- 160
- 11 255
INQA
เข้าร่วมเมื่อ 13 ก.ค. 2022
The International Network on Quantum Annealing (INQA) unifies the research activities of major global collaborations in quantum annealing in North America, Japan, the European Union and the United Kingdom.
By hosting weekly on-line seminars and annual international conferences and by funding exchange visits, the INQA network will address the key topics which will enable quantum annealing to move towards a true quantum scaling advantage over classical approaches to NP-hard computational problems.
The topics INQA will focus on include:
Exploiting quantum coherence
Extending the order and degree of qubit interactions
Strategies for error correction and
Exploiting diabaticity and non-stoquasticity in a systematic way
Website: www.ucl.ac.uk/quantum/INQA
Contact: contact.inqa@gmail.com
By hosting weekly on-line seminars and annual international conferences and by funding exchange visits, the INQA network will address the key topics which will enable quantum annealing to move towards a true quantum scaling advantage over classical approaches to NP-hard computational problems.
The topics INQA will focus on include:
Exploiting quantum coherence
Extending the order and degree of qubit interactions
Strategies for error correction and
Exploiting diabaticity and non-stoquasticity in a systematic way
Website: www.ucl.ac.uk/quantum/INQA
Contact: contact.inqa@gmail.com
INQA Conference 2024: Constantin Dalyac - Pasqal, France
Title: Probing for quantum advantage with neutral atoms
Abstract: Neutral atoms are emerging as a promising platform to demonstrate quantum advantage in the near future. In this talk, I will present recent advancements in leveraging the quantum many-body dynamics of neutral atoms for various applications, including quantum simulation and graph machine learning. By exploring these applications, we have systematically benchmarked the capabilities of neutral atom systems against classical state-of-the-art methods. I will discuss our findings on which branch of these applications holds the greatest potential for achieving quantum advantage and provide new insights into the practical impact of neutral atom-based quantum technologies.
Abstract: Neutral atoms are emerging as a promising platform to demonstrate quantum advantage in the near future. In this talk, I will present recent advancements in leveraging the quantum many-body dynamics of neutral atoms for various applications, including quantum simulation and graph machine learning. By exploring these applications, we have systematically benchmarked the capabilities of neutral atom systems against classical state-of-the-art methods. I will discuss our findings on which branch of these applications holds the greatest potential for achieving quantum advantage and provide new insights into the practical impact of neutral atom-based quantum technologies.
มุมมอง: 44
วีดีโอ
INQA Conference 2024: Johan Aakerman - University of Gothenburg, Sweden
มุมมอง 2414 ชั่วโมงที่ผ่านมา
Title: Spin and Acoustic Wave based Ising Machines Abstract: Time-multiplexed Ising machines (IMs) [1] have been successfully demonstrated using phase-binarized coherent optical pulses in kilometer-long optical fibers [2]. While the time-multiplexed approach results in an all-to-all IM, circumventing the scaling and connectivity problem of planar IMs, they do not offer an easy route for miniatu...
INQA Conference 2024: Daniel Lidar - University of Southern California, USA
มุมมอง 4814 ชั่วโมงที่ผ่านมา
Title: Scaling Advantage in Approximate Optimization with Quantum Annealing Abstract: This talk will begin with a review of a decade of efforts to demonstrate a scaling advantage in optimization using quantum annealing. Exact optimization has proven to be an elusive target, but recent work has finally demonstrated a quantum scaling advantage in approximate optimization. Tailored quantum error s...
INQA Conference 2024: Sudeera Gunathilaka - Tokyo Institute of Technology, Japan
มุมมอง 3414 ชั่วโมงที่ผ่านมา
Title: Coherent Ising Machines with Zeeman Terms: Sherrington-Kirkpatrick to Compressed Sensing Abstract: The Coherent Ising Machine (CIM) is a structured ensemble of optical parametric oscillators (OPOs), configured to solve combinatorial optimization problems by finding the lowest energy configuration in an Ising Hamiltonian. There have been two difficulties inherent to the CIM when solving r...
INQA Conference 2024: Akihiro Yatabe - NEC Corporation, Japan (Part 1)
มุมมอง 1614 ชั่วโมงที่ผ่านมา
Title: Ground-state sampling in quantum annealing with the Sourlas-Lechner-Hauke-Zoller scheme Abstract: Quantum annealing (QA) is used not only for solving combinatorial optimization problems but also for sampling in machine learning, in which states with the same energy should appear with equal probability. However, both theoretical [1] and experimental [2] studies have shown that QA cannot a...
