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Reformulating Chemistry for More Efficient Quantum Computation

Thursday, March 22, 2018

Posted by Ryan Babbush, Senior Research Scientist, Quantum AI TeamAntikythera mechanismclassically intractable

Left: The first known computing device, the Antikythera mechanism: a classical machine used to simulate classical mechanics. Right: Google’s 22 Xmon qubit “foxtail” chip arranged in a bilinear array on a wafer, the predecessor to Google’s new Bristlecone quantum processor with 72 qubits, a quantum machine we intend to use to simulate quantum mechanics, among other applications.

Quantum AI teamfirst quantum chemistry experiment on a superconducting quantum computing devicePhysical Review Xexperimentally simulated exotic phases of matterreleasedOpenFermionBristlecone quantum processorQuantum Information ProcessingIBM ThinkQLow-Depth Quantum Simulation of MaterialsPhysical Review XProfessor Garnet Chan at CaltechQuArC group at Microsoftbasis setsHamiltonianplane wavescrystal of lithium hydridecathodesheterogeneous catalystsgraphenesuperconductorsQuantum Simulation of Electronic Structure with Linear Depth and ConnectivityPhysical Review LettersAspuru-Guzik group at Harvarderror-correctioneighty years