![]() ![]() ![]() To complement this new addition to its space product portfolio and help expedite the design process, CAES said it would provide software programming and design support throughout the product development process. The applications in space that make FPGAs a useful distributed processing building block. They are using it for sensors and data translation – everything you need a mid-range FPGA for.” Meyouhas added, “Some customers have designed it in already, since they are looking for in-orbit configurability. With our scalable Certus-NX and CertusPro-NX FPGA families and CAES’ deep industry expertise, we are accelerating the adoption of new architectures ideally suited for the evolving processing needs of today’s space applications.”īratton said that CAES has plenty of conversations with customers in the last 12 months, and they had given a ‘unanimous thumbs up’ for this technology, especially with the configurable building block. Lattice Semiconductor’s chief strategy and marketing officer, Esam Elashmawi, said, “We are pleased to collaborate with CAES, a leading industry expert in space applications, to make it easier than ever for the space industry to achieve their design objectives with our low power, high system bandwidth, small form factor FPGAs that support satellite constellation networks. This makes it an order of magnitude less expensive than having to use some of the bigger FPGAs.”ĬAES illustrates size, weight and power (SWaP) performance benefits of the mid-range FPGAs for space applications. It’s a decentralized approach, which means you can use over a dozen smaller FPGAs. This means they can be placed right at the sensor, enabling real-time decisions to be made at the edge. With the majority of systems today looking to handle the majority of processing elements at the edge, here we can now put smaller FPGAs really at the edge. Meyouhas added, “We’ve had initial advanced exchanges with customers, and they really seem to like the ability to reconfigure and adapt in-orbit. The commercial world has put processing where it is needed, and Lattice sees this opportunity in space.” Bratton said, “The opportunity is very profound. (Image: CAES)īoth Meyouhas and Bratton emphasized that the partnership would fill a gap in the market between large FPGAs and processors, and small FPGAs and microcontrollers. Lattice Semiconductor is the number one in volume sales for FPGAs, and we have really complementary strengths.”ĬAES said the partnership with Lattice addresses a segment where small FPGAs and microcontrollers are not enough, and large FPAGs are overkill. Meyouhas said, “We’ve been looking at the FPGA market for a while and saw there’s a ‘blue ocean’ between low-end and high-end FPGAs for space. We caught up with CAES executives David Meyouhas, senior director of microelectronics, and John Bratton, product marketing manager, to learn more about the partnership with Lattice. “Our collaboration with Lattice will promote the development of open, scalable, upgradable architectures that are compatible and affordable.” “The space industry realizes that it can no longer rely solely on proprietary technology if it’s going to meet the growing affordability needs of satellites deployed in low- earth orbits,” said David Young, chief technology officer, CAES. The collaboration addresses the growing demand for reprogrammable, commercial off-the-shelf (COTS) programmable devices in satellite networks that require a high degree of redundancy and radiation tolerance. CAES and Lattice Semiconductor have announced an agreement whereby CAES will qualify and sell radiation-tolerant Lattice FPGAs, targeting applications that demand in-orbit reconfigurability for processing systems in future satellite constellations. ![]()
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