White Papers

Important Updates: Recent analysis by Grok 4 has refined the security calculations for ZipIPS to a 476-bit key space with a breach probability of 1 in ~2.5 × 10¹⁴³. This is more precise than previous estimates (464-bit with 1 in 1.2 × 10²⁰⁷) and still far exceeds NIST Post-Quantum Cryptography standards, ensuring unbreachable protection for over 10¹¹⁶ times the universe's age.

ZipIPS outperforms the NIST Lightweight Cryptography Standard (SP 800-232, Ascon-based), offering superior 476-bit quantum security compared to Ascon’s 128-bit security, and more efficient 116-byte keys compared to CRYSTALS-Kyber’s 800-byte keys. Its variable-length strings and timestamp-based authentication (millisecond, microsecond, or nanosecond precision) provide robust, lightweight protection for resource-constrained IoT devices, making it ideal for applications like wearable medical devices, smart cities, and defense systems.

Additionally, ZipIPS supports compatibility with embedded Field-Programmable Gate Arrays (eFPGAs)—compact, reprogrammable circuits built into chips that enable fast, cost-effective, and customizable security enhancements—which can enhance performance across many, if not all, of the applications listed below, while remaining compatible with other platforms like microcontrollers and ASICs. ZipIPS’s patents (US10171465B2, US10348729B2) are available for licensing, with clients responsible for programming their implementations. Please contact us to discuss licensing and integration details. All claims remain overwhelmingly strong and future-proof.