Quantum-safe cybersecurity Solutions
High-performance QRNG to power the transition to quantum-safe cybersecurity
Back in 2016, the world started a transition towards stronger cybersecurity technologies that would eliminate the known vulnerabilities of today’s systems to quantum computing attacks (and other threat vectors). New standards will appear during the first quarter of 2022, forcing companies to start migrating and planning their infrastructure and products.
“New standards are to appear during the first quarter of 2022, forcing companies and vendors to start planning and migrating product and infrastructure updates”
Quside delivers QRNGs for new quantum-safe technologies, including post-quantum cybersecurity and quantum key distribution.
- Ultrafast speed to meet the new entropy requirements.
- Convenient interfaces for QKD systems.
- Randomness metrology for ultimate quality assessment.
- IP cores to deliver different distribution functions.
RELATED POSTS
Invisibly, cryptography permeates through all current communication systems. The ability to guarantee that our messages are transmitted in an unaltered form to only those recipients of interest to us is critical for users to have peace of mind when it comes to relying on the communication channels we use.
Randomness plays a dominant role in our daily lives. However, many times, we want just the opposite: Areas such as cryptography depend directly on the adversary's inability to predict a message exchanged between two parties. In these cases, unpredictability is an indispensable and scarce resource.
In cryptography, there is a core ingredient required to build any security system: unpredictable random numbers. The way to generate them isn't easy and is by means of measuring physical, random signals. In physics, unpredictability exists, and we have to leverage it in computing and security systems.
