As it was explained in very plain words to me, we can imagine quantum computing as a process where calculations don’t follow each other as in regular computing but take place all at the same time. A quantum computer is able to run all the calculations simultaneously that a regular computer...
Quantum computing is an emergent field of cutting-edge computer science harnessing the unique qualities of quantum mechanics to solve problems beyond the ability of even the most powerful classical computers. The field of quantum computing contains a range of disciplines, including quantum hardware and...
Michio Kaku: We're looking at a race, a race between China, between IBM, Google, Microsoft, Honeywell, all the big boys are in this race to create a workable, operationally efficient quantum computer. Because the nation or company that does this, will rule the world eco...
In Sec. Results: Quantum walks on hypergraphs, we construct a method for quantizing Markov chain to create discrete-time quantum walks on regular uniform hypergraphs. In Sec. Results: Spectral analysis of quantum walks on hypergraphs, we analyze the eigen-decomposition of the operator. Sec. ...
Released Microsoft Quantum Development Kit for Visual Studio Code .NET 6 Preview. (Update: This extension preview has now been retired and its changes have been incorporated into the regular Visual Studio Code extension.)QDK version 0.22.1876312022...
The potential is soenticingbecause a quantum computer is not just another ultrafast computer: It’s a new beast entirely. Instead of computing one thing after another, plodding along brute-force style as regular computers do, quantum computers could potentially consider all scenarios simultaneously, ...
To run Shor's algorithm on an actual quantum computer, this function has to be written in terms of the native operations of the target machine. Using the binary representation ofxwithxidenoting thei-th bit counting from the least-significant bit,f(x)can be written asf(x)=a∑i=02n−1...
In this paper we show how to generate large CV regular cluster states through the relativistic accelerated motion of a cavity. The quantum field inside the cavity is initially in the vacuum state. We exploit entanglement resonances among different modes of the cavity3 to show that, by suitably ...
This work aims at giving Trotter errors in digital quantum simulation (DQS) of collective spin systems an interpretation in terms of quantum chaos of the kicked top. In particular, for DQS of such systems, regular dynamics of the kicked top ensures conve
cuTensorNet: Accelerates tensor network simulations. In this post, we provide an overview of both libraries, with a more detailed discussion of cuTensorNet. Why use cuStateVec? The cuStateVec library from the cuQuantum SDK provides a high-performance solution for state vector-based simulation thro...