INQA Conference 2024: Mikel Sanz - University of the Basque Country, Spain
มุมมอง 1614 ชั่วโมงที่ผ่านมา
Title: Digital-Analog Quantum Computation: Scalability and Applications Abstract: Digital-analog quantum computation is a universal quantum computing paradigm that combines the robustness of analog simulations with the flexibility of digital computation. This approach leverages the platform's natural Hamiltonian along with single-qubit rotations as resources to implement arbitrary Hamiltonians....
INQA Conference 2024: Tadashi Kadowaki - AIST, Japan
มุมมอง 1614 ชั่วโมงที่ผ่านมา
Title: Quantum CAE (computer-aided engineering) and AI for Science Abstract: Computer-aided engineering (CAE) has been widely employed across various industries to efficiently design superior products. It involves evaluating the characteristics of a product through simulation, followed by optimization of the product’s design. Traditionally, high-performance computing has been utilized for these...
INQA Conference 2024: Takuya Hatomura - NTT Corporation, Japan
มุมมอง 1314 ชั่วโมงที่ผ่านมา
Title: Shortcuts to adiabaticity for enhancing quantum annealing Abstract: Theory of shortcuts to adiabaticity enables us to accelerate adiabatic time evolution, and thus it is expected as a means of enhancing quantum annealing. In this talk, I will give an overview of our recent progress in the study of shortcuts to adiabaticity which can be applied to speedup of quantum annealing, e.g., an er...
INQA Conference 2024: Yuki Minamoto - Fixstars Amplify Corporation, Japan
มุมมอง 1814 ชั่วโมงที่ผ่านมา
Title: Black-box optimization with QA Abstract: We present an approach to black-box optimization (BBO) that mitigates the curse of dimensionality, particularly within the context of serial optimization. The method we will propose here is named polynomial-based kernels and quadratic-optimization annealing (kernel-QA). Using polynomial-based kernels for the surrogate model/acquisition function re...
INQA Conference 2024: Hinako Asaoka - Ochanomizu University, Japan
มุมมอง 1014 ชั่วโมงที่ผ่านมา
Title: Quantum autoencoders for image classification Abstract: Applying quantum computers to machine learning is expected to improve the speed beyond conventional methods significantly. Existing approaches to quantum machine learning include many proposals for quantum-classical hybrid algorithms, such as quantum convolutional neural networks. Such methods are suitable for quantum computers in t...
INQA Conference 2024: Marta Estarellas - Qilimanjaro Quantum Tech, Spain
มุมมอง 2214 ชั่วโมงที่ผ่านมา
Title: Accelerating Quantum Advantage with Superconducting-Based Analog Quantum Computers Abstract: Qilimanjaro Quantum Tech (QQT), a Barcelona-based quantum computing company founded in 2019, aims at advancing practical quantum solutions by leveraging the analog model of quantum computation. Using high-quality superconducting flux qubits, Qilimanjaro specializes in building application-specifi...
INQA Conference 2024: Erika Kawakami - RIKEN, Japan (Part 2)
มุมมอง 1014 ชั่วโมงที่ผ่านมา
Title: Exploring Quantum Computing Potential with Floating Electrons Abstract: Surface electrons (SEs) on liquid helium and on solid neon both present promising paths toward quantum computing due to their long coherence times [1,2]. To enhance qubit functionality of SEs on helium, we propose a hybrid qubit by coupling the hydrogen-like Rydberg state to the spin state of SEs, with quantum inform...
INQA Conference 2024: Erika Kawakami - RIKEN, Japan (Part 1)
มุมมอง 1014 ชั่วโมงที่ผ่านมา
Title: Exploring Quantum Computing Potential with Floating Electrons Abstract: Surface electrons (SEs) on liquid helium and on solid neon both present promising paths toward quantum computing due to their long coherence times [1,2]. To enhance qubit functionality of SEs on helium, we propose a hybrid qubit by coupling the hydrogen-like Rydberg state to the spin state of SEs, with quantum inform...
