def test_analysis(self): wrapper = CircuitWrapper(qiskit_circuit=shor_15()) print(wrapper.circuit) wrapper.unroll_ibm() print(wrapper.circuit) # print(wrapper.circuit) # print(wrapper.depth()) # print(wrapper.depth_gate_times()) print(wrapper.depth_two_qubit_gates())
def depth(): data = request.json circuit = data["circuit"] depth = {} try: wrapper = CircuitWrapper(qiskit_instructions=circuit) wrapper.unroll_ibm() depth["q_depth"] = wrapper.depth() depth["q_two_qubit"] = wrapper.depth_two_qubit_gates() depth["q_gate_times"] = wrapper.depth_gate_times() wrapper = CircuitWrapper(qiskit_instructions=circuit) wrapper.unroll_rigetti() depth["r_depth"] = wrapper.depth() depth["r_two_qubit"] = wrapper.depth_two_qubit_gates() depth["r_gate_times"] = wrapper.depth_gate_times() output = depth except Exception as e: print(str(e)) return str(e), 500 return output
def depth_comparison_qpu(): data = request.json circuit = data["circuit"] depth = {} try: wrapper = CircuitWrapper(qiskit_instructions=circuit) circuit = wrapper.circuit qpu_map = qpus() for qpu_name in qpu_map: wrapper = CircuitWrapper(qiskit_circuit=circuit) is_ibm = False qpu = qpu_map[qpu_name] if qpu[1] == "q": is_ibm = True qpu_multiplier = qpu[1] qpu_coupling = qpu[2] if len(wrapper.dag.qubits) > len(qpu_coupling.physical_qubits): continue if is_ibm: wrapper.unroll_ibm() depth["q_depth"] = wrapper.depth() * qpu_multiplier depth["q_two_qubit"] = wrapper.depth_two_qubit_gates( ) * qpu_multiplier depth["q_gate_times"] = wrapper.depth_gate_times( ) * qpu_multiplier else: wrapper.unroll_rigetti() depth["r_depth"] = wrapper.depth() depth["r_two_qubit"] = wrapper.depth_two_qubit_gates() depth["r_gate_times"] = wrapper.depth_gate_times() output = depth except Exception as e: print(str(e)) return str(e), 500 return output