dSABRE cuts geometric-mean EPR consumption by 41-44% versus TeleSABRE on 18 benchmark circuits through intra-core priority, a five-term teleportation scorer with capacity penalty, proactive congestion relief, and BFS-layer extended sets.
Towards a distributed quantum computing ecosystem
2 Pith papers cite this work. Polarity classification is still indexing.
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quant-ph 2years
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Random quantum circuits distort hypergraph partitioning evaluations by inflating cut costs and altering strategy rankings, while structured generated circuits more closely match real algorithmic workload behavior.
citing papers explorer
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dSABRE: A SABRE-Style Router for Multi-Core Distributed Quantum Computers
dSABRE cuts geometric-mean EPR consumption by 41-44% versus TeleSABRE on 18 benchmark circuits through intra-core priority, a five-term teleportation scorer with capacity penalty, proactive congestion relief, and BFS-layer extended sets.
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On the Distortion of Partitioning Performance by Random Quantum Circuits
Random quantum circuits distort hypergraph partitioning evaluations by inflating cut costs and altering strategy rankings, while structured generated circuits more closely match real algorithmic workload behavior.