Technology : Coherent Logix
HyperX changes Everything.
Since its inception, the vision behind HyperX technology has been to create an architecture that delivers on the promises of high performance processing, low power consumption, ease of programming, and scalability. The result is a revolutionary new hardware architecture and streamlined programming paradigm that changes the game of many-core processing. HyperX technology combines the standards-based programming ease of general purpose processors (GPPs) and the high computational performance of traditional ASICs, DSPs and FPGAs into a low power, real-time adaptable processing fabric. HyperX is a scalable embedded processor platform ideal for communications and image processing, and is capable of spanning commercial, military, and government applications.
Welcome to the Revolution.
Demanding customer requirements continue to challenge the capabilities of conventional processing architectures, often exceeding what is technically possible. Processing requirements grow while power budgets shrink.
Sacrificing programmability to achieve better performance, synthesized ASIC designs approach 10 pJ/op (or about 100 GOP/s/W), but at the expenses of high development time, cost and risk. Most DSPs, FPGAs and GPPs are not able to drop below 250 pJ per mathematical operation in performance, equating to less than 4.0 GOP/s/W.
HyperX technology redraws the boundaries between application specific and programmable hardware, achieving ASIC performance while offering full programmability at near ASIC power consumption. Our customers have achieved 10x improvements in performance while at the same time cutting power by a factor of 10 and reducing chip count and bill of materials costs. Additionally, the HyperX software development approach boasts significant reduction in development times when compared to conventional multi-chip processing solutions. Coherent Logix customers have consistently seen a 5x or more improvement in overall productivity vs. conventional processing platforms.