-on-modules (SOMs), we deliver highly reliable, high-performance embedded computing platforms that are qualified to operate reliably across a range of industrial and environmentally harsh environments (extended temperatures, high shock and vibration, and ingress protection from water, sand, dust, salt, fog, and chemical contaminants).
Elma Electronic is a global leader in ruggedized embedded computing systems and proud to be a member of the NVIDIA Partners Program. Our NVIDIA powered AI processors are designed to operate in the most challenging environments. Whether your application environment is a factory floor, an autonomous taxi, mounted on a mining or agriculture vehicle, or deployed on a military aircraft or ground vehicle, Elma has an NVIDIA based AI solution to meet your needs.
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Over the past several years, the Modular Open RF Architecture (MORA) has evolved to address the challenges of increasingly complex radio frequency (RF) systems through an open standards-based infrastructure. With several industry partners working together to develop a collaborative framework, MORA’s interoperability and modularity has been realized, resulting in successful demonstrations of multiple manufacturers’ technologies working together. So, we asked some of our open standards partners: What’s next for MORA-based systems and the embedded computing community, now that interoperability demonstrations have been successfully deployed?
Looking back we can now see a shift in how development platforms are designed and how they are used by our integrator customer base. That shift is making it easier and less expensive to perform the development stages of a deployable system project and put solutions into the hands of the warfighter faster than ever before. Development hardware can also be shared between projects, or inherited by subsequent projects. This saves not only on lab budget, but the time to order and receive all new hardware for a new development project.