公开(公告)号：US20190087385A1

公开(公告)日：2019-03-21

申请号：US16173846

申请日：2018-10-29

Applicant: D-WAVE SYSTEMS INC.

Inventor： Alexander Maassen van den Brink ,  Peter Love ,  Mohammad H.S. Amin ,  Geordie Rose ,  David Grant ,  Miles F. H. Steininger ,  Paul I. Bunyk ,  Andrew J. Berkley

IPC: G06F15/80 ,  H04L29/08 ,  H03K3/38 ,  G06N99/00 ,  G06F15/76 ,  B82Y10/00

CPC classification number: G06F15/80 ,  B82Y10/00 ,  G06F15/76 ,  G06N10/00 ,  H03K3/38 ,  H04L67/12

Abstract: Analog processors for solving various computational problems are provided. Such analog processors comprise a plurality of quantum devices, arranged in a lattice, together with a plurality of coupling devices. The analog processors further comprise bias control systems each configured to apply a local effective bias on a corresponding quantum device. A set of coupling devices in the plurality of coupling devices is configured to couple nearest-neighbor quantum devices in the lattice. Another set of coupling devices is configured to couple next-nearest neighbor quantum devices. The analog processors further comprise a plurality of coupling control systems each configured to tune the coupling value of a corresponding coupling device in the plurality of coupling devices to a coupling. Such quantum processors further comprise a set of readout devices each configured to measure the information from a corresponding quantum device in the plurality of quantum devices.

公开(公告)号：US20150032993A1

公开(公告)日：2015-01-29

申请号：US14339289

申请日：2014-07-23

Applicant: D-WAVE SYSTEMS INC.

Inventor： Mohammad H.S. Amin ,  Trevor Michael Lanting ,  Colin Enderud

IPC: G06F15/82 ,  G06N99/00

CPC classification number: G06N99/002

Abstract: Achieving orthogonal control of non-orthogonal qubit parameters of a logical qubit allows for increasing the length of a qubit chain thereby increasing the effective connectivity of the qubit chain. A hybrid qubit is formed by communicatively coupling a dedicated second qubit to a first qubit. By tuning a programmable parameter of the second qubit of a hybrid qubit, an effective programmable parameter of the hybrid qubit is adjusted without affecting another effective programmable parameter of the hybrid qubit thereby achieving orthogonal control of otherwise non-orthogonal qubit parameters. The length of the logical qubit may thus be increased by communicatively coupling a plurality of such hybrid qubits together.

Abstract translation: 实现逻辑量子位的非正交量子比特参数的正交控制允许增加量子比特链的长度，从而增加量子比特链的有效连接性。 通过将专用的第二量子比特通信地耦合到第一量子比特来形成混合量子比特。 通过调整混合量子比特的第二量子位的可编程参数，调整混合量子比特的有效可编程参数，而不影响混合量子比特的另一有效可编程参数，从而实现非正交量子比特参数的正交控制。 因此，可以通过将多个这样的混合量子位通信地耦合在一起来增加逻辑量子位的长度。

公开(公告)号：US20170300827A1

公开(公告)日：2017-10-19

申请号：US15641051

申请日：2017-07-03

Applicant: D-Wave Systems Inc.

Inventor： Mohammad H.S. Amin ,  Trevor Michael Lanting ,  Colin Enderud

IPC: G06N99/00

CPC classification number: G06N10/00

Abstract: Achieving orthogonal control of non-orthogonal qubit parameters of a logical qubit allows for increasing the length of a qubit chain thereby increasing the effective connectivity of the qubit chain. A hybrid qubit is formed by communicatively coupling a dedicated second qubit to a first qubit. By tuning a programmable parameter of the second qubit of a hybrid qubit, an effective programmable parameter of the hybrid qubit is adjusted without affecting another effective programmable parameter of the hybrid qubit thereby achieving orthogonal control of otherwise non-orthogonal qubit parameters. The length of the logical qubit may thus be increased by communicatively coupling a plurality of such hybrid qubits together.

公开(公告)号：US20170300454A1

公开(公告)日：2017-10-19

申请号：US15635735

申请日：2017-06-28

Applicant: D-Wave Systems Inc.

Inventor： Alexander Maassen van den Brink ,  Peter Love ,  Mohammad H.S. Amin ,  Geordie Rose ,  David Grant ,  Miles F.H. Steininger ,  Paul I. Bunyk ,  Andrew J. Berkley

IPC: G06F15/80 ,  G06N99/00

CPC classification number: G06F15/80 ,  B82Y10/00 ,  G06F15/76 ,  G06N99/002 ,  H03K3/38 ,  H04L67/12

Abstract: Analog processors for solving various computational problems are provided. Such analog processors comprise a plurality of quantum devices, arranged in a lattice, together with a plurality of coupling devices. The analog processors further comprise bias control systems each configured to apply a local effective bias on a corresponding quantum device. A set of coupling devices in the plurality of coupling devices is configured to couple nearest-neighbor quantum devices in the lattice. Another set of coupling devices is configured to couple next-nearest neighbor quantum devices. The analog processors further comprise a plurality of coupling control systems each configured to tune the coupling value of a corresponding coupling device in the plurality of coupling devices to a coupling. Such quantum processors further comprise a set of readout devices each configured to measure the information from a corresponding quantum device in the plurality of quantum devices.

公开(公告)号：US20210241160A1

公开(公告)日：2021-08-05

申请号：US17234469

申请日：2021-04-19

Applicant: D-WAVE SYSTEMS INC.

