| /dports/science/py-cirq-ionq/Cirq-0.13.1/cirq-ionq/cirq_ionq/ |
| H A D | results_test.py | 26 assert result.num_qubits() == 1
31 result = ionq.QPUResult({0: 10, 1: 10}, num_qubits=2, measurement_dict={})
38 ionq.QPUResult({0: 10, 1: 10}, num_qubits=1, measurement_dict={'a': [0]}),
39 ionq.QPUResult({0: 10, 1: 10}, num_qubits=1, measurement_dict={'a': [0]}),
42 ionq.QPUResult({0: 10, 1: 20}, num_qubits=1, measurement_dict={'a': [0]})
45 ionq.QPUResult({0: 15, 1: 15}, num_qubits=1, measurement_dict={'a': [0]})
48 ionq.QPUResult({0: 10, 1: 10}, num_qubits=2, measurement_dict={'a': [0]})
143 num_qubits=1,
148 assert result.num_qubits() == 1
293 num_qubits=3,
[all …]
|
| /dports/science/py-cirq-pasqal/Cirq-0.13.1/cirq-ionq/cirq_ionq/ |
| H A D | results_test.py | 26 assert result.num_qubits() == 1
31 result = ionq.QPUResult({0: 10, 1: 10}, num_qubits=2, measurement_dict={})
38 ionq.QPUResult({0: 10, 1: 10}, num_qubits=1, measurement_dict={'a': [0]}),
39 ionq.QPUResult({0: 10, 1: 10}, num_qubits=1, measurement_dict={'a': [0]}),
42 ionq.QPUResult({0: 10, 1: 20}, num_qubits=1, measurement_dict={'a': [0]})
45 ionq.QPUResult({0: 15, 1: 15}, num_qubits=1, measurement_dict={'a': [0]})
48 ionq.QPUResult({0: 10, 1: 10}, num_qubits=2, measurement_dict={'a': [0]})
143 num_qubits=1,
148 assert result.num_qubits() == 1
293 num_qubits=3,
[all …]
|
| /dports/science/py-cirq-core/Cirq-0.13.1/cirq-ionq/cirq_ionq/ |
| H A D | results_test.py | 26 assert result.num_qubits() == 1
31 result = ionq.QPUResult({0: 10, 1: 10}, num_qubits=2, measurement_dict={})
38 ionq.QPUResult({0: 10, 1: 10}, num_qubits=1, measurement_dict={'a': [0]}),
39 ionq.QPUResult({0: 10, 1: 10}, num_qubits=1, measurement_dict={'a': [0]}),
42 ionq.QPUResult({0: 10, 1: 20}, num_qubits=1, measurement_dict={'a': [0]})
45 ionq.QPUResult({0: 15, 1: 15}, num_qubits=1, measurement_dict={'a': [0]})
48 ionq.QPUResult({0: 10, 1: 10}, num_qubits=2, measurement_dict={'a': [0]})
143 num_qubits=1,
148 assert result.num_qubits() == 1
293 num_qubits=3,
[all …]
|
| /dports/science/py-cirq-google/Cirq-0.13.0/cirq-ionq/cirq_ionq/ |
| H A D | results_test.py | 26 assert result.num_qubits() == 1
31 result = ionq.QPUResult({0: 10, 1: 10}, num_qubits=2, measurement_dict={})
38 ionq.QPUResult({0: 10, 1: 10}, num_qubits=1, measurement_dict={'a': [0]}),
39 ionq.QPUResult({0: 10, 1: 10}, num_qubits=1, measurement_dict={'a': [0]}),
42 ionq.QPUResult({0: 10, 1: 20}, num_qubits=1, measurement_dict={'a': [0]})
45 ionq.QPUResult({0: 15, 1: 15}, num_qubits=1, measurement_dict={'a': [0]})
48 ionq.QPUResult({0: 10, 1: 10}, num_qubits=2, measurement_dict={'a': [0]})
143 num_qubits=1,
148 assert result.num_qubits() == 1
293 num_qubits=3,
[all …]
|
| /dports/science/py-cirq-aqt/Cirq-0.12.0/cirq-ionq/cirq_ionq/ |
| H A D | results_test.py | 26 assert result.num_qubits() == 1
31 result = ionq.QPUResult({0: 10, 1: 10}, num_qubits=2, measurement_dict={})
38 ionq.QPUResult({0: 10, 1: 10}, num_qubits=1, measurement_dict={'a': [0]}),
39 ionq.QPUResult({0: 10, 1: 10}, num_qubits=1, measurement_dict={'a': [0]}),
42 ionq.QPUResult({0: 10, 1: 20}, num_qubits=1, measurement_dict={'a': [0]})
