GE Single Board Computers

We offer a comprehensive portfolio of Single Board Computers and CPUs designed to meet almost any high performance computing application need. Our Single Board Computer products are available in a multitude of form factors, processor speeds, memory configurations, I/O options, and levels of ruggedization. We also provide an evolutionary path for our processors that allows them to grow and change with new technology.

Intel Core i7

An evolution of high performance single board computers and multiprocessor platforms, based on the latest Intel embedded Core i7 processor, expands functionality and performance per watt without increasing power requirement from previous versions. Graphics performance is twice that of previous generations, memory capacity is doubled, and SATA ports are 6 Gbit/sec capable.

OpenVPX

VPX (previously known as VITA 46) brings switched fabrics to VME-based systems. OpenVPX was specifically created with the defense community in mind. It retains the 6U and 3U form factors, supports existing PMC and XMC mezzanines, and maintains the maximum possible compatibility with VME for high performance computing. We provide OpenVPX single board computers based on both Intel and PowerPC Architecture.

Rugged by Design

GE Intelligent Platforms was among the very first companies to bring to market commercial off-the-shelf (COTS) products that were rugged by design – as opposed to commercial products that were ruggedized as an afterthought. Created to operate in the harshest environments, GE’s products now reflect the company’s unparalleled experience and expertise in ruggedization, with its unique combination of design evaluation and assembly and test practices through to advanced thermal management, mechanical engineering and hermetic control techniques.

Freescale QorIQ

The Freescale QorIQ processor architecture supports applications that need multi-core and many-core processors to perform effectively. System throughput depends on more than just the performance of the processors. With space at a premium and keeping power/heat dissipation constrained, the advent of multi-core and many-core processors allows, in effect, substantially greater processing density to be achieved within a given number of slots – without an undue adverse effect on power/heat.

For more information visit GE Defense Intelligent Platforms