The rapid advancement of quantum computing is reshaping the landscape of software engineering,requiring new methods to software architecture.Unlike traditional software development, quantum software systems introduce unique challenges in design, implementation, and scalability,requiring well-defined architectural ...
Dynamic Concatenation of Quantum Error Correction in Integrated Quantum Computing ArchitectureResource overhead problem caused by concatenation in quantum error correction (QEC) is of significant importance for the realization of fault-tolerant quantum computation (FTQC). To attack this problem, we propose...
2. Context: Architecting software for quantum computing 3. Research methodology 4. Demography details of published research 5. Architecture-centric solutions for quantum software 6. Key findings and implications of the SLR 7. Threats to validity 8. Related work 9. Conclusions CRediT authorship contrib...
As these physical qubits continue to advance, meeting the challenge of realising a quantum machine will also require the engineering of new classical hardware and control architectures with complexity far beyond the systems used in today's few-qubit experiments. Here, we report a micro-architecture ...
We propose an on-chip scalable cluster-state quantum computing (QC) architecture comprising a two-dimensional array of atomic qubits and detectors, networked by photonic switches and waveguides. A major barrier to scaling up such systems lies in efficiently entangling neighboring atomic memories by ...
of quantum computing, a new leap is on the horizon. Unlike classical bits, which represent only one value at a time—either 0 or 1—qubits can simultaneously represent a combination of both states. This means that while a traditional computer tests one possibility at a time, a quantum ...
This paper presents a novel approach to quantum architecture search by integrating the techniques of ZX-calculus with Genetic Programming (GP) to optimize
Figure: Image of the newly developed quantum computing architecture Moving forward, Fujitsu and Osaka University will further refine this new architecture to lead the development of quantum computers in the early FTQC era, with the a...
Toward a Software Architecture for Quantum Computing Design Tools Krysta M. Svore, Andrew Cross, Alfred V. Aho, Isaac Chuang, Igor Markov, Krysta M. Svore Proceedings of Quantum Programming Languages (QPL)|July 2004 Download BibTex Compilers and computer-aided design tools will be e...
Complex workloads demand ultra-fast processing of high-resolution simulations, extreme-size datasets, and highly parallelized algorithms. As these computing requirements continue to grow, NVIDIA Quantum InfiniBand—the world’s only fully offloadable, In