cmp-mlの皆様
おはようございます。
7/25 (月) 16:00より物性研究所理論セミナーにおいて東京工業大学の
松下雄一郎先生に
「Imaginary-time evolution algorithm on quantum computers and
its perspective on quantum chemical calculations」
と題して、量子計算アルゴリズムと量子化学計算に関して最近の
ご研究をお話し頂きます。
Zoomでの開催となっておりますので、下記の案内より事前登録を
お願い致します。
皆様方のご参加をお待ちしております。
尾崎泰助
東京大学物性研究所
—
前略
下記のとおり、物性研究所 理論セミナーを行いますのでお知らせいたします。
皆様のご参加を歓迎致します。
* ZOOMでの開催となりますので、事前登録を下記リンク先にてお願い致します。
URL: forms.gle/jfNjNXAdJg6negYW9
Dear Colleagues,
The following Theory Seminar on ZOOM will be held.
You are very welcome to attend. (Please register in advance.)
URL: forms.gle/jfNjNXAdJg6negYW9
============================
Date:Jul. 25 (Mon.), 2022 16:00-17:00
Place: On Zoom (Access information will be provided to you after the
registration)
Speaker: Prof. Yu-ichiro Matsushita
Affiliation: Tokyo Institute of Technology, Quemix Inc., National
Institutes for Quantum Science and Technology
Title:
Imaginary-time evolution algorithm on quantum computers and its perspective
on quantum chemical calculations
Abstract:
Currently, quantum chemical calculations using quantum computers are
attracting a great deal of attention. We have been developing algorithms for
quantum chemical calculations using quantum computers. In particular, we
have recently focused on the imaginary-time evolution method. Note that
algorithms using quantum computers must be expressed in terms of unitary
operations and observations for each qubit. Therefore, it was a nontrivial
problem how to perform the imaginary-time evolution operator, which is a
non-unitary operation, on a quantum computer. We have developed a method to
implement the imaginary-time evolution algorithm in a form using auxiliary
bits and proposed a method of first-quantized eigensolver for quantum
chemistry for ground states based on the imaginary-time evolution method
[1]. Furthermore, we have been working on developing algorithms to reduce
errors when performing calculations on quantum computers [2]. In this
presentation, we will discuss the fundamentals of quantum computers, the
implementation of the imaginary-time evolution algorithm, the computational
cost of implementing the imaginary-time evolution algorithm for materials
calculations, and the error mitigation algorithms we have been developing.
[1] T. Kosugi, Y. Nishiya, and Y. Matsushita, arXiv: 2111.12471 (2021). To
be published in Physical Review Research.
[2] Y. Hama and H. Nishi, arXiv: 2205.13907 (2022).
Please also refer to the following URL:
www.issp.u-tokyo.ac.jp/maincontents/seminar/all2_en.html?pid=16215&p
type=seminar
www.issp.u-tokyo.ac.jp/maincontents/seminar/all2.html?pid=16215&ptyp
e=seminar
Contact: Taisuke Ozaki
e-mail: t-ozaki@issp.u-tokyo.ac.jp
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