![]() ![]() 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,” said Esam Elashmawi, Chief Strategy and Marketing Officer, Lattice Semiconductor. “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. Leveraging over four decades of space heritage and leading radiation hardened microelectronics expertise, CAES will qualify Lattice’s Certus-NX and CertusPro-NX FPGAs for radiation assurance and provide single-lot traceability and long-term supply. The 28nm devices feature temperature-resistant tin-lead (SnPb) terminations using a radiation-tolerant, fully-depleted silicon-on-insulator (FD-SOI) manufacturing process. The Certus™-NX-RT and CertusPro™-NX-RT FPGAs are built on the award-winning Lattice Nexus™ platform delivering class-leading small form factor, system bandwidth and power efficiency – consuming up to four times less power in comparison with similar devices. The collaboration will allow CAES to provide next generation on-orbit reconfigurable processing systems for future satellite constellations. – CAES, a leading provider of mission critical electronics for aerospace and defense, and Lattice Semiconductor Corporation (NASDAQ: LSCC), the low power programmable FPGA leader, announce today an agreement whereby CAES will qualify and sell radiation-tolerant Lattice FPGAs for space and satellite applications. Microwave through Millimeter Wave SolutionsĪRLINGTON, Va.Modular Open Standards Support – Sensor Open Systems Architecture (SOSA).Low Voltage Differential Signaling (LVDS).Radiation Hardened Solutions and High Reliability Components.Limited Angle Torque Motors and Tachometers.Dipoles, Cross-Dipoles, Bicones, and Discones.Interested in learning more about FPGA technology? Check out our What is an FPGA page.įor more information on our product portfolio please scroll down the page or download our Product Selector Guide. FPGAs are ideally suited for today’s fastest growing applications, like edge computing, artificial intelligence (AI), system security, 5G, factory automation, and robotics. FPGAs are different than other custom or semi-custom ICs due to their inherent flexibility that allows it to be programmed and re-programmed via software download to adapt to the evolving needs of the larger system in which it is designed into. What is an FPGA?Ī Field Programmable Gate Array, or FPGA, is a type of integrated circuit (IC) that enables the development of custom logic for rapid prototyping and final system design. Lattice FPGAs enable designers to drive innovation and reduce development time in multiple applications such as communications, compute, consumer, automotive and industrial. Lattice is an industry leader in low power Field Programmable Gate Array (FPGA) technology. ![]()
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