45 ionq.QPUResult({0: 15, 1: 15}, num_qubits=1, measurement_dict={'a': [0]})
48 ionq.QPUResult({0: 10, 1: 10}, num_qubits=2, measurement_dict={'a': [0]})
143 num_qubits=1,
148 assert result.num_qubits() == 1
293 num_qubits=3,
[all …]
|
| /dports/science/py-cirq-aqt/Cirq-0.12.0/examples/ |
| H A D | bb84.py | 112 def main(num_qubits=8): argument
115 alice_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
116 alice_state = [np.random.randint(0, 2) for _ in range(num_qubits)]
117 bob_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
143 alice_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
144 alice_state = [np.random.randint(0, 2) for _ in range(num_qubits)]
145 bob_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
146 eve_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
180 def make_bb84_circ(num_qubits, alice_basis, bob_basis, alice_state): argument
182 qubits = [cirq.LineQubit(i) for i in range(num_qubits)]
[all …]
|
| /dports/science/py-cirq-ionq/Cirq-0.13.1/examples/ |
| H A D | bb84.py | 112 def main(num_qubits=8): argument
115 alice_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
116 alice_state = [np.random.randint(0, 2) for _ in range(num_qubits)]
117 bob_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
143 alice_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
144 alice_state = [np.random.randint(0, 2) for _ in range(num_qubits)]
145 bob_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
146 eve_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
180 def make_bb84_circ(num_qubits, alice_basis, bob_basis, alice_state): argument
182 qubits = [cirq.LineQubit(i) for i in range(num_qubits)]
[all …]
|
| /dports/science/py-cirq-pasqal/Cirq-0.13.1/examples/ |
| H A D | bb84.py | 112 def main(num_qubits=8): argument
115 alice_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
116 alice_state = [np.random.randint(0, 2) for _ in range(num_qubits)]
117 bob_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
143 alice_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
144 alice_state = [np.random.randint(0, 2) for _ in range(num_qubits)]
145 bob_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
146 eve_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
180 def make_bb84_circ(num_qubits, alice_basis, bob_basis, alice_state): argument
182 qubits = [cirq.LineQubit(i) for i in range(num_qubits)]
[all …]
|
| /dports/science/py-cirq-core/Cirq-0.13.1/examples/ |
| H A D | bb84.py | 112 def main(num_qubits=8): argument
115 alice_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
116 alice_state = [np.random.randint(0, 2) for _ in range(num_qubits)]
117 bob_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
143 alice_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
144 alice_state = [np.random.randint(0, 2) for _ in range(num_qubits)]
145 bob_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
146 eve_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
180 def make_bb84_circ(num_qubits, alice_basis, bob_basis, alice_state): argument
182 qubits = [cirq.LineQubit(i) for i in range(num_qubits)]