Inventor： Mohammad H.S. Amin ,  Trevor Michael Lanting ,  Colin Enderud

IPC: G06N10/00

Abstract: Achieving orthogonal control of non-orthogonal qubit parameters of a logical qubit allows for increasing the length of a qubit chain thereby increasing the effective connectivity of the qubit chain. A hybrid qubit is formed by communicatively coupling a dedicated second qubit to a first qubit. By tuning a programmable parameter of the second qubit of a hybrid qubit, an effective programmable parameter of the hybrid qubit is adjusted without affecting another effective programmable parameter of the hybrid qubit thereby achieving orthogonal control of otherwise non-orthogonal qubit parameters. The length of the logical qubit may thus be increased by communicatively coupling a plurality of such hybrid qubits together.

公开(公告)号：US10885459B2

公开(公告)日：2021-01-05

申请号：US15962729

申请日：2018-04-25

Applicant: D-Wave Systems Inc.

Inventor： Jacob Daniel Biamonte ,  Andrew J. Berkley ,  Mohammad H.S. Amin

IPC: G06N10/00 ,  B82Y10/00 ,  G06N99/00

Abstract: Devices, methods and articles advantageously allow communications between qubits to provide an architecture for universal adiabatic quantum computation. The architecture includes a first coupled basis A1B1 and a second coupled basis A2B2 that does not commute with the first basis A1B1.

公开(公告)号：US20180373996A1

公开(公告)日：2018-12-27

申请号：US16057500

申请日：2018-08-07

Applicant: D-Wave Systems Inc.

Inventor： Mohammad H.S. Amin ,  Andrew J. Berkley ,  Richard G. Harris ,  Trevor Michael Lanting ,  Anatoly Yu Smirnov

IPC: G06N99/00 ,  G06F15/82

CPC classification number: G06N10/00 ,  G06F15/82

Abstract: Systems and methods for employing macroscopic resonant tunneling operations in quantum processors are described. New modes of use for quantum processor architectures employ probe qubits to determine energy eigenvalues of a problem Hamiltonian through macroscopic resonant tunneling operations. A dedicated probe qubit design that may be added to quantum processor architectures is also described. The dedicated probe qubit enables improved performance of macroscopic resonant tunneling operations and, consequently, improved performance of the new modes of use described.

公开(公告)号：US09984333B2

公开(公告)日：2018-05-29

申请号：US14860087

申请日：2015-09-21

Applicant: D-Wave Systems Inc.

Inventor： Jacob Daniel Biamonte ,  Andrew J. Berkley ,  Mohammad H.S. Amin

IPC: G06N99/00 ,  B82Y10/00

CPC classification number: G06N99/002 ,  B82Y10/00 ,  G06N99/00 ,  Y10S977/933

Abstract: Devices, methods and articles advantageously allow communications between qubits to provide an architecture for universal adiabatic quantum computation. The architecture includes a first coupled basis A1B1 and a second coupled basis A2B2 that does not commute with the first basis A1B1.

公开(公告)号：US20150363708A1

公开(公告)日：2015-12-17

申请号：US14734924

申请日：2015-06-09

Applicant: D-Wave Systems Inc.

Inventor： Mohammad H.S. Amin ,  Mark W. Johnson

IPC: G06N99/00 ,  G06F15/78

Abstract: A second problem Hamiltonian may replace a first problem Hamiltonian during evolution of an analog processor (e.g., quantum processor) during a first iteration in solving a first problem. This may be repeated during a second, or further successive iterations on the first problem, following re-initialization of the analog processor. An analog processor may evolve under a first non-monotonic evolution schedule during a first iteration, and second non-monotonic evolution schedule under second, or additional non-monotonic evolution schedule under even further iterations. A first graph and second graph may each be processed to extract final states versus a plurality of evolution schedules, and a determination made as to whether the first graph is isomorphic with respect to the second graph. An analog processor may evolve by decreasing a temperature of, and a set of quantum fluctuations, within the analog processor until the analog processor reaches a state preferred by a problem Hamiltonian.

Abstract translation: 在解决第一个问题的第一次迭代期间，第二个问题哈密尔顿算子可以在模拟处理器（例如，量子处理器）的演变期间替换第一个问题哈密尔顿算子。 在对模拟处理器进行重新初始化之后，可以在关于第一问题的第二次或进一步的连续迭代中重复这一点。 在第一次迭代期间，模拟处理器可以在第一非单调进化计划下演化，并且在甚至进一步迭代的第二非单调进化计划下进行第二非单调进化计划。 可以分别处理第一图和第二图以提取最终状态与多个进化计划，并且确定关于第一图表是否与第二图形是同构的。 模拟处理器可以通过降低模拟处理器内的温度和一组量子波动来演化，直到模拟处理器达到由问题哈密尔顿算子所优选的状态。

公开(公告)号：US20210374590A1

公开(公告)日：2021-12-02

申请号：US17113847

申请日：2020-12-07

Applicant: D-WAVE SYSTEMS INC.

Inventor： Jacob Daniel Biamonte ,  Andrew J. Berkley ,  Mohammad H.S. Amin

IPC: G06N10/00 ,  B82Y10/00

Abstract: Devices, methods and articles advantageously allow communications between qubits to provide an architecture for universal adiabatic quantum computation. The architecture includes a first coupled basis A1B1 and a second coupled basis A2B2 that does not commute with the first basis A1B1.