Radiation-Tolerant Field-Programmable Gate Arrays (FPGAs)

Designed to enable high-performance data processing, our radiation-tolerant PolarFire SoC FPGA is the industry’s first embedded, real-time, Linux^®-capable, RISC-V^®-based Microprocessor Subsystem (MSS) on the flight-proven RT PolarFire FPGA fabric. With our extensive Mi-V ecosystem, designers can develop lower-power solutions for the challenging thermal environments seen in space.

• Quad core, 64-bit RISC-V application-class processor
• Up to 461,000 Logic Elements and 12.7 Gbps SerDes
• Path to QML-V and QML-Y qualification

Our flexible and easy-to-use reprogrammable radiation-tolerant PolarFire FPGAs can streamline the design of high-speed data paths within space payloads. These FPGAs offer expanded logic density and higher performance, which provide significant improvement in signal processing throughput. They also offer immunity to configuration Single Event Upsets (SEUs).

• Up to 50% lower power SONOS-based FPGAs
• 481,000 Logic Elements and up to 12.7 Gbps SerDes
• Path to QML-V qualification

Our RTG4 FPGAs can implement designs for harsh radiation environments such as space flights. They integrate a fourth-generation Flash-based FPGA fabric and SerDes on a single chip.

• Radiation-hardened by design, Flash-based FPGA with proven flight heritage
• Up to 150,000 Logic Elements and 3.125 Gbps SerDes
• Qualified to QML class Q and QML class V

Streamline prototyping and last-minute design changes with radiation-tolerant ProASIC 3 FPGAs. Unlike SRAM-based FPGAs, these FPGAs allow you to design your application for almost-instant power-up, no boot sequence required and no SEUs in the presence of heavy ion radiation.

• Reprogrammable, nonvolatile, SEU-immune, Flash-based FPGAs
• SWaP-C packaging, pin-compatible commercial devices for easy prototyping
• Qualified to QML class Q

If your space application requires extreme radiation performance, choose RTSX-SU radiation-tolerant FPGAs. These devices have built-in Triple Module Redundant (TMR) flip-flops that don’t require cumbersome user intervention.

• High-reliability, radiation-tolerant antifuse-based FPGAs
• Compact packaging for command and control applications
• Flight heritage established on many programs
• Qualified to QML class Q

You can count on low power consumption, true single-chip form factor and live-at-power-up operation for your space applications with the RTAX family of FPGAs. Select our radiation-hardened-by-design RTAX FPGAs with proven flight heritage to take your designs to the harshest radiation environments such as space flights.

• High-reliability, radiation-hardened-by-design antifuse-based FPGAs
• Flight heritage established on many programs
• Qualified to QML Class V

Find out how you can use our power management solutions to reduce the total footprint size of your FPGA-based design, maximize power density and save valuable PCB space.

Create flexible and powerful FPGA-based systems using our crystal, MEMS oscillator and multiple-output clock generator FPGA clocking solutions.

With our prototyping solutions, you can speed up your design and verification process and easily incorporate our space FPGAs into even the most complex designs that require multiple phases of verification. Browse our solutions and the corresponding documents for each device family.