Placing a number of entangled qubits in an array and applying gate logic operations to them allows computing power to be harnessed. Figure 1 provides a very high-level schematic of the principles behind how a quantum computer operates. Fig 1 — Quantum computing in a nutshell This exponential...
Finite group extensions offer a natural language to quantum computing. In a nutshell, one roughly describes the action of a quantum computer as consisting of two finite groups of gates: error gates from the general Pauli group P and stabilizing gates within an extension group C. In this ...
Quantum communication is the key to such advances as quantum computing and encryption. In a nutshell, quantum communication means transferring entanglement -- identical quantum states -- over long distances. Unfortunately, the fidelity of those states will decrease exponentially with distance. A new ...
Three years ago, a team from Oak Ridge National Laboratory (ORNL), Google, and NASA Ames published a paper showing the first glimmer of quantum supremacy. For those who don’t follow quantum computing, in a nutshell this means proving quantum systems can outperform traditional supercomputers. The...
Google expects the power of quantum computers to expand at a “double exponential rate,” whereas traditional computers have long been pegged to Moore’s Law, which saw power double every 18 months or so. Quantum computing in a nutshell: Quantum computing is all about qubits, or quantum bits...
Instead, quantum computing utilizes "quantum states" to make q-bits that can work beyond binary and into multiple states. It could enable lightning fast processing, and answers to questions currently requiring a massive bank of connected computers. This video from In a Nutshell is an interesting ...
Let’s have an introduction in a nutshell before reaching its core zone. Introduction Quantum Computing has been hailed as the next big leap forward in computing power, offering unprecedented speed and processing capabilities that could transform everything. Unlike classical computers, which op...
mechanic" who claims to have invented technology used in the world's first commercial quantum computer, from D-Wave Systems Inc., is crafting what he calls the first quantum application -- Quantum Machine Learning -- which he described here at the International Conference on Quantum Computing (...
Explore related subjects Discover the latest articles and news from researchers in related subjects, suggested using machine learning. Machine Learning Quantum Computing Quantum Correlation and Entanglement Quantum Physics Separation Science Statistical Learning ...
We introduce maximum-likelihood fragment tomography (MLFT) as an improved circuit cutting technique for running clustered quantum circuits on quantum devices with a limited number of qubits. In addition to minimizing the classical computing overhead of circuit cutting methods, MLFT finds the most like...