示例#1
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    def test_apply_1q_random_ptm(self, state_cls, dm_basis, qubit):
        unity = np.identity(2)
        unitary = random_unitary_matrix(2, 45)
        einsum_args = [unity, [0, 3], unity, [1, 4], unity, [2, 5]]
        einsum_args[2 * qubit] = unitary
        unitary3q = np.einsum(*einsum_args, optimize=True).reshape(8, 8)

        dm_before = random_density_matrix(8, seed=46)
        dm_after = unitary3q @ dm_before @ unitary3q.conj().T
        assert dm_before.trace() == approx(1)
        assert dm_after.trace() == approx(1)

        b = (dm_basis(2), )
        bases = b * 3
        state0 = state_cls.from_dm(dm_before, bases)
        state1 = state_cls.from_dm(dm_after, bases)
        # sanity check
        for q in range(3):
            if q != qubit:
                assert state0.meas_prob(q) == approx(state1.meas_prob(q))
            else:
                assert state0.meas_prob(q) != approx(state1.meas_prob(q))

        ptm = kraus_to_ptm(unitary.reshape(1, 2, 2), b, b)
        state0.apply_ptm(ptm, qubit)
        assert state0.to_pv() == approx(state1.to_pv())
示例#2
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    def test_apply_1q_random_ptm(self, state_cls, dm_basis, qubit):
        unity = np.identity(2)
        unitary = random_unitary_matrix(2, 45)
        einsum_args = [unity, [0, 3], unity, [1, 4], unity, [2, 5]]
        einsum_args[2*qubit] = unitary
        unitary3q = np.einsum(*einsum_args, optimize=True).reshape(8, 8)

        dm_before = random_density_matrix(8, seed=46)
        dm_after = unitary3q @ dm_before @ unitary3q.conj().T
        assert dm_before.trace() == approx(1)
        assert dm_after.trace() == approx(1)

        b = (dm_basis(2),)
        bases = b * 3
        state0 = state_cls.from_dm(dm_before, bases)
        state1 = state_cls.from_dm(dm_after, bases)
        # sanity check
        for q in range(3):
            if q != qubit:
                assert state0.meas_prob(q) == approx(state1.meas_prob(q))
            else:
                assert state0.meas_prob(q) != approx(state1.meas_prob(q))

        ptm = kraus_to_ptm(unitary.reshape(1, 2, 2), b, b)
        state0.apply_ptm(ptm, qubit)
        assert state0.to_pv() == approx(state1.to_pv())
示例#3
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    def test_apply_1q_projecting_ptm(self, pauli_vector_cls, dm_basis, qubit):
        unitary = random_unitary_matrix(2, 45)

        b_in = (dm_basis(2), )
        b_out = (dm_basis(2).subbasis([1]), )
        bases = b_in * 3
        dm_before = random_density_matrix(8, seed=46)
        pv = pauli_vector_cls.from_dm(dm_before, bases)
        pv_before = pv.to_pv()
        ix_out = [0, 1, 2]
        ix_out[qubit] = 3
        ptm = kraus_to_ptm(unitary.reshape(1, 2, 2), b_in, b_out)

        pv_ref = np.einsum(ptm, [3, qubit], pv_before, [0, 1, 2], ix_out)
        pv.apply_ptm(ptm, qubit)
        pv.to_pv() == approx(pv_ref)
示例#4
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    def test_apply_random_ptm1q_state1q(self, state_cls, dm_basis):
        unitary = random_unitary_matrix(2, 45)

        dm_before = random_density_matrix(2, seed=256)
        dm_after = unitary @ dm_before @ unitary.conj().T
        assert dm_before.trace() == approx(1)
        assert dm_after.trace() == approx(1)

        b = (dm_basis(2), )
        state0 = state_cls.from_dm(dm_before, b)
        state1 = state_cls.from_dm(dm_after, b)
        # sanity check
        assert state0.meas_prob(0) != approx(state1.meas_prob(0))

