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The ever-increasing scale of scientific data has become a significant challenge for researchers that rely on networks to interact with remote computing systems and transfer results to collaborators worldwide. Despite the availability of high-capacity connections, scientists struggle with inadequate cyberinfrastructure that cripples data transfer performance, and impedes scientific progress. The Science DMZ paradigm comprises a proven set of network design patterns that collectively addressdoi:10.1145/2503210.2503245 dblp:conf/sc/DartRTHZ13 fatcat:h4hdeejoqraijdg7psgvylyfoa