[all …]
|
| /dports/science/py-cirq-google/Cirq-0.13.0/examples/ |
| H A D | bb84.py | 112 def main(num_qubits=8): argument
115 alice_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
116 alice_state = [np.random.randint(0, 2) for _ in range(num_qubits)]
117 bob_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
143 alice_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
144 alice_state = [np.random.randint(0, 2) for _ in range(num_qubits)]
145 bob_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
146 eve_basis = [np.random.randint(0, 2) for _ in range(num_qubits)]
180 def make_bb84_circ(num_qubits, alice_basis, bob_basis, alice_state): argument
182 qubits = [cirq.LineQubit(i) for i in range(num_qubits)]
[all …]
|
| /dports/science/py-cirq-aqt/Cirq-0.12.0/cirq-core/cirq/qis/ |
| H A D | clifford_tableau_test.py | 48 for i in range(2 ** num_qubits):
49 t = cirq.CliffordTableau(initial_state=i, num_qubits=num_qubits)
52 for n in range(num_qubits):
68 t = cirq.CliffordTableau(num_qubits=2)
77 t = cirq.CliffordTableau(num_qubits=2)
181 num_qubits = 4
182 for i in range(2 ** num_qubits):
183 t = cirq.CliffordTableau(initial_state=i, num_qubits=num_qubits)
320 def _three_identical_table(num_qubits): argument
378 if num_qubits > 1:
[all …]
|
| /dports/science/py-cirq-pasqal/Cirq-0.13.1/cirq-core/cirq/qis/ |
| H A D | clifford_tableau_test.py | 48 for i in range(2 ** num_qubits):
49 t = cirq.CliffordTableau(initial_state=i, num_qubits=num_qubits)
52 for n in range(num_qubits):
68 t = cirq.CliffordTableau(num_qubits=2)
77 t = cirq.CliffordTableau(num_qubits=2)
181 num_qubits = 4
182 for i in range(2 ** num_qubits):
183 t = cirq.CliffordTableau(initial_state=i, num_qubits=num_qubits)
320 def _three_identical_table(num_qubits): argument
378 if num_qubits > 1:
[all …]
|
| /dports/science/py-cirq-google/Cirq-0.13.0/cirq-core/cirq/qis/ |
| H A D | clifford_tableau_test.py | 48 for i in range(2 ** num_qubits):
49 t = cirq.CliffordTableau(initial_state=i, num_qubits=num_qubits)
52 for n in range(num_qubits):
68 t = cirq.CliffordTableau(num_qubits=2)
77 t = cirq.CliffordTableau(num_qubits=2)
181 num_qubits = 4
182 for i in range(2 ** num_qubits):
183 t = cirq.CliffordTableau(initial_state=i, num_qubits=num_qubits)
320 def _three_identical_table(num_qubits): argument
378 if num_qubits > 1:
[all …]
|
| /dports/science/py-cirq-core/Cirq-0.13.1/cirq-core/cirq/qis/ |
| H A D | clifford_tableau_test.py | 48 for i in range(2 ** num_qubits):
49 t = cirq.CliffordTableau(initial_state=i, num_qubits=num_qubits)
52 for n in range(num_qubits):
68 t = cirq.CliffordTableau(num_qubits=2)
77 t = cirq.CliffordTableau(num_qubits=2)
181 num_qubits = 4
182 for i in range(2 ** num_qubits):
183 t = cirq.CliffordTableau(initial_state=i, num_qubits=num_qubits)
320 def _three_identical_table(num_qubits): argument
378 if num_qubits > 1:
[all …]
|
| /dports/science/py-cirq-ionq/Cirq-0.13.1/cirq-core/cirq/qis/ |
| H A D | clifford_tableau_test.py | 48 for i in range(2 ** num_qubits):
49 t = cirq.CliffordTableau(initial_state=i, num_qubits=num_qubits)
52 for n in range(num_qubits):
