The qubit is the quantum analogue of the bit, the classical fundamental unit of information. It is a mathematical object with specific properties that can be realized physically in many different ways as an actual physical system. Just as the classical bit has a (either 0 state or 1), a qubit also has a state.
Understanding of quantum computing is largely limited to research labs. Advancing quantum computing will require understanding of the technology beyond the scientific community. Quantum computing curriculum and education is nascent. 5 in 5 presentation.Quantum computing Quantum computing is the area of study focused on the development and developing computer technologies based on the quantum theory. The quantum theory is a theory which explains the nature and behaviour of energy and matter on a quantum (atomic and subatomic) level.In this paper, we consider the quantum analogue of High Per- formance Computing (HPC), where a dedicated server farm is utilized by many users to run algorithms and share quantum data. We introduce both a trusted mainframe model as a.
IBM Q is the trusted partner to help you start your quantum journey and prepare for the era of quantum advantage. Discover early use cases, equip your organization with practical quantum skills, and access world-class expertise and technology to advance the field of quantum computing.
Here we present a gentle introduction to some of the ideas in quantum computing. The paper begins by motivating the central ideas of quantum mechanics and quantum computation with simple toy models. From there we move on to a formal presentation of the small fraction of (finite dimensional).
Review of Quantum Computing Research Cris Cecka Summer 2005 This paper documents many of the quantum computing research paths taken in the summer of 2005 under the guidance of Professor Christopher Stone. In the last decade, Quantum computing has generated a large amount of interest in Physicists, Mathematicians, and Computer Scientists alike.
Google AI Quantum is advancing quantum computing by developing quantum processors and novel quantum algorithms to help researchers and developers solve near-term problems both theoretical and practical. We think quantum computing will help us develop the innovations of tomorrow, including AI.
Quantum Computing is a new and exciting field at the intersection of mathematics, computer science and physics. It concerns a utilization of quantum mechanics to improve the efficiency of computation. Here we present a gentle introduction to some of the ideas in quantum computing. The paper begins by motivating the central ideas of quantum mechanics and quantum computation with simple toy.
The Future of Quantum Computing is Almost Here: Research Extends “Qubit” Life 10x We're 10 times closer to a better quantum computer. Dom Galeon October 19th 2016.
Quantum computing models for algebraic applications Nikolay Raychev. Abstract-In our days the quantum computers may be used for a great number of algebraic applications exponentially faster in comparison to the classical computing equipment. In this article are considered key.
View Quantum Computer Research Papers on Academia.edu for free.
Quantum computing platforms that can operate at temperatures up to 15 times higher than existing technologies are demonstrated in two papers published in Nature this week. Although the relative temperature increase is quite small, it could make a big difference to the scalability of current prototypes into larger and more powerful quantum computers.
Research in battery chemistry is getting a boost from quantum computing that in turn is furthering research to improve quantum computing. Scientists from IBM and Mitsubishi Chemical have simulated the initial steps of the reaction mechanism between lithium and oxygen in lithium-air (Li-air) batteries.
Research paper claims Google has achieved 'quantum supremacy' - a milestone in computing after their quantum processor performed a 'calculation in three minutes and 20 seconds that would take a.
A Quantum computer (QC) is a computer that utilises quantum phenomena to perform operations on data and increase the computational power beyond that which is attainable by traditional computers.
Quantum computing studies theoretical computation systems (quantum computers) that make direct use of quantum-mechanical phenomena, such as superposition and entanglement, to perform operations on data. Quantum computers are different from digital electronic computers based on transistors.
There are loads of different quantum computing journals, so you might want to be more specific about what you're looking for. However, the vast majority of papers (certainly theory, perhaps a bit less so the experiments) appear as preprints on the arXiv, specifically the quant-ph section.The majority of papers, all in one place, collectively searchable, and free to read.