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SPINE (SPIN Emulator) - A Quantum-Electronics Interface Simulator

Jeroen van Dijk, Andrei Vladimirescu, Masoud Babaie, Edoardo Charbon, Fabio Sebastiano
2019 2019 IEEE 8th International Workshop on Advances in Sensors and Interfaces (IWASI)  
This paper presents the SPINE (SPIN Emulator) toolset for the co-design and co-optimization of electronic/quantum systems.  ...  A quantum computer comprises a quantum processor and the associated control electronics used to manipulate the qubits at the core of a quantum processor.  ...  ACKNOWLEDGMENT The authors would like to thank Intel Corp. for funding.  ... 
doi:10.1109/iwasi.2019.8791334 dblp:conf/iwasi/DijkVBCS19 fatcat:5ojhanx2ofbclcrajd47jzxsae

The electronic interface for quantum processors

J.P.G. van Dijk, E. Charbon, F. Sebastiano
2019 Microprocessors and microsystems  
This paper discusses the challenges in designing a scalable electronic interface for quantum processors.  ...  Figure 1: A quantum computer comprises a quantum processor and a classical electronic controller that generates and processes the various signals.  ...  Acknowledgments The authors would like to thank Intel Corp. for funding this project.  ... 
doi:10.1016/j.micpro.2019.02.004 fatcat:qv5khtmluvfcxdboyc2ory6tpu

The electronic interface for quantum processors [article]

Jeroen P.G. van Dijk, Edoardo Charbon, Fabio Sebastiano
2019 arXiv   pre-print
This paper discusses the challenges in designing a scalable electronic interface for quantum processors.  ...  However, a significant increase in the number of quantum bits (qubits) and their performance is required to demonstrate such quantum supremacy.  ...  Acknowledgments The authors would like to thank Intel Corp. for funding this project.  ... 
arXiv:1811.01693v2 fatcat:ysglha47rrhjpgxseovd3ccp4q

NWChem: Past, Present, and Future [article]

E. Aprà and E. J. Bylaska and W. A. de Jong and N. Govind and K. Kowalski and T. P. Straatsma and M. Valiev and H. J. J. van Dam and Y. Alexeev and J. Anchell and V. Anisimov and F. W. Aquino and R. Atta-Fynn and J. Autschbach and N. P. Bauman and J. C. Becca and D. E. Bernholdt and K. Bhaskaran-Nair and S. Bogatko and P. Borowski and J. Boschen and J. Brabec and A. Bruner and E. Cauët and Y. Chen and G. N. Chuev and C. J. Cramer and J. Daily and M. J. O. Deegan and T. H. Dunning Jr. and M. Dupuis and K. G. Dyall and G. I. Fann and S. A. Fischer and A. Fonari and H. Früuchtl and L. Gagliardi and J. Garza and N. Gawande and S. Ghosh and K. Glaesemann and A. W. Götz and J. Hammond and V. Helms and E. D. Hermes and K. Hirao and S. Hirata and M. Jacquelin and L. Jensen and B. G. Johnson and H. Jónsson and R. A. Kendall and M. Klemm and R. Kobayashi and V. Konkov and S. Krishnamoorthy and M. Krishnan and Z. Lin and R. D. Lins and R. J. Littlefield and A. J. Logsdail and K. Lopata and W. Ma and A. V. Marenich and J. Martin del Campo and D. Mejia-Rodriguez and J. E. Moore and J. M. Mullin and T. Nakajima and D. R. Nascimento and J. A. Nichols and P. J. Nichols and J. Nieplocha and A. Otero de la Roza and B. Palmer and A. Panyala and T. Pirojsirikul and B. Peng and R. Peverati and J. Pittner and L. Pollack and R. M. Richard and P. Sadayappan and G. C. Schatz and W.A. Shelton and D. W. Silverstein and D. M. A. Smith and T. A. Soares and D. Song and M. Swart and H. L. Taylor and G. S. Thomas and V. Tipparaju and D. G. Truhlar and K. Tsemekhman and T. Van Voorhis and Á. Vázquez-Mayagoitia and P. Verma and O. Villa and A. Vishnu and K. D. Vogiatzis and D. Wang and J. H. Weare and M. J. Williamson and T. L. Windus and K. Woliński and A. T. Wong and Q. Wu and C. Yang and Q. Yu and M. Zacharias and Z. Zhang and Y. Zhao and R. J. Harrison
2020 Journal of Chemical Physics   accepted
In this regard, electronic structure packages have played a special role by using first-principledriven methodologies to model complex chemical and materials processes.  ...  of atomistic and electronic properties.  ...  ACKNOWLEDGMENTS The authors wish to acknowledge the important contributions to the NWChem project of the following deceased researchers: Ricky A. Kendall, Jarek Nieplocha and Daniel W. Silverstein.  ... 
doi:10.1063/5.0004997 pmid:32414274 arXiv:2004.12023v2 fatcat:zzz2vczvkjbnjmqz2ssvd6ouku

