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cirq_google.transformers.two_qubit_matrix_to_sycamore_operations

Decomposes a two-qubit unitary matrix into cirq_google.SYC + single qubit rotations.

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Main aliases

cirq_google.transformers.analytical_decompositions.two_qubit_matrix_to_sycamore_operations, cirq_google.transformers.analytical_decompositions.two_qubit_to_sycamore.two_qubit_matrix_to_sycamore_operations, cirq_google.two_qubit_matrix_to_sycamore_operations

cirq_google.transformers.two_qubit_matrix_to_sycamore_operations(
    q0: cirq.Qid,
    q1: cirq.Qid,
    mat: np.ndarray,
    *,
    atol: float = 1e-08,
    clean_operations: bool = True
) -> cirq.OP_TREE

The analytical decomposition first Synthesizes the given operation using cirq.CZPowGate + single qubit rotations and then decomposes each cirq.CZPowGate into cirq_google.SYC + single qubit rotations using cirq_google.known_2q_op_to_sycamore_operations.

Note that the resulting decomposition may not be optimal, and users should first try to decompose a given operation using cirq_google.known_2q_op_to_sycamore_operations.

Args
`q0`	The first qubit being operated on.
`q1`	The other qubit being operated on.
`mat`	Defines the operation to apply to the pair of qubits.
`atol`	A limit on the amount of absolute error introduced by the construction.
`clean_operations`	Merges runs of single qubit gates to a single `cirq.PhasedXZGate` in the resulting operations list.

Returns
A `cirq.OP_TREE` that implements the given unitary operation using only `cirq_google.SYC` + single qubit rotations.

cirq_google.transformers.two_qubit_matrix_to_sycamore_operations

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Args

Returns