Superconducting gate-model quantum computer architectures provide an implementable model for practical quantum computations in the NISQ (noisy intermediate scale quantum) technology era. Due to hardware restrictions and decoherence, generating the physical layout of the quantum circuits of a gate-model quantum computer is a challenge. Here, we define a method for layout generation with a decoherence dynamics estimation in superconducting gate-model quantum computers. We propose an algorithm for the optimal placement of the quantum computational blocks of gate-model quantum circuits. We study the effects of capacitance interference on the distribution of the Gaussian noise in the Josephson energy.

超导门模型量子计算机体系结构为NISQ（嘈杂的中尺度量子）技术时代的实用量子计算提供了一个可实现的模型。由于硬件限制和退相干，生成门模型量子计算机的量子电路的物理布局是一个挑战。在这里，我们定义了一种在超导门模型量子计算机中使用退相干动力学估计进行布局生成的方法。我们提出了一种用于门模型量子电路的量子计算块的最佳放置的算法。我们研究了电容干扰对约瑟夫森能量中高斯噪声分布​​的影响。