Tuesday, August 29, 2017

Russians Lead the Quantum Computer Race With 51-Qubit Machine

The Quantum Supremacy Threshold #Qubits allow the development of new computational algorithms, which are much more productive than silicon-based iterations. The more qubits a #quantumcomputer uses, the more processing power it has. But most advanced #quantumcomputationalsystems available today are still far behind #supercomputers in terms of their practical applications–although the situation is changing very fast indeed. There’s a theoretical threshold after which quantum computers would surpass most powerful classical supercomputers. Scientists believe it should happen somewhere around 50 qubits. Currently, the most advanced quantum chips are below 20 qubits, such as the #IBMQ that uses 17 qubits. #Google also is no stranger to the quantum race, as it’s working on a 49-qubit 14-meter machine using #superconductingcircuits. 51 “ #ColdAtoms ” to Make the World’s Most Advanced #QuantumComputer Google’s 49 qubit computer was supposed to be the highlight of the ICQT 2017 (The International Conference on #QuantumTechnologies, held July 12th–16th in Moscow). Designed by John Martinis, a professor at University of California at Santa Barbara, Google’s computer will use a chip embedded with 49 qubits (0.6 cm by 0.6 cm). But as groundbreaking Google’s machine might be, it was another machine that stole the show. During the same day of the ICQT 2017 that Martinis was supposed to give a lecture about his quantum device, Mikhail Lukin, the co-founder of RQC, made his own announcement. Mikhail’s team, including Russian and American scientists, have built the world’s most powerful functional quantum computing system, running on 51 qubits. The new quantum system uses an array of 51 “cold atoms” in lieu of qubits. Locked up on “laser cells”, these atoms should be kept at extremely low temperatures. “… we observe a novel type of robust many-body dynamics corresponding to persistent oscillations of crystalline order after a sudden quantum quench,” said researchers in a paper available at arXiv.org. “These observations enable new approaches for exploring many-body phenomena and open the door for realizations of novel quantum algorithms.” The model was successfully tested in the labs of Harvard University, solving physics problems that silicon chip-based supercomputers would have a hard time replicating.

https://edgylabs.com/russia-51-qubit-quantum-computer-icqt/

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