Intel is a world technology leader, enjoying a stellar reputation for the absolute highest performance in commercial processor technologies.
Today’s embedded, aerospace and defense industries rely heavily on modern commercial technology to meet the demanding power, size, and performance requirements of today’s mission-critical systems. Intel’s Tick-Tock technology cadence, which alternates microarchitecture advancements with power saving die geometry shrinkage, has produced continuous performance improvements with reliable, scalable processing options available to suppliers of Single Board Computers (SBCs) and DSP engines for use in embedded control, processing, and compute-intensive applications.
As an Intel Technology Partner, Curtiss-Wright works closely with Intel to select only specific Intel processors supported within Intel’s embedded technology group. These processors enjoy long life availability and meet the high reliability requirements that Curtiss-Wright products demand for the long-term success of your programs. Download whitepapers to learn more about these technologies.
Intel Processing Solutions from Curtiss-Wright
Curtiss-Wright offers Intel processing modules in 3U, 6U, and mezzanine form factors meeting open industry standards such as OpenVPX, VME, and XMC. They are supported by a range of Operating Systems, Board Support Packages (BSPs), Signal & Data Processing Libraries, Shared Memory Drivers for high-speed board-to-board communications, and our OpenHPEC Accelerator Suite enabling your teams to bring applications to market quickly. Many of Curtiss-Wright's Rugged Mission Computers incorporate Intel processors.
|Single Board Computers|
|3U VPX||6U VPX||VME|
|Digital Signal Processors|
|3U VPX||6U VPX||VME|
|OpenHPEC Accelerator Suite||OpenHPEC Math Libraries|
|Rugged Mission Computers|
| 3U MPMC Mission Computers
|| 6U MPMC Mission Computers
|| DuraCOR Mission Computers
SWaP-Optimized for Rugged Deployed Platforms
Intel processing modules from Curtiss-Wright combine multi-core processing capabilities, ECC protected memory subsystems, high-speed I/O, and some with advanced graphics capabilities, all in embedded form factors. Curtiss-Wright’s innovative thermal management designs at the subsystem level have enabled us to reliably integrate Intel Core processors across extended temperature ranges using advanced cooling methods, resulting in reliable and deterministic performance even at high operational temperatures.
Integrated GPUs Save You Even More Space
Incredible advancements with Intel’s integrated Graphics Processing Units (GPUs) have pushed the performance of their latest Core architecture chips beyond those of yesterday’s discrete GPUs. Whether used with OpenGL™ for mapping and graphics applications, or with OpenCL™ libraries to accelerate ISR and signal processing algorithms, these integrated GPUs combine incredibly high performance with low latency and increased security, while at the same time saving you valuable space, power and overall system complexity and costs.