核心概念
Efficiently mapping quantum circuits to processors with optimal SWAP gates.
要約
Optimal layout synthesis is crucial for minimizing errors in quantum computing. This study proposes a SAT encoding approach based on parallel plans, maintaining optimality while scaling to large circuits. Results show significant outperformance of leading approaches by up to 100x, enabling optimal mapping of deep circuits onto large platforms with minimal SWAPs. Various techniques like bridges and relaxed dependencies further enhance optimization.
統計
Optimal approach significantly outperforms leading methods by up to 100x.
Can map deep circuits onto large platforms with minimal SWAPs.
Techniques like bridges and relaxed dependencies improve optimization.
引用
"Our results show the scalability of our approach which significantly outperforms leading exact and near-optimal approaches (up to 100x)."
"For the first time, we can optimally map several 8, 14, and 16 qubit circuits onto 54, 80, and 127 qubit platforms with up to 17 SWAPs."
"While adding optimal SWAPs, we also report near-optimal depth in our mapped circuits."