mindquantum.framework.MQOps
- class mindquantum.framework.MQOps(expectation_with_grad)[source]
MindQuantum operator.
A quantum circuit evolution operator that include encoder and ansatz circuit, who return the expectation of given hamiltonian w.r.t final state of parameterized quantum circuit (PQC). This ops is PYNATIVE_MODE supported only.
- Parameters
expectation_with_grad (GradOpsWrapper) – a grad ops that receive encoder data and ansatz data and return the expectation value and gradient value of parameters respect to expectation.
- Inputs:
enc_data (Tensor) - Tensor of encoder data with shape \((N, M)\) that you want to encode into quantum state, where \(N\) means the batch size and \(M\) means the number of encoder parameters.
ans_data (Tensor) - Tensor with shape \(N\) for ansatz circuit, where \(N\) means the number of ansatz parameters.
- Outputs:
Tensor, The expectation value of the hamiltonian.
- Supported Platforms:
GPU
,CPU
Examples
>>> import numpy as np >>> import mindspore as ms >>> from mindquantum.core.circuit import Circuit >>> from mindquantum.core.operators import Hamiltonian, QubitOperator >>> from mindquantum.framework import MQOps >>> from mindquantum.simulator import Simulator >>> ms.context.set_context(mode=ms.context.PYNATIVE_MODE, device_target="CPU") >>> enc = Circuit().ry('a', 0).as_encoder() >>> ans = Circuit().h(0).rx('b', 0) >>> ham = Hamiltonian(QubitOperator('Z0')) >>> sim = Simulator('projectq', 1) >>> grad_ops = sim.get_expectation_with_grad(ham, enc + ans) >>> enc_data = np.array([[0.1]]) >>> ans_data = np.array([0.2]) >>> f, g_enc, g_ans = grad_ops(enc_data, ans_data) >>> f array([[0.0978434+0.j]]) >>> net = MQOps(grad_ops) >>> f_ms = net(ms.Tensor(enc_data), ms.Tensor(ans_data)) >>> f_ms Tensor(shape=[1, 1], dtype=Float32, value= [[ 9.78433937e-02]])