Full-stack quantum computing systems in the NISQ era: algorithm-driven and hardware-aware compilation techniques [article]

Medina Bandic, Sebastian Feld, Carmen G. Almudever
2022 arXiv   pre-print
We will emphasize the need for tight co-design among adjacent layers as well as vertical cross-layer design to extract the most from noisy intermediate-scale quantum (NISQ) processors which are both error-prone  ...  As an example of co-design, we will focus on the development of hardware-aware and algorithm-driven compilation techniques.  ...  Grey arrows represent the ow of information between hardware and software layers needed for co-design. Figure 2 : 2 Figure2: Running a quantum circuit on a Surface-7 quantum processor [32] .  ... 
arXiv:2204.06369v1 fatcat:wqpaxh2gqbeddpcovxizmqi5ha

Primer on silicon neuromorphic photonic processors: architecture and compiler

Thomas Ferreira de Lima, Alexander N. Tait, Armin Mehrabian, Mitchell A. Nahmias, Chaoran Huang, Hsuan-Tung Peng, Bicky A. Marquez, Mario Miscuglio, Tarek El-Ghazawi, Volker J. Sorger, Bhavin J. Shastri, Paul R. Prucnal
2020 Nanophotonics  
In this perspective article, we provide a rationale for a neuromorphic photonics processor, envisioning its architecture and a compiler.  ...  This paper is intended for a wide audience and provides a roadmap for expanding research in the direction of transforming neuromorphic photonics into a viable and useful candidate for accelerating neuromorphic  ...  Secondly, seamlessly interfacing a photonic integrated circuit with an electronic integrated circuit will take several advances in science and technology including on-chip lasers and amplifiers, co-integration  ... 
doi:10.1515/nanoph-2020-0172 fatcat:m45ztrraojalxbygq33tat7fjq

Future HPC Technologies

Jean-François Lavignon
2020 Zenodo  
This analysis is the result of a work organized by EXDCI-2 to connect the HPC communities with the European electronics and photonics experts.  ...  The investigations include topics such as new materials that are more efficient than CMOS, new architecture, photonics, analogue system or quantum technologies.  ...  It can be implemented by software on classical Von Neumann processors but you can also design an ASIC that will significantly speed-up the computation by mapping directly the variables and their interactions  ... 
doi:10.5281/zenodo.4106742 fatcat:ybxhgen7nzet7i7bubwou2u55a

Quantum supremacy in end-to-end intelligent IT. Pt. I:Quantum software engineering–quantum gate level applied models simulators

Olga Ivancova, Vladimir Korenkov, Olga Tyatyushkina, Sergey Ulyanov, Toshio Fukuda
2020 System Analysis in Science and Education  
Principles and methodologies of quantum algorithmic gates design for master course and PhD students in computer science, control engineering and intelligent robotics described.  ...  Anew approach to a circuit implementation design of quantum algorithm gates for fast quantum massive parallel computing presented.  ...  Principles and methodologies of quantum algorithmic gates design for master course and PhD students in computer science, control engineering and intelligent robotics described.  ... 
doi:10.37005/2071-9612-2020-1-52-84 fatcat:sinrmscstvaz5o46ubw5y4knhu

Recent Advances in QM and QM/MM Methods [chapter]

Mark S. Gordon, Michael W. Schmidt
2003 Lecture Notes in Computer Science  
Recent advances in advanced quantum chemistry and quantum chemistry interfaced with model potentials are discussed, with the primary focus on new scalable implementations in the GAMESS electronic structure  ...  Applications to solvent effects and surface science are discussed.  ...  The work described in this paper was supported by the Air Force Office of Scientific Research via a software development (CHSSI) grant and by the Department of Energy through a SciDAC grant.  ... 
doi:10.1007/3-540-44864-0_8 fatcat:uopryukpargk5czpj54udwsvlu

Advances in electronic structure theory [chapter]

