Maxim Integrated — ChipDNA™ Embedded Security PUF Technology (You Can’t Steal a Key That Isn’t There)

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ChipDNA PUF Technology Overview
In our PUF-based ChipDNA secure authenticators, each key exists as a precise analog characteristic of the IC, making it immune to all known invasive attack tools and capabilities. Each IC’s unique ChipDNA-generated key is repeatable over temperature, voltage, and IC operating life conditions.

ChipDNA technology provides an exponential increase in protection against the invasive and reverse engineering attacks that hackers apply. Attempts to probe or observe ChipDNA operation modifies the underlying circuit characteristics, preventing the discovery of the unique value used by the chip cryptographic functions. Similarly, more exhaustive reverse-engineering attempts are defeated due to the factory conditioning required to make the ChipDNA circuitry operational. The per-device unique key is generated by the ChipDNA circuitry only when needed for cryptographic operations and is then instantaneously deleted.

Most importantly, the ChipDNA key never resides statically in registers or memory, nor does it ever leave the electrical boundary of the IC. In addition to the protection benefits, ChipDNA simplifies or eliminates the need for secure IC key management. The ChipDNA-generated key can be used directly for functions such as:

  • Root key for derived key operations
  • Symmetric secret to encrypt/decrypt data stored in the nonvolatile memory of the secure IC
  • Private key for ECDSA signature generation
  • Private key for ECDH key establishment

Featured Product
DS28E38
Cost effective protection with ECDSA authentication, ChipDNA secured data, and 2kB EEPROM.

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Read the Whitepapers
How Unclonable, Turnkey Embedded Security Protects Designs from the Ground Up
A Reverse-Engineering Assessment of a Secure Authenticator with PUF Technology