Create your design of Parameterized Quantum Circuits #18
Comments
I can help out with this project as co-mentor if teams choose to take this. |
Our team wanna join in! |
Hi! Glad to hear that! But we need your team members' Github ID to add you. |
Hello! I'm on his team. Thank you. |
I'm on his team, too. I look forward to your kind cooperation. Thank you! |
Hi, I'm on his team, too. I am grateful for your time. Thank you so much:) |
Me too! |
Oh, I remove myself accidentally.. Can you assign me again? |
Can i get into your group?? |
You are more than welcome! Could you provide your Slack ID & HackerEarth name? |
gyungmin cho is my slack ID! |
Abstract
The good ansatz generation is crucial for any quantum variational algorithm like QAOA and VQE in the NISQ era. Sim at el analyzed various forms of Parameterized Quantum Circuits(PQC) from past studies by introducing the concept of Expressibility and entangling capacity. Create your unique PQC and compare it with benchmark circuits in the paper.
Description
Your PQC should have high expressibility and entanglement capacity with low circuit cost(circuit depth, number of two-qubit gates, number of parameters, etc.) Create your PQC and function or class to measure Expressibility and Entanglement Capacity with
qiskit
API. If possible, utilize theqiskit-aqua
library to test your PQC with any well-known VQA.You may introduce another method to score PQC for the Quantum Hybrid variational algorithm and use it to prove that your circuit performs better, as long as your method efficiently describes the ability of PQC to achieve an arbitrary target state, or is closely related to entanglement measurements, etc.
@0sophy1 provided more intuitive material on medium! Check it out! https://medium.com/qiskit/we-need-new-language-to-discuss-parameterized-quantum-circuits-60672f189b5f
To Do list
Members
@이호준
email:quantum0430@kaist.ac.kr
@Jang Seoyeon
email:9uantum01@khu.ac.kr
@한재훈
email:hansion45@ajou.ac.kr
@진수민
email:example@example.com
@gyungmin cho
email:example@example.com
@Yoonju Oh
email:example@example.com
Deliverable
GitHub repo
Reference
Expressibility and entangling capability of parameterized quantum circuits for hybrid quantum-classical algorithms https://arxiv.org/abs/1905.10876
We Need A New Way to Benchmark Parameterized Quantum Circuits https://medium.com/qiskit/we-need-new-language-to-discuss-parameterized-quantum-circuits-60672f189b5f
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