Profiling quantum circuits for their efficient execution on single-and multi-core architectures
Application-specific quantum computers offer the most efficient means to tackle problems
intractable by classical computers. Realizing these architectures necessitates a deep …
intractable by classical computers. Realizing these architectures necessitates a deep …
Near-Term Spin-Qubit Architecture Design via Multipartite Maximally-Entangled States
The design and benchmarking of quantum computer architectures traditionally rely on
practical hardware restrictions, such as gate fidelities, control, and cooling. At the theoretical …
practical hardware restrictions, such as gate fidelities, control, and cooling. At the theoretical …
Attention-Based Deep Reinforcement Learning for Qubit Allocation in Modular Quantum Architectures
Modular, distributed and multi-core architectures are currently considered a promising
approach for scalability of quantum computing systems. The integration of multiple Quantum …
approach for scalability of quantum computing systems. The integration of multiple Quantum …
A Framework for Debugging Quantum Programs
Recent advancements in quantum computing software are gradually increasing the scope
and size of quantum programs being developed. At the same time, however, these larger …
and size of quantum programs being developed. At the same time, however, these larger …