What is a quantum computer and how does it work? How advanced is the technology and what is it used for? ► Learn everything about quantum computing!
Quantum computing is an exciting new field of research that has begun in recent years to yield practical processing devices. Quantum mechanics is the branch of physics that applies at the microscopic sub-atomic level. Here, the normal laws of physics that govern how we live no longer apply, c...
Quantum computing is a computing architecture that utilizes the interference properties of entangled quantum particles, known as qubits, to establish intimate connections between each bit of quantum information in the system. This allows for massively parallel computations that are impossible in classical ...
If you want to accelerate your quantum computing journey, check outCode with Azure Quantum, a unique feature of theAzure Quantum website. Here, you can run built-in Q# samples or your own Q# programs, generate new Q# code from your prompts, open and run your code inVS Code for the Web...
Quantum computing is moving beyond its early stage and seeking for commercial applications in chemical and biomedical sciences. In the current noisy intermediate-scale quantum computing era, the quantum resource is too scarce to support these exploration
Quantum computers operate differently from classical computers based on how they process data. Learn more about classical vs. quantum computing.
This is a tool developed by GQI that allows you to visualize the quantum computing resources needed to process 19 different algorithms with 8 different quantum computing configurations. It provides both the number of physical qubits required and the runtime. For more details about the algorithms and...
3 and 4. The error bars were derived using a Monte Carlo method following the normal distribution of the correlation matrix components with variance corresponding to the number of detected photocounts. The asymmetry of estimated error bars results from presence of the \(\theta\) function in the...
secure communication and computing power. For more than two decades the QT community has been working on the development of QTs, which promise landmark breakthroughs leading to commercialization in various areas. The ambitious goals of the QT community and expectations of EU authorities cannot be ...
Entanglement is integral to quantum computing power. Pairs of qubits can be made to become entangled. This means that the two qubits then exist in a single state. In such a state, changing one qubit directly affects the other in a manner that's predictable. Quantum algorithms are designed to...