Áõ«hÊ״δóÕ½ºÚÈËprovides advanced next-generation processor and memory products focused on Artificial Intelligence/Machine Learning (AI/ML), onboard computing and high-density storage applications.
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High performance data processing capabilities are essential to spacecraft autonomous operations, image processing, data fusion, or AI/ML applications.
Connectivity between Payload Sensors, Avionics, and satellite Cross-links will require advanced, secure, communications platforms that integrates advanced network interfaces, high speed memory, and high performance multi-core processors equipped with integrated datapath acceleration engines.
The Cascade Single Board Computer (SBC) is designed to bring high configurability toÌýmeet the demands of space. The Áõ«hÊ״δóÕ½ºÚÈËCascade SBC is a 3U extended SpaceVPX boardÌýaligned to Space SOSA. The Cascade SBC board integrates the Microchip PIC64-HPSC©ÌýHigh-Performance Spaceflight Computing (HPSC) microprocessor which is a radiationhardenedÌý10-Core RISC-V® processor with Layer 2 switch.
Áõ«hÊ״δóÕ½ºÚÈËintroduces the first payload processor GPU based single board computer that offers radiation tolerance by design. This product offers the low power x86 compatible AMD G-series or V-series SOC GPU and is paired with the Xilinx Ultrascale KU060 FPGA.
Today’s payloads can produce significant volumes of data at gigabit rates. EO, IR, and RF type sensors demand large data storage capacity at high access speeds to maximize sensor capability.Ìý
Deep Delphi iX5 (DD-iX5) is based on a space proven design that provides intelligent data processing, indexing, and storage with machine learning capability and advanced data analytics for payloads and instruments. DD-iX5 is co-developed with Troxel Aerospace Industries Inc. and Unibap AB (publ) with support from the Swedish National Space Board (SNSB) for space and rugged environments.
The e2000/e2100 heterogeneous computing product families are radiation tolerant high-performance compute modules for onboard data processing. The products have spaceflight heritage and uses low power embedded x86 compatible AMD® G-series SOC products from the 1st, 2nd, and LX families.
On orbit data processing enables autonomous decision making, artificial intelligence algorithms, and optimized communication with other satellites and ground stations. To support this new paradigm, cutting edge data processors capable of handling large data sets, coupled tightly with advanced, high speed memories is required.Ìý
Moog’s Layer 2 and Layer 3 Ethernet Switches are the industry’s space-qualified switch rated for manned-flight applications.