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.
AutoComm: A framework for enabling efficient communication in distributed quan- tum programs,
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Syn@fac optimization reduces estimated circuit failure probability by a factor of 9 on average across non-Clifford benchmarks for bivariate bicycle code modular FTQC architectures, with additional gains from transvection deferral and Clifford insertion.
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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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Assessing System Capabilities and Bottlenecks of an Early Fault-Tolerant Bicycle Architecture
Syn@fac optimization reduces estimated circuit failure probability by a factor of 9 on average across non-Clifford benchmarks for bivariate bicycle code modular FTQC architectures, with additional gains from transvection deferral and Clifford insertion.