# Create the actual circuitq2=QuantumRegister(6)bell=QuantumCircuit(q2)bell.h(q2[3])bell.cx(q2[3],q2[5])print(bell)# 结果q1_0:──────────q1_1:──────────q1_2:──────────┌───┐q1_3:┤H├──■──└───┘│q1_4:───────┼──...
或者甚至1000)。 num_qubits=50circ=QuantumCircuit(num_qubits,num_qubits)# Create EPR statecirc.h(0)foriinrange(0,num_qubits-1):circ.cx(i,i+1)# Measurecirc.measure(range(num_qubits),range(num_qubits))tcirc=transpile(circ,simulator)result=simulator.run(tcirc).result()print("Time taken: ...
fromqiskitimportQuantumCircuit# Create a circuit with a register of three qubitscirc=QuantumCircuit(3)# H gate on qubit 0, putting this qubit in a superposition of |0> + |1>.circ.h(0)# A CX (CNOT) gate on control qubit 0 and target qubit 1 generating a Bell state.circ.cx(0,1)...
load_account() # Create a Quantum Circuit acting # on the q register circuit = QuantumCircuit(2, 2) # Add a H gate on qubit 0 circuit.h(0) # Add a CX (CNOT) gate on control # qubit 0 and target qubit 1 circuit.cx(0, 1) # Map the quantum measurement to the # classical ...
# Create a Quantum Circuit acting # on the q register circuit=QuantumCircuit(2,2) # Add a H gate on qubit 0 circuit.h(0) # Add a CX (CNOT) gate on control # qubit 0 and target qubit 1 circuit.cx(0,1) # Map the quantum measurement to the ...
However, it is difficult to compare the power of the IBM chip with previous processors. Both Google and USTC used a common test to assess such chips, which was to simulate a quantum circuit and sample random numbers from its output. IBM claims to have created a more programmable and adaptab...
() # Create a Quantum Circuit acting # on the q register circuit = QuantumCircuit(2, 2) # Add a H gate on qubit 0 circuit.h(0) # Add a CX (CNOT) gate on control # qubit 0 and target qubit 1 circuit.cx(0, 1) # Map the quantum measurement to the # classical bits circuit....
截至2020年底,研究团队提供了确凿的证据,表明即使在仅有经典数据的情况下,他们设计的量子特征图电路(quantum feature map circuit)也超越了所有已知的二进制经典分类器。这一显著进步不仅开拓了量子计算在数据预测、特征推断和风险分析等领域的新应用,同时也标志着量子机器学习迈入了一个全新的发展阶段。
users can seamlessly create quantum algorithms and applications from a collection of foundational building blocks and execute those Patterns using heterogeneous computing infrastructure such as Quantum Serverless. This allows for targeted quantum acceleration of preexisting enterprise scale workflows and provides...
When combined into binary code and manipulated by using logic operations, we can use computers to create everything from simple operating systems to the most advanced supercomputing calculations. What is a quantum computer? Quantum computers function similarly to classical computers, but instead of bits...