        ptm = kraus_to_ptm(unitary.reshape(1, 2, 2), b, b)
        b_gm = (quantumsim.bases.gell_mann(2), )
        ptm2 = ptm_convert_basis(ptm, b, b, b_gm, b_gm)
        assert np.allclose(ptm2[0, 1:], 0)
        assert ptm2[0, 0] == approx(1)

        state0.apply_ptm(ptm, 0)
        assert state0.to_pv() == approx(state1.to_pv())
示例#5
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    def test_apply_random_ptm1q_state1q(self, state_cls, dm_basis):
        unitary = random_unitary_matrix(2, 45)

        dm_before = random_density_matrix(2, seed=256)
        dm_after = unitary @ dm_before @ unitary.conj().T
        assert dm_before.trace() == approx(1)
        assert dm_after.trace() == approx(1)

        b = (dm_basis(2),)
        state0 = state_cls.from_dm(dm_before, b)
        state1 = state_cls.from_dm(dm_after, b)
        # sanity check
        assert state0.meas_prob(0) != approx(state1.meas_prob(0))

        ptm = kraus_to_ptm(unitary.reshape(1, 2, 2), b, b)
        b_gm = (quantumsim.bases.gell_mann(2),)
        ptm2 = ptm_convert_basis(ptm, b, b, b_gm, b_gm)
        assert np.allclose(ptm2[0, 1:], 0)
        assert ptm2[0, 0] == approx(1)

        state0.apply_ptm(ptm, 0)
        assert state0.to_pv() == approx(state1.to_pv())
示例#6
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    def test_apply_2q_random_ptm(self, state_cls, dm_basis, qubits):
        unity = np.identity(2)
        unitary = random_unitary_matrix(4, 45).reshape(2, 2, 2, 2)
        decay = np.array([[0.9, 0], [0, 0.7]])
        op = decay @ unitary

        q0, q1 = qubits
        (q2, ) = tuple(q for q in range(3) if q not in qubits)
        einsum_args = [op, [q0, q1, q0 + 3, q1 + 3], unity, [q2, q2 + 3]]
        op3q = np.einsum(*einsum_args, optimize=True).reshape(8, 8)

        dm_before = random_density_matrix(8, seed=46)
        dm_after = op3q @ dm_before @ op3q.conj().T
        assert dm_before.trace() == approx(1)
        assert dm_after.trace() < 1.

        b = (dm_basis(2), )
        bases = b * 3
        state0 = state_cls.from_dm(dm_before, bases)
        state1 = state_cls.from_dm(dm_after, bases)

        ptm = kraus_to_ptm(op.reshape(1, 4, 4), b * 2, b * 2)
        state0.apply_ptm(ptm, *qubits)
        assert state0.to_pv() == approx(state1.to_pv())
示例#7
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    def test_apply_2q_random_ptm(self, state_cls, dm_basis, qubits):
        unity = np.identity(2)
        unitary = random_unitary_matrix(4, 45).reshape(2, 2, 2, 2)
        decay = np.array([[0.9, 0], [0, 0.7]])
        op = decay @ unitary

        q0, q1 = qubits
        (q2,) = tuple(q for q in range(3) if q not in qubits)
        einsum_args = [op, [q0, q1, q0+3, q1+3], unity, [q2, q2+3]]
        op3q = np.einsum(*einsum_args, optimize=True).reshape(8, 8)

        dm_before = random_density_matrix(8, seed=46)
        dm_after = op3q @ dm_before @ op3q.conj().T
        assert dm_before.trace() == approx(1)
        assert dm_after.trace() < 1.

        b = (dm_basis(2),)
        bases = b * 3
        state0 = state_cls.from_dm(dm_before, bases)
        state1 = state_cls.from_dm(dm_after, bases)

        ptm = kraus_to_ptm(op.reshape(1, 4, 4), b * 2, b * 2)
        state0.apply_ptm(ptm, *qubits)
        assert state0.to_pv() == approx(state1.to_pv())