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Explore Quantum-Safe Cryptography with expert insights, use cases, and solutions. Learn how Quantum-Safe Cryptography can enhance your cybersecurity and protect sensitive data.

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Scientific community has been working on extracting the benefits of quantum physics for computation over 15-20 years. Three key reasons have been stalling meaningful realization

Google’s Chrome team wrote in their blog that they are revising technical standards, implementing and evaluating new quantum-resistant algorithms, and engaging with the broader technology community to ensure a seamless transition.

QNu Labs was found in 2016 IIT Chennai, Now Trailblazers in quantum cryptography, quantum encryption, and quantum communication solutions.

The process of encrypting data is called cryptography. It converts plain text into scrambled text so that someone with the right “key” can read it. Quantum cryptography, by extension, uses the principles of quantum mechanics to encrypt data and transmit it securely.

Data sent over public communication channels are secured using cryptography. It protects all kinds of electronic communications as well as passwords, digital signatures, and health records. The advent of quantum computers has put cybersecurity under a state of alarm. Large-scale quantum computers have the power to break public key encryption.

Find more information about QNu Labs Guide: Post-Quantum Cryptography (PQC) and How it Works?. Get more Quantum Cryptography Guide from QNu Labs.

Find more information about QNu Labs Guide: Quantum Key Distribution (QKD) and How it Works?. Get more Quantum Cryptography Guide from QNu Labs.

At QNu Labs, we're dedicated to unraveling the complexities of the quantum realm and translating those insights into tangible cybersecurity solutions.

As the digital landscape evolves, the threat of quantum computing to conventional encryption methods becomes increasingly real. Quantum computers, with their ability to solve complex problems exponentially faster than classical computers, pose a significant risk to the encryption algorithms that currently safeguard our data.

Quantum computing uses fundamental principles of quantum mechanics to perform complex processing. Quantum cryptography leverages the same principles for advanced data encryption. However, quantum computing and quantum cryptography are not allies. Instead, they stand tall against each other at the crossroads!

In cybersecurity, where data protection is paramount, traditional cryptographic methods have long been the stalwart guardians of sensitive information. However, as computing power advances, so too do the tools available to potential attackers. In the ever-evolving landscape, the emergence of quantum cryptography offers a promising solution to the challenges of secure communication in the digital age.

Quantum computers use the laws of quantum mechanics to process information in quantum bits or qubits. Qubits can exist in multiple states at the same time (called quantum superposition). This property allows quantum computers to process data and solve problems exponentially faster than classical computers.

The digitalisation of the economy has impacted the financial services industry more than others. Digital financial transactions have replaced physical currencies. Banknotes were exchanged on trust. They were issued by trustworthy institutes in the country and used between parties without fear of doubt.

Quantum computing (QC) garners a lot of positive press due to its power to solve complex computations several times faster. It is envisioned that QC can be a critical enabler and a strong catalyst to considerably reduce the computational power required to perform complex calculations and boost the future of sixth-generation (6G) communication.

A quantum computer can process data at an enormous speed. A transaction that takes classical computers weeks to compute can be processed by a quantum computer in seconds. The ability of quantum computers to factor many possibilities simultaneously has severe implications for data privacy. Data attacks with advanced quantum technologies could crack even the most advanced encryption schemes.

The Indian Cabinet recently approved the National Quantum Mission. The mission is essential for building excellence in national quantum security and developing quantum computers, quantum communication, new materials, quantum sensors, and quantum cryptography.

QNu Labs ✓Post-Quantum Cryptography (PQC) algorithm meets NIST standards & easily integrates with servers, mobiles, FPGA, PCIe cards, and more

Quantum tunnelling is one of the most intriguing phenomena in quantum physics. Tunnelling may appear to have little relevance to everyday life but it is a fundamental process of nature that is responsible for many things on which life itself is dependent.

The landscape of digital security is constantly evolving and threats loom large. But, the emergence of quantum security provides hope. Quantum security represents a paradigm shift in the way we safeguard our digital infrastructure against increasingly sophisticated attacks.

Quantum computers use fundamental principles of quantum mechanics to solve complex problems in a matter of seconds (which otherwise would take several years). Once a quantum computer achieves a scale large enough to crack RSA encryption protocols, all of our online data is under threat.

Cyberattacks can lead to devastating losses of money, trust, and reputation. So, companies have an intrinsic incentive to strengthen their security set-up. Cyber-resilience starts at the root – the IT security architecture. The IT security architecture determines how technical security measures are established within the overall enterprise architecture, aligning internal and external requirements.

In quantum mechanics, the phenomenon of quantum entanglement stands out as both perplexing and fascinating. It is one of the iconic principles of quantum physics and probably the bedrock of new-age quantum technologies.