Equally important, Lattice design tools offer the latest advanced design flows that enable secure, low-power applications across many iterations per day as well as accelerating time-to-market. In addition to power consumption and I/O configuration instant-on differentiators, Lattice emphasizes its development of hardened security engines with secure Unique ID and Side Channel Resiliency capabilities. Table 2: CrossLink-NX FPGAs provide up to 55x better I/O configuration instant-on as compared to competitor offerings. ![]() ![]() To confirm the power advantage of CrossLink-NX FPGAs (from the Lattice Nexus platform), Lattice engineers compared a CrossLink-NX-40 device to the closest comparable devices from the company’s competitors – in particular a Xilinx Spartan-7 50 and an Intel Cyclone 10LP 40. I believe Lattice stands out especially in backing up its assertion that its FPGAs deliver 75% lower power compared to competitive FPGAs. I see Lattice’s ability to offer substantially small form-factors, starting at 2.5 mm x 2.5 mm along with reduced packages starting at 0.4 mm. For starters, the Lattice FPGA portfolio delivers the lowest soft error rate and latch-up immunity, demonstrating more reliability than bulk CMOS FPGAs independent of the configuration bit technology. Lattice Defense Event: Lattice Heralds FPGA Differentiatorsįrom my perspective Lattice excelled at highlight why its FPGA portfolio is differentiated amidst a sea of competition. Lattice FPGAs are a well-suited hardware platform for the development of SWAP-C (size, weight, area, power, and cost) optimized defense platforms for long-lasting mission critical systems. The Lattice Nexus platform is designed to enable the continuous development of FPGAs with inherent radiation tolerance, a broad operating temperature range, and support for on-chip crypto solutions. Accordingly, FD-SOI is a semiconductor substrate material with lower current leakage than alternative bulk complimentary metal-oxide-semiconductor (CMOS).Īs a result, I believe Lattice Nexus FPGAs deliver low-power consumption, smaller form factors, and higher reliability in relation to comparable rival FPGAs. FD-SOI relies on an ultra-thin layer of an insulator, described as the buried oxide, and is place on top of the base silicon. Silicon-on-insulator (SOI) technology pertains to the use of a layered SOI substrate in place of a conventional bulk substrate. Using the FD-SOI process applies an ultra-thin layer of silicon over a buried oxide as a means to reduce leakage and variation in chips and also boasts a back-bias feature, thereby reducing stress on a device. Of significance, the company positions the Lattice Nexus FPGA platform as the only offering in the low-power, FPGA market segment that uses a 28nm, Fully Depleted Silicon on Insulator (FD-SOI) manufacturing process. for over 35 years, Lattice plausibly claims it is the largest volume supplier of FPGAs in the world, providing the supply chain stability to enable clients to develop state-of-the-art integrated defense solutions. ![]() To kick-off, Lattice stressed its corporate experience and DNA in the FPGA industry and defense sector. Lattice shrewdly selected the defense/military sector to showcase why its portfolio is significantly differentiated and fulfills the unique semiconductor demands of the defense industry. Lattice Semiconductor Defense Event: Shows How Defense Acumen Drives InnovationĪnalyst Take: Lattice Semiconductor Defense Event fully demonstrated the vital role the company plays in providing the field programmable gate arrays (FPGAs) that deliver state-of-the-art defense technology capabilities. Read the full Lattice Semiconductor Defense Overview. Following the General Session, the Analyst Breakout Session provided opportunity to deep dive into Lattice’s portfolio capabilities and roadmap. The News: Lattice’s Defense Event kicked off with a General Session that highlighted strategic perspectives from CEO Jim Anderson and Chief Strategy and Marketing Officer Esam Elashmawi about how the company’s low power, reliable FPGAs and solution stacks are designed to simplify and accelerate the development of mission-critical defense applications and defense systems.
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