68 t = cirq.CliffordTableau(num_qubits=2)
77 t = cirq.CliffordTableau(num_qubits=2)
181 num_qubits = 4
182 for i in range(2 ** num_qubits):
183 t = cirq.CliffordTableau(initial_state=i, num_qubits=num_qubits)
320 def _three_identical_table(num_qubits): argument
378 if num_qubits > 1:
[all …]
|
| /dports/devel/py-qutip/qutip-4.6.2/qutip/tests/ |
| H A D | test_device.py | 97 state = qutip.rand_ket(2**num_qubits)
98 state.dims = [[2]*num_qubits, [1]*num_qubits]
110 num_qubits = 3
117 state = qutip.rand_ket(2**num_qubits)
118 state.dims = [[2]*num_qubits, [1]*num_qubits]
120 if len(device.dims) > num_qubits:
131 if len(device.dims) > num_qubits:
160 num_qubits = circuit.N
165 state.dims = [[2]*num_qubits, [1]*num_qubits]
167 if len(device.dims) > num_qubits:
[all …]
|
| /dports/science/qiskit-aer/qiskit-aer-0.5.2/test/benchmark/ |
| H A D | tools.py | 105 qr = QuantumRegister(num_qubits)
110 perm = rng.permutation(num_qubits)
126 def qft_circuit(num_qubits, measure=True): argument
137 qr = QuantumRegister(num_qubits)
140 for i in range(num_qubits):
161 qr = QuantumRegister(num_qubits)
163 for i in range(num_qubits):
182 qr = QuantumRegister(num_qubits)
184 for i in range(num_qubits):
204 qreg = QuantumRegister(num_qubits)
[all …]
|
| /dports/science/py-cirq-aqt/Cirq-0.12.0/cirq-core/cirq/ops/ |
| H A D | measurement_gate_test.py | 31 def test_measure_init(num_qubits): argument
32 assert cirq.MeasurementGate(num_qubits, 'a').num_qubits() == num_qubits
33 assert cirq.MeasurementGate(num_qubits, key='a').key == 'a'
37 num_qubits, key='a'
40 assert cirq.qid_shape(cirq.MeasurementGate(num_qubits, 'a')) == (2,) * num_qubits
54 def test_has_stabilizer_effect(num_qubits): argument
100 assert gate1.num_qubits() == gate.num_qubits()
119 gate = cirq.MeasurementGate(num_qubits, key='a', invert_mask=mask, qid_shape=(3,) * num_qubits)
123 assert gate1.num_qubits() == gate.num_qubits()
261 gate = cirq.MeasurementGate(num_qubits=n, key='a')
[all …]
|
| H A D | identity.py | 53 if num_qubits is None:
55 qid_shape = (2,) * num_qubits
56 elif num_qubits is None:
57 num_qubits = len(qid_shape)
59 if len(self._qid_shape) != num_qubits:
68 def num_qubits(self) -> int: member in IdentityGate
88 return value.LinearDict({'I' * self.num_qubits(): 1.0})
101 if self.num_qubits() == 1:
133 return ('I',) * self.num_qubits()
146 return cls(num_qubits=num_qubits, qid_shape=None if qid_shape is None else tuple(qid_shape))
[all …]
|
| /dports/science/py-cirq-pasqal/Cirq-0.13.1/cirq-core/cirq/ops/ |
| H A D | measurement_gate_test.py | 39 def test_measure_init(num_qubits): argument
40 assert cirq.MeasurementGate(num_qubits, 'a').num_qubits() == num_qubits
41 assert cirq.MeasurementGate(num_qubits, key='a').key == 'a'
45 num_qubits, key='a'
48 assert cirq.qid_shape(cirq.MeasurementGate(num_qubits, 'a')) == (2,) * num_qubits
62 def test_has_stabilizer_effect(num_qubits): argument
108 assert gate1.num_qubits() == gate.num_qubits()
127 gate = cirq.MeasurementGate(num_qubits, key='a', invert_mask=mask, qid_shape=(3,) * num_qubits)
131 assert gate1.num_qubits() == gate.num_qubits()
269 gate = cirq.MeasurementGate(num_qubits=n, key='a')
