TRUE QRNG Keys
True Quantum Random Number Generated Encryption Keys
What kind of encryption keys does PRYVAz use to secure your privacy, information and data.
What are True QRNG Encryption Keys and why are they important?
WHy does pryvaz use true QRNG Encryption keys?
In today's interconnected landscape, computing devices are shrinking in size and multiplying in number, particularly in fields like IoT and smart devices.
However, this proliferation of devices also brings about heightened security and privacy threats. Even a single vulnerability poses significant risks.
True Quantum Encryption Keys provide an unbreakable and unpredictable randomness.
Unlike other sources of entropy that are deterministic or not provably secure, QRNGs are intrinsically random and rely on well-known processes. The QRNG Encryption Keys are a robust source of full entropy, provably unbiased and unpredictable.
Safeguarding your information and privacy is paramount for your safety.
That is why PRYVAz uses True QRNG Encryption Keys.
WHAT ARE TRUE QRNG ENCRYPTION KEYS?
Only TRUE Quantum Random Number Encryption Keys are intrinsically random, provably secure and future proof. Quantum physics is probabilistic on a fundamental level, which means that they can produce unpredictable outcomes in a robust, transparent and well controlled way. Since the entropy source is described with fundamental models, all properties of the entropy source are understood and the security can be proven.
ENCRYPTION KEYS AND SECURITY
Modern digital security systems rely heavily on the quality of cryptographic algorithms and encryption keys.
According to the Kerckhoff principle, a system should remain secure even if its workings are known, except for the encryption key. Most widely used cryptographic algorithms are open for public review to ensure security. However, the foundation of security falters if the numbers used to generate keys are not unique, sufficiently random, or predictable.
Many keys today are created using pseudo-random number generators (PRNGs) or pseudo-quantum-random number generators (PQRNG), which rely on deterministic algorithms. PRNGs and PQRNGs often lack true unpredictability and randomness, posing vulnerabilities.
True randomness stems from physical phenomena, but traditional hardware-based random generators (TRNGs) are susceptible to manipulation.
True quantum random number generators (QRNGs) leverage quantum physics, offering inherently unpredictable outcomes from the start.
True QRNGs are transparent and offer high-quality randomness, while classical sources rely on mathematical post-processing for randomness generation.