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Explore Qubits with expert insights, use cases, and solutions. Learn how Qubits can enhance your cybersecurity and protect sensitive data.
Explore Entangled Qubits with expert insights, use cases, and solutions. Learn how Entangled Qubits can enhance your cybersecurity and protect sensitive data.
To comprehend the concept of a qubit, one must first grasp the essence of quantum computing. Unlike classical computers, which operate based on binary bits—units of information—quantum computers harness the peculiar phenomena of superposition and entanglement to process data in a fundamentally different manner.
Explore Qubit (Quantum Bit), its cryptographic mechanism, advantages, and importance in quantum-safe encryption systems.
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
Explore Superposition (Quantum Computing Principle), its cryptographic mechanism, advantages, and importance in quantum-safe encryption systems.
In computer science and technology, the term “quantum computing” has emerged as a buzzword, capturing the imagination of scientists, engineers, and enthusiasts alike. But what exactly is a quantum computer, and how does it differ from classical computers?
RSA-2048 was the gold standard for decades, but quantum computing is challenging that safety. Learn why legacy encryption is no longer enough in 2026.
Explore Shor's Algorithm, its cryptographic mechanism, advantages, and importance in quantum-safe encryption systems.
Explore Cryptographically Relevant Quantum Computer (CRQC), its cryptographic mechanism, advantages, and importance in quantum-safe encryption systems.
Explore Quantum Computing (Basics), its cryptographic mechanism, advantages, and importance in quantum-safe encryption systems.
We are witnessing the second quantum revolution. We are exploring the possible applications of quantum superposition and quantum entanglement. Quantum communication is one of the important use cases of quantum mechanics. Building a large and fully functional quantum network will determine the commercial success of quantum communication.
Google announced crossing the Quantum Supremacy Threshold of 53 Qubits. This essentially means that a Quantum Computer (QC) of 53 Qubits can perform some operations faster than the most advanced supercomputers today.
We are witnessing the second quantum revolution. We are, for the first time, exploring the possible applications of quantum superposition and quantum entanglement. Quantum communication is one of the important use cases of quantum mechanics. Building a large and fully-functional quantum network will determine the commercial success of quantum communication.
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.
Explore Q-Day (Quantum Day), its cryptographic mechanism, advantages, and importance in quantum-safe encryption systems.
At the core of quantum mechanics is the idea that particles, such as electrons and photons, can exist in multiple states simultaneously. Unlike classical physics, where an object can only exist in one state at a time, quantum superposition allows particles to exist in a combination of states.
Explore Grover's Algorithm, its cryptographic mechanism, advantages, and importance in quantum-safe encryption systems.
Explore Elliptic Curve Cryptography (ECC), its cryptographic mechanism, advantages, and importance in quantum-safe encryption systems.
Data is the engine of the new economy. The data economy depends on the creation of data and data sharing. This makes data an invaluable asset for nations, enterprises and individuals. The data exchange fuels data harvesting. Companies and individuals are known to harvest data - extract useful information from data sources for their personal benefit.
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.
₹250 crore penalties under DPDP Act. Quantum computers threaten RSA encryption by 2030. Discover QNu Labs' 7-step roadmap for quantum-safe data protection.
Discover CERT-In's strategic roadmap for transitioning to Quantum Cyber Readiness. Learn how to secure critical infrastructure against Q-Day threats with PQC migration.
Explore RSA (Rivest-Shamir-Adleman) Encryption, its cryptographic mechanism, advantages, and importance in quantum-safe encryption systems.
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.