NVIDIA and QuSecure Advance Post-Quantum Cryptography for Cybersecurity

In a step towards advancing post-quantum cryptography, QuSecure has collaborated with NVIDIA’s revolutionary cuPQC initiative to accelerate cybersecurity in the quantum computing age. This partnership offers an integrated cuPQC approach, leveraging NVIDIA’s unmatched parallelism of GPUs to meet the demands of next-generation security algorithms. The collaboration aims to bring post-quantum cryptography to environments that stand to benefit most from its protection, including telecommunications, insurance, banking and finance, critical infrastructure, and the public sector.

Rebecca Krauthamer, Co-Founder and Chief Product Officer at QuSecure, emphasized the importance of this alliance in cultivating an open-source repository of post-quantum algorithms and applications. NVIDIA’s cuPQC has already demonstrated remarkable acceleration of Kyber, a leading candidate for securing quantum-resistant keys, achieving speeds multiple times faster on an NVIDIA H100 Tensor Core GPU than on traditional CPU benchmarks. This collaboration marks a significant leap towards refactoring security for the quantum threshold, as cyberattacks on data and networks continue to grow exponentially every year.

Advancing Post-Quantum Cryptography: Collaborative Efforts towards Quantum-Secure Communications

The advent of quantum computing poses significant threats to current cryptographic standards, compromising the security of public keys that safeguard global communications. To address this challenge, collaborative efforts are underway to develop robust post-quantum cryptography (PQC) solutions. QuSecure, a pioneer in PQC, has joined forces with NVIDIA and other technology leaders to support the cuPQC initiative, a groundbreaking library designed to redefine cryptography in the quantum era.

The cuPQC library leverages the unparalleled parallelism of NVIDIA GPUs to meet the stringent demands of next-generation security algorithms. This collaboration aims to accelerate the development and validation of advanced PQC algorithms, ultimately replacing existing public keys with quantum-resistant ones. QuSecure’s expertise in cryptographic innovation will play a crucial role in promoting the availability of potent computational resources for this endeavor.

The urgency to devise robust PQC solutions cannot be overstated. Cyberattacks on data and networks are growing exponentially every year, underscoring the need for proactive measures to ensure the security of global communications. QuSecure’s collaboration with NVIDIA is part of a vital alliance under the Linux Foundation, dedicated to cultivating an open-source repository of post-quantum algorithms and applications.

Refactoring Security for the Quantum Threshold

The threats posed by quantum computing necessitate a fundamental transformation in cryptographic standards. Current public keys are vulnerable to compromise, and cryptographers are working tirelessly to develop advanced algorithms that can replace them. QuSecure is at the forefront of this innovation, supporting and collaborating with NVIDIA to foster the development and validation of these next-generation security algorithms.

The cuPQC library has already demonstrated remarkable acceleration of Kyber, a leading candidate for securing quantum-resistant keys. Benchmarks have shown that cuPQC achieves speeds multiple times faster on an NVIDIA H100 Tensor Core GPU than on traditional CPU benchmarks. The forthcoming NVIDIA Blackwell architecture GPUs are optimized for the intricate integer mathematics pivotal in cryptography, promising to amplify this acceleration.

Unleashing Unprecedented Speeds with Hopper and cuPQC

The integration of cuPQC with NVIDIA’s Hopper architecture is poised to revolutionize the field of post-quantum cryptography. By harnessing the power of GPUs, developers can now accelerate the development and validation of advanced PQC algorithms at unprecedented speeds. This collaboration has far-reaching implications for various industries, including telecommunications, insurance, banking and finance, critical infrastructure, and the public sector.

QuSecure’s QuProtect software platform solution is a testament to the company’s commitment to advancing post-quantum cybersecurity. The comprehensive, end-to-end quantum-security-as-a-service architecture combines zero-trust, next-generation quantum-resilient technology, and crypto-agility to protect networks, cloud systems, edge devices, and satellite communications against today’s cyberattacks and future quantum threats.

Accelerating the Adoption of Post-Quantum Cryptography

The collaborative efforts between QuSecure, NVIDIA, and other technology leaders are crucial in accelerating the adoption of post-quantum cryptography. By providing developers with access to potent computational resources and advanced PQC algorithms, this alliance aims to cultivate a community-driven approach to building quantum-resistant communications.

QuSecure’s expertise in cryptographic innovation will play a vital role in promoting the development and validation of next-generation security algorithms. The company’s QuProtect software platform solution is available now, offering a comprehensive, end-to-end quantum-security-as-a-service architecture that can be seamlessly integrated into existing systems with minimal disruption. As the threat landscape continues to evolve, collaborative efforts like these will be instrumental in ensuring the security of global communications in the quantum era.