https://referently.com/tags/quantum-computing/ Recent content in quantum computing on Referently.com Hugo -- gohugo.io en-us Wed, 01 Apr 2026 00:00:00 +0000 https://referently.com/google-researchers-lower-the-bar-for-quantum-attacks-on-bitcoins-cryptography/ Wed, 01 Apr 2026 00:00:00 +0000 https://referently.com/google-researchers-lower-the-bar-for-quantum-attacks-on-bitcoins-cryptography/ Google researchers have published findings that tighten the timeline on one of the most consequential threat scenarios in digital finance: a quantum computer capable of breaking the cryptographic foundations of Bitcoin and other blockchain-based assets. The specific target is elliptic-curve cryptography — and more precisely, the elliptic curve discrete logarithm problem for 256-bit curves (ECDLP-256), which underlies the key pairs that secure Bitcoin wallets and transactions. The researchers’ updated estimates reduce the quantum computing hardware requirements needed to execute such an attack, meaning the capability threshold is lower than the field previously assumed. https://referently.com/quantum-computing-a-comprehensive-guide/ Tue, 31 Mar 2026 00:00:00 +0000 https://referently.com/quantum-computing-a-comprehensive-guide/ Quantum computing is not simply a faster version of classical computing. It is a fundamentally different paradigm — one that exploits the strange, counterintuitive behavior of matter at the subatomic scale to perform certain classes of computation that would be practically impossible for any classical machine. Understanding it requires setting aside intuitions built around bits, logic gates, and deterministic processes. This guide covers the physics, the architecture, the algorithms, the current state of hardware, and the realistic near-term and long-term implications of quantum computing — without glossing over the hard parts. https://referently.com/computing-beyond-certainty-where-quantum-systems-start-to-matter/ Wed, 25 Mar 2026 00:00:00 +0000 https://referently.com/computing-beyond-certainty-where-quantum-systems-start-to-matter/ Quantum computing tends to get introduced as a faster computer, but that framing misses what actually makes it different. It’s not just speed—it’s a different way of representing and manipulating information. Classical computers rely on bits that are either zero or one, clean and definite. Quantum systems use qubits, which can exist in combinations of states at once, a property tied to superposition. That alone sounds abstract, maybe even a bit hand-wavy at first, but the consequences are very real.