Papers

R. Selvarajan, M. Sajjan, T. Humble +1 more·Sep 20, 2022

Efficient methods for encoding and compression are likely to pave the way toward the problem of efficient trainability on higher-dimensional Hilbert spaces, overcoming issues of barren plateaus. Here, we propose an alternative approach to variational...

Timothy J Stavenger, E. Crane, Kevin C. Smith +3 more·Sep 19, 2022

The practical benefits of hybrid quantum information processing hardware that contains continuous-variable objects (bosonic modes such as mechanical or electromagnetic oscillators) in addition to traditional (discrete-variable) qubits have recently b...

Kaito Wada, Rudy Raymond, Yuki Sato +1 more·Sep 18, 2022

In variational quantum algorithms, it is important to balance conflicting requirements of expressibility and trainability of a parameterized quantum circuit (PQC). However, appropriate PQC designs are not necessarily trivial. Here, we propose an algo...

G. Burkard·Sep 16, 2022

<jats:p>We describe methods to construct digital quantum simulation algorithms for quantum spin systems on a regular lattice with local interactions. In addition to tools such as the Trotter-Suzuki expansion and graph coloring, we also discuss the ef...

Guoming Wang, Daniel Stilck Francca, Ruizhe Zhang +2 more·Sep 14, 2022

A milestone in the field of quantum computing will be solving problems in quantum chemistry and materials faster than state-of-the-art classical methods. The current understanding is that achieving quantum advantage in this area will require some deg...

R. Krueger·Sep 14, 2022

Traditional quantum circuit optimization is performed directly at the circuit level. Alternatively, a quantum circuit can be translated to a ZX-diagram which can be simplified using the rules of the ZX-calculus, after which a simplified circuit can b...

Ben Barber, Neil I. Gillespie, J. Taylor·Sep 12, 2022

Rapidly improving gate fidelities for coherent operations mean that errors in state preparation and measurement (SPAM) may become a dominant source of error for fault-tolerant operation of quantum computers. This is particularly acute in superconduct...

Xin-miao Chen, Shi Wang, Yong-jin Ye +2 more·Sep 8, 2022

Quantum computing is currently a research hotspot in both academia and industry. The inherent parallelism of quantum computers and the resulting powerful computing power will bring new solutions to many problems that are difficult for classical compu...

Bence Bak'o, A. Glos, Özlem Salehi +1 more·Sep 7, 2022

Current state-of-the-art quantum optimization algorithms require representing the original problem as a binary optimization problem, which is then converted into an equivalent cost Hamiltonian suitable for the quantum device. Implementing each term o...

Priyanka Mukhopadhyay, N. Wiebe, Hong Zhang·Sep 7, 2022

We provide an approach for compiling quantum simulation circuits that appear in Trotter, qDRIFT and multi-product formulas to Clifford and non-Clifford operations that can reduce the number of non-Clifford operations. The total number of gates, espec...

F. Sisini, Igor Ciminelli, F. Bovino·Sep 7, 2022

The first prototypes of quantum computers sparked interest in quantum computing and the basic principles of quantum mechanics. The education project on the physical bases of quantum computing is part of this context, based on the experimental descrip...

J. Pieprzyk, J. Duda, M. Pawlowski +3 more·Sep 6, 2022

Source coding has a rich and long history. However, a recent explosion of multimedia Internet applications (such as teleconferencing and video streaming, for instance) renews interest in fast compression that also squeezes out as much redundancy as p...

Wonho Jang, K. Terashi, M. Saito +5 more·Sep 6, 2022

There is no unique way to encode a quantum algorithm into a quantum circuit. With limited qubit counts, connectivity, and coherence times, a quantum circuit optimization is essential to make the best use of near-term quantum devices. We introduce a n...

M. Bowman, P. Gokhale, Jeffrey Larson +2 more·Sep 6, 2022

While quantum computing holds great potential in combinatorial optimization, electronic structure calculation, and number theory, the current era of quantum computing is limited by noisy hardware. Many quantum compilation approaches can mitigate the ...

Lu Wang, Wenjie Liu·Sep 6, 2022

The classical image segmentation algorithm based on local adaptive threshold can effectively segment images with uneven illumination, but with the increase of the image data, the real-time problem gradually emerges. In this paper, a quantum segmentat...

Hezi Zhang, Anbang Wu, Yuke Wang +4 more·Sep 4, 2022

In this paper, we propose OneQ, the first optimizing compilation framework for one-way quantum computation towards realistic photonic quantum architectures. Unlike previous compilation efforts for solid-state qubit technologies, our innovative framew...

A. Zwerver, S. Amitonov, S. L. de Snoo +5 more·Sep 2, 2022

Coherent links between qubits separated by tens of micrometers are expected to facilitate scalable quantum computing architectures for spin qubits in electrically-defined quantum dots. These links create space for classical on-chip control electronic...

Andrew Litteken, Jonathan M. Baker, F. Chong·Sep 1, 2022

Neutral atoms are a promising choice for scalable quantum computing architectures. Features such as long distance interactions and native multiqubit gates offer reductions in communication costs and operation count. However, the trapped atoms used as...

Walter Robson, K. Saha, Connor Howington +2 more·Sep 1, 2022

The Poisson equation has many applications across the broad areas of science and engineering. Most quantum algorithms for the Poisson solver presented so far, either suffer from lack of accuracy and/or are limited to very small sizes of the problem, ...

R. Herrman·Sep 1, 2022

In this work, we show that ma-QAOA is equivalent to a restriction of continuous-time quantum walks on dynamic graphs. We then show it is universal for computation by finding the appropriate $B$ and $C$ operators and angles that implement the universa...