Microchip’s PolarFire® FPGA’s Single-Chip Crypto Design Flow “Successfully Reviewed” By the United Kingdom Government’s National Cyber Security Centre

PolarFire FPGAs implement Microchip’s industry-leading security architecture to protect intellectual property, secure data and secure supply chains.

• PolarFire FPGA IP protection includes:    
• AES 256-encrypted configuration files with SHA 256-based HMAC authentication
• Processing is protected against Differential Power Analysis (DPA) with technology licensed from Cryptography Research Incorporated (CRI)
• Public key cryptographic cores: Elliptic Curve Cryptography (ECC) for secure distribution of keys
• True random number generators

• PolarFire FPGA data security features include:
• Hardened cryptographic accelerators for use in the end application
• Pass-through CRI license enables royalty-free development of DPA-protected algorithms using techniques patented by CRI

• PolarFire FPGA supply chain security features reduce the risk of counterfeiting, re-marking and overbuilding and include:
• Silicon biometrics, including Physically Unclonable Functions (PUFs), that allow each device to be uniquely identified and cryptographically validated

The devices are supported by Microchip’s Libero^® SoC Design Suite available to license, including no-charge versions, from Microchip’s Purchasing and Client Services website at www.microchipdirect.com. PolarFire FPGA and SoC development kits and hardware are also available on the purchasing and client services website.

About the PolarFire Family

Microchip’s PolarFire devices lead their product category in delivering twice the power efficiency, military-grade security and the industry’s highest reliability, which the company will extend with the PolarFire 2 FPGA roadmap as Microchip continues to increase compute capability in ever-smaller and less costly industrial, IoT and other edge-compute products. With their real-time, Linux^®-capable RISC-V-based microprocessor subsystem, PolarFire SoC devices are the only SoCs on the market that create new configurable processing capabilities through hardened RISC-V core complexes in a fast FPGA fabric. Ideally positioned to create custom compute inside an FPGA fabric, this family of FPGAs and SoCs has played a major role in fueling the fast-growing market for systems that move computer workloads to the power-sensitive intelligent edge. Developers can begin designing with Microchip’s PolarFire family using the software tools, which are available on the company’s website. All first-generation PolarFire devices are in full production.