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.
We are taking AI Computing to the next level! Find out how our membership in the NVIDIA® Partner Network complements the designs of our rugged computing systems to deliver enhanced deployable systems specifically designed to operate in harsh environments.
CompactPCI Serial has enjoyed notable success in rugged embedded industries thanks to its modularity, scalability and cost efficiencies. It’s a modular, open standard that has great application opportunities in applications where it can withstand most tough environmental requirements. After all, it’s widely used in the railway and transportation industry. For this blog, we asked a few CompactPCI Serial community members this question: What are some aspects that engineers should know about when evaluating CompactPCI Serial as a potential system architecture?
System integration challenges have changed over the past few years, with new demands being put on manufacturers for integration, troubleshooting and system upgrades. This blog explores how Elma and its partners Interface Concept, Concurrent Technologies and EIZO Rugged Solutions define what partnering means within our ecosystem when working together.
A recent discussion about what was known as the "Fabric Wards" led to a conversation about the merits of PCIe and Ethernet, especially in applications using open standards form factors such as VPX, SOSA and CompactPCI Serial.
Rugged platforms for demanding applications have historically been constrained by the limited operational temperature ranges of high-performance processors and other key system components. These applications often operate in challenging temperatures, and high-performance processors aren’t generally offered with these operational temperature ranges. Until now.