Unraveling Quantum Circuit Design with Hamiltonian Insights
HamQASBench redefines quantum circuit benchmarks by incorporating Hamiltonian structures, exposing limitations in conventional approaches.
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ACM Transactions on Quantum Computing (tqc) Vol 7, Issue 2
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ACM Transactions on Quantum Computing (tqc) Vol 7, Issue 3
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Unified Framework for Variational Quantum Knowledge Graph Embeddings on NISQ Devices
Variational Quantum Algorithms (VQAs) combine quantum circuits with classical optimization to tackle problems that may benefit from the capa
New bounds dramatically reduce measurement requirements for quantum simulations
Previously, simulating open quantum systems with the Wave Matrix Lindbladization algorithm required computational effort scaling with the sy
Depth hierarchy theorem proves increasing depth strictly increases power in constant-depth quantum circuits
Circuit depth is a central resource in complexity theory. While bounded-depth classical circuits admit well-understood hierarchy theorems, t

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