دسته بندی:

محاسبات کوانتومی - Quantum-Computing

---

سال انتشار:

2022

---

عنوان انگلیسی مقاله:

Pulse-Engineered Controlled-V Gate and Its Applications on Superconducting Quantum Device

---

ترجمه فارسی عنوان مقاله:

گیت کنترل شده-V با مهندسی پالس و کاربردهای آن در دستگاه کوانتومی ابررسانا

---

منبع:

ieee - ieee Transactions on Quantum Engineering;2022;3; ;10:1109/TQE:2022:3170008

---

نویسنده:

TAKAHIKO SATOH1,2 , SHUN OOMURA1,2, MICHIHIKO SUGAWARA1,2, AND NAOKI YAMAMOTO

---

چکیده انگلیسی:

In this article, we demonstrate that, by employing the OpenPulse design kit for IBM superconducting quantum devices, the controlled-V gate (cv gate) can be implemented in about half the gate time to the controlled-X gate (cx or cnot gate) and consequently 65.5% reduced gate time compared to the cx-based implementation of cv. Then, based on the theory of Cartan decomposition, we characterize the set of all two-qubit gates implemented with only two or three cv gates; using pulse-engineered cv gates, enables us to implement these gates with shorter gate time and possibly better gate fidelity than the cx-based one, as actually demonstrated in two examples. Moreover, we showcase the improvement of linearly coupled three-qubit Toffoli gate by implementing it with the pulse-engineered cv gate, both in gate time and the averaged output-state fidelity. These results imply the importance of our cv gate implementation technique, which, as an additional option for the basis gate set design, may shorten the overall computation time and consequently improve the precision of several quantum algorithms executed on a real device.
INDEX TERMS: Controlled-V gate (cv gate) | IBM quantum device | OpenPulse.

---

---

قیمت: رایگان

---

توضیحات اضافی:

---

---

---