Mark S. Gordon, Michael W. Schmidt
2005 Theory and Applications of Computational Chemistry  
Recent developments in advanced quantum chemistry and quantum chemistry interfaced with model potentials are discussed, with the primary focus on new implementations in the GAMESS electronic structure  ...  Applications to solvent effects and surface science are discussed.  ...  New scalable methods for correlated wavefunctions are presented in Section 3, and several approaches for interfacing quantum mechanics with molecular mechanics (MM) are considered in Section 4.  ... 
doi:10.1016/b978-044451719-7/50084-6 fatcat:kpxeyn34d5ba5mbf5anddedagy

De Novo Ultrascale Atomistic Simulations On High-End Parallel Supercomputers

Aiichiro Nakano, Rajiv K. Kalia, Ken-ichi Nomura, Ashish Sharma, Priya Vashishta, Fuyuki Shimojo, Adri C. T. van Duin, William A. Goddard, Rupak Biswas, Deepak Srivastava, Lin H. Yang
2008 The international journal of high performance computing applications  
We present a de novo hierarchical simulation framework for first-principles based predictive simulations of materials and their validation on high-end parallel supercomputers and geographically distributed  ...  The framework includes an embedded divide-andconquer (EDC) algorithmic framework for the design of linear-scaling simulation algorithms with minimal bandwidth complexity and tight error control.  ...  Branicio, and Cheng Zhang for their contribution on graph-based data mining.  ... 
doi:10.1177/1094342007085015 fatcat:tr2nbpzurjesje4jkoatsuecam

SANQ: A Simulation Framework for Architecting Noisy Intermediate-Scale Quantum Computing System [article]

Gushu Li, Yufei Ding, Yuan Xie
2019 arXiv   pre-print
the quantum processor and its classical control system to realize early-stage evaluation and design space exploration, is naturally invoked but still missing.  ...  To bridge the gap between limited hardware access and the huge demand for experiments for Noisy Intermediate-Scale Quantum (NISQ) computing system study, a simulator which can capture the modeling of both  ...  Such a classical control system provides a digital interface for the quantum processor and makes the NISQ system a co-processor of the host machine. III.  ... 
arXiv:1904.11590v2 fatcat:uqlpshrd5rgu3mu7jh7zrjo66i

Quantum supremacy in end-to-end intelligent IT. Pt. 2: State -of -art of quantum SW/HW computational gate-model toolkit

Olga Ivancova, Vladimir Korenkov, Olga Tyatyushkina, Sergey Ulyanov, Toshio Fukuda
2020 System Analysis in Science and Education  
Quantum speed-up limitation in two-level systems (qubit) is discussed. The approaches to the formation of a quantum variational intrinsic solver are considered.  ...  Several paradigms of quantum computing are considered. Quantum computer simulators are de-scribed. Models of learning quantum systems from experiments are considered.  ...  While they have a huge potential for scalability, the current best quantum dot based processors are limited to two-, three and four-qubit processors.  ... 
doi:10.37005/2071-9612-2020-1-85-125 fatcat:ylijftkyzvayfieqt4z4tck7ay

Roadmap on quantum nanotechnologies

Arne Laucht, Frank Hohls, Niels Ubbelohde, M. Fernando Gonzalez-Zalba, David J. Reilly, Søren Stobbe, Tim Schröder, Pasquale Scarlino, Jonne V. Koski, Andrew Dzurak, Chih-Hwan Yang, Jun Yoneda (+17 others)
2021 Nanotechnology 32(16)  
Materials and devices with nanoscale features are used for quantum metrology and sensing, as building blocks for quantum computing, and as sources and detectors for quantum communication.  ...  This has opened wide new avenues for exploring and harnessing quantum mechanical effects in condensed matter.  ...  Acknowledgments The authors would like to thank Lloyd Hollenberg and Andrea Morello for their comments.  ... 
doi:10.18154/rwth-2021-02507 fatcat:aoh5bfs4l5difmqfnh3tooiof4

A backend-agnostic, quantum-classical framework for simulations of chemistry in C++ [article]

Daniel Claudino, Alexander J. McCaskey, Dmitry I. Lyakh
2021 arXiv   pre-print
We review the fundamental design features in XACC, with special attention to its extensibility and modularity for key quantum programming workflow interfaces, and provide an overview of the interfaces  ...  Here we present the XACC system-level quantum computing framework as a platform for prototyping, developing, and deploying quantum-classical software that specifically targets chemistry applications.  ...  SUMMARY AND OUTLOOK We have presented a collection of state-of-the-art algorithms for quantum chemistry leveraging quantum co-processors, as well as their implementation and usage within the XACC framework  ... 
arXiv:2105.01619v1 fatcat:nro7ofotwzg4rfqvtmb3uydgbq
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