The quantum computer named Jiuzhang was able to complete a task 100 trillion times faster than one of the world’s fastest super computers.

The quantum computer named Jiuzhang was able to complete a task 100 trillion times faster than one of the world’s fastest super computers.
Computers relying on subatomic physics: what are quantum computers, and how will they revolutionize our computing abilities?
Researchers are developing algorithms and machine learning methods to further our understanding of the quantum state space.
Using the principles of quantum mechanics, scientists are unlocking incredible computing powers one experiment at a time.
An exciting and exotic approach to minimizing error in quantum computation re-purposes a known code to achieve what many researchers thought was impossible.
Princeton scientists demonstrate that two silicon quantum bits can communicate across relatively long distances in a turning point for the technology.
A quantum autoencoder via approximate quantum adders in the Rigetti cloud quantum computer is carried out employing up to three qubits.
Joris van Slageren´s research group discovers molecular quantum bit with exceptionally long coherence time over an unusually wide temperature range.
Researchers describe the experimental realization of an optical switch controlled by a single photon, allowing light to govern the transmission of light.
Researchers applying optomechnical systems to help unlock vibrational secrets of chemical and biological samples at the nanoscale.