Quside’s Quantum Entropy Source Receives NIST Certification for Security

Quside, a leading innovator in quantum technologies, has achieved a significant milestone with its photonic quantum-based entropy sources receiving NIST SP800-90B certification. This recognition reinforces Quside’s commitment to advancing quantum-safe solutions and delivering robust cryptographic foundations for businesses worldwide.

The certified technology is based on the QN 100 photonic quantum chip, capable of generating high-quality randomness at an impressive 1 Gbps rate. As companies adopt newly finalized NIST standards for post-quantum cryptography, Quside’s certified solution provides a secure foundation against quantum threats. Carlos Abellan, CEO at Quside, emphasized the significance of this certification, stating that it enables businesses to implement secure classical, hybrid, and post-quantum cryptography, safeguarding their data in a quantum-safe future.

Quantum Entropy Sources: A Critical Component for Post-Quantum Cryptography

The recent certification of Quside’s photonic quantum-based entropy sources by the National Institute of Standards and Technology (NIST) marks a significant milestone in the development of quantum-safe solutions. This achievement underscores the importance of high-quality randomness generation in cryptographic systems, particularly as businesses begin adopting post-quantum cryptography standards.

The NIST SP800-90B certification is a rigorous evaluation process that assesses the quality and security of entropy sources. Quside’s certified technology, based on its QN 100 photonic quantum chip, has demonstrated its ability to generate high-quality randomness at an impressive rate of 1 Gbps. This capability is crucial for securing next-generation cryptographic systems, as traditional methods are becoming increasingly vulnerable to quantum computing threats.

The certification of Quside’s entropy source is a testament to the company’s commitment to advancing quantum-safe solutions. By leveraging quantum effects to produce high-quality entropy, and introducing novel entropy monitoring capabilities, this technology helps businesses build robust quantum-safe systems. As Carlos Abellan, CEO at Quside, noted, “Our SP800-90B certified entropy source is a key enabler for implementing secure classical, hybrid, and post-quantum cryptography, helping businesses safeguard their data as we transition to a quantum-safe future.”

The Importance of High-Quality Randomness in Cryptography

High-quality randomness is a critical component of cryptographic systems. In traditional cryptography, random numbers are used to generate keys, nonces, and other cryptographic parameters. However, the quality of these random numbers can significantly impact the security of the system. Low-quality randomness can lead to predictable outcomes, making it easier for attackers to compromise the system.

In the context of post-quantum cryptography, high-quality randomness is even more crucial. As quantum computers become increasingly powerful, they will be able to break certain classical cryptographic algorithms, rendering them insecure. Post-quantum cryptography aims to develop algorithms that are resistant to quantum attacks, but these algorithms rely heavily on high-quality randomness.

Quside’s certified entropy source addresses this critical need by generating high-quality randomness at a remarkable rate of 1 Gbps. This capability enables businesses to build robust quantum-safe systems that can withstand the threats posed by quantum computers.

The Role of Entropy Sources in Post-Quantum Cryptography

Entropy sources play a vital role in post-quantum cryptography, as they provide the high-quality randomness required for secure key generation and other cryptographic operations. In traditional cryptography, entropy sources are often based on classical algorithms that generate random numbers using software-based techniques.

However, these classical algorithms are vulnerable to quantum attacks, making them unsuitable for post-quantum cryptography. Quantum-based entropy sources, like Quside’s certified technology, offer a more secure alternative by leveraging the principles of quantum mechanics to generate high-quality randomness.

The certification of Quside’s entropy source is significant because it demonstrates the feasibility of using quantum effects to produce high-quality randomness at scale. This capability will be essential for widespread adoption of post-quantum cryptography standards, such as FIPS 203, 204, and 205.

The Future of Quantum-Safe Cryptography

The certification of Quside’s entropy source marks an important step towards the widespread adoption of quantum-safe cryptography. As businesses begin to transition to post-quantum cryptography standards, they will require robust solutions that can provide long-term security against quantum threats.

Quside’s certified technology is well-positioned to meet this need, offering a critical component for building secure classical, hybrid, and post-quantum cryptographic systems. The company’s commitment to advancing quantum-safe solutions will be essential in helping businesses safeguard their data as they transition to a quantum-safe future.

In the years to come, the importance of high-quality randomness and entropy sources will only continue to grow. As quantum computing capabilities advance, traditional cryptographic methods will become increasingly vulnerable, making it essential for businesses to adopt robust quantum-safe solutions. The certification of Quside’s entropy source is a significant milestone in this journey, demonstrating the feasibility of using quantum effects to produce high-quality randomness at scale.