INQA Conference 2024: Matthias Werner - Qilimanjaro Quantum Tech, Spain
มุมมอง 2114 ชั่วโมงที่ผ่านมา
Title: Quantum simulation of 1D-fermionic systems with Ising Hamiltonians Abstract: In recent years, programmable, analogue quantum simulators have become capable of simulating quantum critical phenomena in many-body systems, including dynamical phase transitions. However, many of these quantum simulations are focused on Ising-type Hamiltonians with transverse fields, as these are native to qua...
INQA Conference 2024: Valentina Brosco - CNR, Italy
มุมมอง 1714 ชั่วโมงที่ผ่านมา
Title: Quantum devices based on Twisted Cuprate Heterostructures Abstract: Recent advances in creating van der Waals heterostructures hosting ultrathin electronic states and in fabricating hybrid Josephson nanostructures have opened new research avenues for understanding and controlling the exotic electronic properties and functionalities emerging in these hybrid systems. In this talk, I focus ...
INQA Conference 2024: Nicholas Chancellor - Newcastle University, UK
มุมมอง 1914 ชั่วโมงที่ผ่านมา
INQA Conference 2024: Nicholas Chancellor - Newcastle University, UK
INQA Conference 2024: Shuta Kikuchi - Keio University, Japan
มุมมอง 4814 ชั่วโมงที่ผ่านมา
INQA Conference 2024: Shuta Kikuchi - Keio University, Japan
INQA Conference 2024: Chris Kim - University of Minnesota / COBI, USA
มุมมอง 2214 ชั่วโมงที่ผ่านมา
INQA Conference 2024: Chris Kim - University of Minnesota / COBI, USA
INQA Conference 2024: Yasunobu Nakamura - RIKEN, Japan
มุมมอง 1614 ชั่วโมงที่ผ่านมา
INQA Conference 2024: Yasunobu Nakamura - RIKEN, Japan
INQA Conference 2024: Kazue Kudo - Ochanomizu University, Japan
มุมมอง 1314 ชั่วโมงที่ผ่านมา
INQA Conference 2024: Kazue Kudo - Ochanomizu University, Japan
INQA Conference 2024: Paul Warburton - University College London, UK
มุมมอง 1314 ชั่วโมงที่ผ่านมา
INQA Conference 2024: Paul Warburton - University College London, UK
INQA Conference 2024: Helmut Katzgraber - Amazon Web Services, USA
มุมมอง 7614 ชั่วโมงที่ผ่านมา
INQA Conference 2024: Helmut Katzgraber - Amazon Web Services, USA
INQA Conference 2024: Mohammad Amin - D-Wave Quantum Inc, Canada
มุมมอง 6414 ชั่วโมงที่ผ่านมา
INQA Conference 2024: Mohammad Amin - D-Wave Quantum Inc, Canada
INQA Seminar: Ilia Luchnikov, The Technology Innovation Institute - November 12 2024
มุมมอง 1914 ชั่วโมงที่ผ่านมา
INQA Seminar: Ilia Luchnikov, The Technology Innovation Institute - November 12 2024
INQA Seminar: Steve Campbell, University College Dublin - November 5 2024
มุมมอง 45วันที่ผ่านมา
INQA Seminar: Steve Campbell, University College Dublin - November 5 2024
INQA Conference 2024: Kumar Saurav - University of Southern California, USA
มุมมอง 8วันที่ผ่านมา
INQA Conference 2024: Kumar Saurav - University of Southern California, USA
INQA Conference 2024: Yuya Seki - Keio University, Japan
มุมมอง 2914 วันที่ผ่านมา
INQA Conference 2024: Yuya Seki - Keio University, Japan
INQA Conference 2024: Akihiro Yatabe - NEC Corporation, Japan (Part 2)
มุมมอง 1614 วันที่ผ่านมา
INQA Conference 2024: Akihiro Yatabe - NEC Corporation, Japan (Part 2)
INQA Conference 2024: Takaaki Aoki - AIST, Japan
มุมมอง 614 วันที่ผ่านมา
INQA Conference 2024: Takaaki Aoki - AIST, Japan
INQA Seminar: Roopayan Ghosh, UCL - October 29 2024
มุมมอง 3314 วันที่ผ่านมา
INQA Seminar: Roopayan Ghosh, UCL - October 29 2024
Brilliant
Wow, Great
Enjoyed watching this.
Really interesting new technique for handling inequalities - thanks for posting!
Hi, i found your content great, how can i learn more, can i work with you all ? Please i wanted to learn Sir.
Can anybody answer the question that was raised after the talk?
That's my boy good job kiddo