Post-Quantum Cryptography: the Good, the Bad, and the Powerful youtu.be/uE_Y1C4QPU8?si… via YouTube Switch to #PostQuantumCryptography

This results in two separate quantum threats to HTTPS. blog.chromium.org/2024/05/advanc…

Your guide to post-quantum end-to-end encryption and how Zoom can help zoom.com/en/blog/guide-…

interestingengineering.com/innovation/psi…

“This moment feels to us like the pioneers of the 1940s and 50s who were building the first digital computers,” Dario Gil, the head of research at IBM, says of quantum computing. cbsn.ws/3WBzG2L

QUANTUM COMPUTING: THE FUTURE IS NOW IBM recently announced a quantum computer capable of solving problems in minutes that would take today's supercomputers millions of years. Developed by IBM, Google, and others, quantum computers push the boundaries of science and

Investing in post-quantum cryptocurrencies would be a wise decision given the advancements in quantum computing, with machines now exceeding 2,330 qubits.

“Perhaps kids who grow up playing quantum games will acquire a visceral understanding of quantum phenomena that our generation lacks.” quantumfrontiers.com/2024/08/05/bui…

“The Penrose tiling somehow knew about quantum error correction before the invention of the quantum computer.” —Latham Boyle quantamagazine.org/never-repeatin…

Theory for RSA, elliptic curves and discrete logs will soon be replaced by lattice methods - and polynomial operations - and will open up a whole new world of public key encryption and homomorphic encryption. Go learn it now ... youtube.com/watch?v=832mo7…

MIT researchers edge closer to a code-breaking quantum computer. Massachusetts Institute of Technology (MIT) thequantuminsider.com/2024/08/26/tow…

At OQC, we use superconducting qubits which are implemented into superconducting circuits with our unique three-dimensional architecture: the coaxmon. Explore this world-leading modality by downloading our beginner friendly guide 👉 oqc.tech/what-are-super… 1/2 🧵#QuantumComputing

Growing to more than 125 participating cyber researchers from industry and academia, the global #PostQuantumCryptographyCoalition published a comparison of PQC standards being defined by international government regulatory bodies. mitre.org/news-insights/…

Ever wonder how qubits are made? Check out this behind-the-scenes tour of the Google #QuantumAI lab and learn more about the process.

Facing complex optimization challenges that traditional solutions struggle to solve? Join us on Oct 17 for a webinar with Murray Thom, that covers how quantum tech is driving efficiencies in logistics, retail, and manufacturing use cases. dwavesys.zoom.us/webinar/regist… $QBTS

“I think I can safely say that nobody understands quantum mechanics.” - Richard Feynman (1964 Cornell Lecture)

Using random circuit sampling (RCS), we've demonstrated that quantum computers can outperform classical supercomputers, even with noise. This 'beyond classical' capability is possible because qubits can exist in multiple states at once, giving quantum computers an edge.

Meet Willow: Our state-of-the-art quantum chip. It's the first quantum chip to show exponential error reduction as qubits scale, paving the way for large-scale, fault-tolerant quantum computers. Dive in → go.nature.com/3OKVLY6

Peter Shor's Lecture Notes on Quantum Computing 📑 Lecture 1 --- Introduction and History Lecture 2 --- The Superposition Principle Lecture 3 --- Unitary Evolution and the Bloch Sphere Lecture 4 --- Quantum Measurements Lecture 5 --- Joint Quantum Systems and Tensor Products