ICECS 2024 Satellite Workshop: Full-Stack Quantum Computing

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Full Stack Quantum Computer

Satellite Workshop.

Prouvé Convention Centern Nancy France.
18 November 2024, 9am.

This workshop offers a comprehensive and up-to-date exploration of the quantum computing field and will be suitable for specialists with a background in engineering and science. The workshop focuses on selected technological aspects (e.g., qubit design, measurement techniques, and the cryogenic control electronics essential for quantum computing) and on the core differences between the classical and quantum computation paradigms.

The workshop program covers the following topics: difference between the classical and quantum paradigms of computation paradigms, the physics behind the semiconductor implementation of quantum bits, techniques for measuring qubit states and circuit design tailored for quantum and cryogenic applications. The workshop aims at bridging several scientific communities by inviting speakers from different scientific backgrounds, including fundamental physics, electron device physics, computer science and circuit design.

The workshop includes two sessions: a tutorial session presented by invited speakers, followed by a one-hour poster session. The workshop offers a possibility of two-page paper publication on IEEExplore, after a peer-review process organized by the workshop committee. The accepted presentations will be presented during the workshop poster session.

Program

Workshop

Classical and Quantum
Computing Paradigms

Quantum Computing with Silicon
Spin Qubits

Electronics and Cryo-CMOS for Quantum

Quantum Computations and Algorithms

SoCs for Ion Shuttling for Quantum Computing

Technical Poster Session

Workshop registration

Please complete the form below to register for the workshop.

Speakers

Prof Elena Blokhina

Elena Blokhina (SMIEEE, HDR engineering, PhD physical and mathematical sciences and MSc physics) is with University College Dublin Ireland and Equal1 Laboratories Ireland (CSO). Her research interests include semiconductor devices, quantum computing and quantum information processing, quantum dots, semiconductor qubits and microelectronic systems.

Conor Power

Conor Power has been a PhD student at UCD since September 2021, working on modelling and simulation of quantum computer architectures. He received his ME degree in Electronic and Computer Engineering in 2018 and BSc degree in Engineering Science from 2016, both from University College Dublin (UCD), Ireland. He worked full time as an analog IC design engineer at Adesto/Dialog Semiconductor from 2019-2021. He received the best Student Poster Award at ICECS 2022.

Dr Niall Murphy

Niall Murphy is a theoretical computer scientist broadly interested in computation no matter the form. Niall has worked on information processing in bacteria, and chemical reactions. Despite having avoided computation in silicon computers for as long as possible, he is now the Algorithms lead at Equal1 an Irish quantum computing start up developing silicon qubit hardware.

Dr Stavroula Kapoulea

Dr. Stavroula Kapoulea is a Postdoctoral Research Associate at the James Watt School of Engineering, University of Glasgow, specializing in cryogenic nanoelectronics for quantum computing. She holds a BSc in Physics, an MSc in Electronics, and a PhD in advanced analog integrated circuits from the University of Patras. Her work focuses on developing low-power CMOS cryogenic electronics for scalable quantum systems. Dr. Kapoulea has published 49 peer-reviewed papers and conference proceedings, co-authored 3 book chapters, and won prestigious awards, including the Armen H. Zemanian Best Paper Award (2018) and the AEUE Best Paper Award (2021).

Alexander Meyer

Alexander Meyer received his bachelor’s and master’s degree from RWTH Aachen University in 2017 and 2019. Alexander worked as a researcher in the group of Prof. Stefan Heinen at RWTH Aachen University from 2019 to 2021 and joined the research group of Prof. Vadim Issakov at Technical University Braunschweig in 2021 as a PhD Candidate. Alexander’s research focuses on Analog-Mixed-Signal circuitry including ADCs, TDCs and DACs, mainly on the development of DACs for cryogenic applications, notably within a shuttling controller for a Trapped-Ion-Quantum Computer.