def test_reset_deterministic(self):
"""Test StatevectorSimulator reset with for circuits with deterministic counts"""
# For statevector output we can combine deterministic and non-deterministic
# count output circuits
circuits = ref_reset.reset_circuits_deterministic(final_measure=False)
targets = ref_reset.reset_statevector_deterministic()
job = execute(circuits, StatevectorSimulator(), shots=1)
result = job.result()
self.assertTrue(getattr(result, 'success', False))
self.compare_statevector(result, circuits, targets)
def test_reset_deterministic(self):
"""Test StatevectorSimulator reset with for circuits with deterministic counts"""
# For statevector output we can combine deterministic and non-deterministic
# count output circuits
circuits = ref_reset.reset_circuits_deterministic(final_measure=False)
targets = ref_reset.reset_statevector_deterministic()
job = execute(circuits, self.SIMULATOR, shots=1, **self.BACKEND_OPTS)
result = job.result()
self.assertSuccess(result)
self.compare_statevector(result, circuits, targets)
def test_reset_deterministic(self, device):
"""Test StatevectorSimulator reset with for circuits with deterministic counts"""
# For statevector output we can combine deterministic and non-deterministic
# count output circuits
backend = self.backend(device=device)
circuits = ref_reset.reset_circuits_deterministic(final_measure=False)
circuits = transpile(circuits, backend, optimization_level=1)
result = backend.run(circuits, shots=1).result()
targets = ref_reset.reset_statevector_deterministic()
self.assertSuccess(result)
self.compare_statevector(result, circuits, targets)
def test_reset_deterministic(self, method, device):
"""Test AerSimulator reset with for circuits with deterministic counts"""
backend = self.backend(method=method, device=device)
# For statevector output we can combine deterministic and non-deterministic
# count output circuits
shots = 100
circuits = ref_reset.reset_circuits_deterministic(final_measure=True)
targets = ref_reset.reset_counts_deterministic(shots)
result = backend.run(circuits, shots=shots).result()
self.assertSuccess(result)
self.compare_counts(result, circuits, targets, delta=0)
def test_reset_deterministic(self):
"""Test ExtendedStabilizer reset with for circuits with deterministic counts"""
# For statevector output we can combine deterministic and non-deterministic
# count output circuits
shots = 100
circuits = ref_reset.reset_circuits_deterministic(final_measure=True)
qobj = assemble(circuits, QasmSimulator(), shots=shots)
targets = ref_reset.reset_counts_deterministic(shots)
job = QasmSimulator().run(qobj, **self.BACKEND_OPTS)
result = job.result()
self.assertSuccess(result)
self.compare_counts(result, circuits, targets, delta=0)
def test_reset_deterministic(self):
"""Test QasmSimulator reset with for circuits with deterministic counts"""
# For statevector output we can combine deterministic and non-deterministic
# count output circuits
shots = 100
circuits = ref_reset.reset_circuits_deterministic(final_measure=True)
targets = ref_reset.reset_counts_deterministic(shots)
qobj = assemble(circuits, self.SIMULATOR, shots=shots)
result = self.SIMULATOR.run(
qobj, backend_options=self.BACKEND_OPTS).result()
self.is_completed(result)
self.compare_counts(result, circuits, targets, delta=0)
def test_reset_deterministic(self):
"""Test ExtendedStabilizer reset with for circuits with deterministic counts"""
# For statevector output we can combine deterministic and non-deterministic
# count output circuits
shots = 100
circuits = ref_reset.reset_circuits_deterministic(final_measure=True)
qobj = assemble(circuits, QasmSimulator(), shots=shots)
targets = ref_reset.reset_counts_deterministic(shots)
job = QasmSimulator().run(
qobj, backend_options={"method": "extended_stabilizer"})
result = job.result()
self.is_completed(result)
self.compare_counts(result, circuits, targets, delta=0)
