Biblio

Filters: Author is Singla, A.  [Clear All Filters]
2017-12-04
Won, J., Singla, A., Bertino, E..  2017.  CertificateLess Cryptography-Based Rule Management Protocol for Advanced Mission Delivery Networks. 2017 IEEE 37th International Conference on Distributed Computing Systems Workshops (ICDCSW). :7–12.

Assured Mission Delivery Network (AMDN) is a collaborative network to support data-intensive scientific collaborations in a multi-cloud environment. Each scientific collaboration group, called a mission, specifies a set of rules to handle computing and network resources. Security is an integral part of the AMDN design since the rules must be set by authorized users and the data generated by each mission may be privacy-sensitive. In this paper, we propose a CertificateLess cryptography-based Rule-management Protocol (CL-RP) for AMDN, which supports authenticated rule registrations and updates with non-repudiation. We evaluate CL-RP through test-bed experiments and compare it with other standard protocols.

2015-05-06
Stephens, B., Cox, A.L., Singla, A., Carter, J., Dixon, C., Felter, W..  2014.  Practical DCB for improved data center networks. INFOCOM, 2014 Proceedings IEEE. :1824-1832.

Storage area networking is driving commodity data center switches to support lossless Ethernet (DCB). Unfortunately, to enable DCB for all traffic on arbitrary network topologies, we must address several problems that can arise in lossless networks, e.g., large buffering delays, unfairness, head of line blocking, and deadlock. We propose TCP-Bolt, a TCP variant that not only addresses the first three problems but reduces flow completion times by as much as 70%. We also introduce a simple, practical deadlock-free routing scheme that eliminates deadlock while achieving aggregate network throughput within 15% of ECMP routing. This small compromise in potential routing capacity is well worth the gains in flow completion time. We note that our results on deadlock-free routing are also of independent interest to the storage area networking community. Further, as our hardware testbed illustrates, these gains are achievable today, without hardware changes to switches or NICs.