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Explore Ekert Protocol (E91) with expert insights, use cases, and solutions. Learn how Ekert Protocol (E91) can enhance your cybersecurity and protect sensitive data.

Explore Bb84 Protocol with expert insights, use cases, and solutions. Learn how Bb84 Protocol can enhance your cybersecurity and protect sensitive data.

Explore Decoy State Protocols with expert insights, use cases, and solutions. Learn how Decoy State Protocols can enhance your cybersecurity and protect sensitive data.

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

Explore Secure Communication Protocols with expert insights, use cases, and solutions. Learn how Secure Communication Protocols can enhance your cybersecurity and protect sensitive data.

Y2Q, the year when quantum computers will become powerful enough to break the current encryption code, is approaching sooner than expected. The moment is dreaded by businesses, governments, and individuals alike because it poses a serious threat to the security of our networks and data.

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.

The Signal Protocol is a set of cryptographic specifications that provides end-to-end encryption for private communications exchanged daily by billions of people around the world. The team announced on their blog that they are upgrading the X3DH specification to PQXDH, a first step in advancing quantum resistance in the Signal protocol.

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To address these pertinent questions, the Minister of Electronics & Information Technology proposed the Digital Personal Data Protection Bill, 2023 in Parliament. It received the Presidential nod on 11th August. India has now joined the ranks of developed countries to protect citizens' data and citizens' right to privacy.

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.

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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.

Most of us remember Y2K. The global Y2K project aimed to replace the two-digit year codes with four-digit codes by December 31, 1999, to ensure that computers didn’t think the year was 1900 and bring the world to a halt. We successfully navigated the problem. At the tick of 00:00:01 on January 1, 2000, the world functioned as usual.

The safest mode of data exchange using quantum encryption.

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The dynamics of geopolitics change over time; it is not a new phenomenon. Therefore, all data and transactions on the internet are encrypted. The widely used encryption method (RSA protocol) uses encryption keys to securely transmit data globally. An encryption key is a random string of bits used to encode and decode data. Each key is unique and unpredictable.

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A quantum computer is a computing technology that uses sub-atomic particles and the principles of quantum mechanics to perform exponentially faster computations than existing computers. Quantum computing has many applications in healthcare, such as protein folding. However, the technology also has the power to break today’s encryption protocols that secure data and critical systems.

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.

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.