We have created the architecture of a quantum multicomputer and analyzed its performance for running Shor's algorithm for factoring large numbers. In this paper, we combine fault-tolerance techniques with performance goals for our architecture, which uses a linear interconnect and six logical qubits ...
Among the numerous types of architecture being explored for quantum computers are systems utilizing ion traps, in which quantum bits (qubits) are formed from the electronic states of trapped ions and coupled through the Coulomb interaction. Although the elementary requirements for quantum computation hav...
Recent advances in quantum error correction codes for fault-tolerant quantum computing and physical realizations of high-fidelity qubits in multiple platforms give promise for the construction of a quantum computer based on millions of interacting qubits
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...
physical qubits, and rotation of the state vector in the quantum calculation requires repeated logical T-gate operations for approximately fifty times on average. Thus, the realization of a genuine fault-tolerant quantum computer i...
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 computer can explore many at once, dramatically accelerating ...
This means that while a traditional computer tests one possibility at a time, a quantum computer can explore many at once, dramatically accelerating the resolution of complex problems. Molecular simulations, logistical optimizations, and advances in cryptography are just a few of the areas transformed...
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...
and virtualization Dependable processor and system architecture Architectures for emerging technologies including novel circuits, memory technologies, etc. Quantum computer architecture Architecture modeling, simulation methodologies, and tools Evaluation and measurement of real computing systems Human factors and us...
In subject area: Computer Science Big data architecture refers to a design framework that addresses the challenges posed by large and diverse datasets. It encompasses components such as data sources, batch processing tools, storage facilities for real-time data, stream processing, analytical data store...