[all …]
|
| H A D | identity.py | 55 if num_qubits is None:
57 qid_shape = (2,) * num_qubits
58 elif num_qubits is None:
59 num_qubits = len(qid_shape)
61 if len(self._qid_shape) != num_qubits:
71 def num_qubits(self) -> int: member in IdentityGate
91 return value.LinearDict({'I' * self.num_qubits(): 1.0})
104 if self.num_qubits() == 1:
136 return ('I',) * self.num_qubits()
149 return cls(num_qubits=num_qubits, qid_shape=None if qid_shape is None else tuple(qid_shape))
[all …]
|
| /dports/science/py-cirq-google/Cirq-0.13.0/cirq-core/cirq/ops/ |
| H A D | measurement_gate_test.py | 39 def test_measure_init(num_qubits): argument
40 assert cirq.MeasurementGate(num_qubits, 'a').num_qubits() == num_qubits
41 assert cirq.MeasurementGate(num_qubits, key='a').key == 'a'
45 num_qubits, key='a'
48 assert cirq.qid_shape(cirq.MeasurementGate(num_qubits, 'a')) == (2,) * num_qubits
62 def test_has_stabilizer_effect(num_qubits): argument
108 assert gate1.num_qubits() == gate.num_qubits()
127 gate = cirq.MeasurementGate(num_qubits, key='a', invert_mask=mask, qid_shape=(3,) * num_qubits)
131 assert gate1.num_qubits() == gate.num_qubits()
269 gate = cirq.MeasurementGate(num_qubits=n, key='a')
[all …]
|
| /dports/science/py-cirq-ionq/Cirq-0.13.1/cirq-core/cirq/ops/ |
| H A D | measurement_gate_test.py | 39 def test_measure_init(num_qubits): argument
40 assert cirq.MeasurementGate(num_qubits, 'a').num_qubits() == num_qubits
41 assert cirq.MeasurementGate(num_qubits, key='a').key == 'a'
45 num_qubits, key='a'
48 assert cirq.qid_shape(cirq.MeasurementGate(num_qubits, 'a')) == (2,) * num_qubits
62 def test_has_stabilizer_effect(num_qubits): argument
108 assert gate1.num_qubits() == gate.num_qubits()
127 gate = cirq.MeasurementGate(num_qubits, key='a', invert_mask=mask, qid_shape=(3,) * num_qubits)
131 assert gate1.num_qubits() == gate.num_qubits()
269 gate = cirq.MeasurementGate(num_qubits=n, key='a')
[all …]
|
| /dports/science/py-cirq-core/Cirq-0.13.1/cirq-core/cirq/ops/ |
| H A D | measurement_gate_test.py | 39 def test_measure_init(num_qubits): argument
40 assert cirq.MeasurementGate(num_qubits, 'a').num_qubits() == num_qubits
41 assert cirq.MeasurementGate(num_qubits, key='a').key == 'a'
45 num_qubits, key='a'
48 assert cirq.qid_shape(cirq.MeasurementGate(num_qubits, 'a')) == (2,) * num_qubits
62 def test_has_stabilizer_effect(num_qubits): argument
108 assert gate1.num_qubits() == gate.num_qubits()
127 gate = cirq.MeasurementGate(num_qubits, key='a', invert_mask=mask, qid_shape=(3,) * num_qubits)
131 assert gate1.num_qubits() == gate.num_qubits()
269 gate = cirq.MeasurementGate(num_qubits=n, key='a')
[all …]
|
| H A D | identity.py | 55 if num_qubits is None:
57 qid_shape = (2,) * num_qubits
58 elif num_qubits is None:
59 num_qubits = len(qid_shape)
61 if len(self._qid_shape) != num_qubits:
71 def num_qubits(self) -> int: member in IdentityGate
91 return value.LinearDict({'I' * self.num_qubits(): 1.0})
104 if self.num_qubits() == 1:
136 return ('I',) * self.num_qubits()
149 return cls(num_qubits=num_qubits, qid_shape=None if qid_shape is None else tuple(qid_shape))
[all …]
|