Rack-Aware Regenerating Codes with Fewer Helper Racks

01/21/2021
by   Zhifang Zhang, et al.
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We consider the rack-aware storage system where n nodes are organized in n̅ racks each containing u nodes, and any k nodes can retrieve the stored file. Moreover, any single node erasure can be recovered by downloading data from d̅ helper racks as well as the remaining u-1 nodes in the same rack. Previous work mostly focuses on minimizing the cross-rack repair bandwidth under the condition d̅≥k̅, where k̅=⌊k/u⌋. However, d̅≥k̅ is not an intrinsic condition for the rack-aware storage model. In this paper, we establish a tradeoff between the storage overhead and cross-rack repair bandwidth for the particularly interesting case d̅<k̅. Furthermore, we present explicit constructions of codes with parameters lying on the tradeoff curve respectively at the minimum storage point and minimum bandwidth point. The codes are scalar or have sub-packetization d̅, and operate over finite fields of size comparable to n. Regarding d̅ as the repair degree, these codes combine the advantage of regenerating codes in minimizing the repair bandwidth and that of locally repairable codes in reducing the repair degree. Moreover, they also abandon the restriction of MBR codes having storage overhead no less than 2× and that of high-rate MSR codes having exponential sub-packetization level.

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