Closed-form constant-time selector for a valid new broadcast source under two faults in dense Eisenstein-Jacobi networks.
Enhancing fault-tolerant application mapping in network-on-chip using transformer-based reinforcement learning,
2 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
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cs.DC 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
A source re-rooting algorithm for fault-tolerant one-to-all broadcast in dense EJ networks that handles any one or two node failures in O(sqrt(N)) time and at most 2*diameter steps.
citing papers explorer
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Closed-Form and Constant-Time New-Source Selection for Fault-Tolerant Broadcasting in Dense Eisenstein--Jacobi Networks
Closed-form constant-time selector for a valid new broadcast source under two faults in dense Eisenstein-Jacobi networks.
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Re-Rooting-Based Fault-Tolerant One-to-All Broadcasting in Dense Eisenstein--Jacobi Networks
A source re-rooting algorithm for fault-tolerant one-to-all broadcast in dense EJ networks that handles any one or two node failures in O(sqrt(N)) time and at most 2*diameter steps.