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Hahne, \u201cA new buffer management scheme for hierarchical shared memory switches,\u201d IEEE\/ACM Trans. Netw., vol.5, no.5, pp.728-738, Oct. 1997. 10.1109\/90.649572","DOI":"10.1109\/90.649572"},{"key":"8","doi-asserted-by":"publisher","unstructured":"[8] G. Ascia, V. Catania, and D. Panno, \u201cAn evolutionary management scheme in high-performance packet switches,\u201d IEEE\/ACM Trans. Netw., vol.13, no.2, pp.262-275, April 2005. 10.1109\/tnet.2005.845543","DOI":"10.1109\/TNET.2005.845543"},{"key":"9","doi-asserted-by":"publisher","unstructured":"[9] A.K. Choudhury and E.L. Hahne, \u201cDynamic queue length thresholds for shared-memory packet switches,\u201d IEEE\/ACM Trans. Netw., vol.6, no.2, pp.130-140, April 1998. 10.1109\/90.664262","DOI":"10.1109\/90.664262"},{"key":"10","doi-asserted-by":"publisher","unstructured":"[10] J. Yang, M. Liang, and Y. Chu, \u201cThreshold-based filtering buffer management scheme in a shared buffer packet switch,\u201d J. Commun. 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