Title :
A Systematic Piggybacking Design for Minimum Storage Regenerating Codes
Author :
Bin Yang ; Xiaohu Tang ; Jie Li
Author_Institution :
Inf. Security & Nat. Comput. Grid Lab., Southwest Jiaotong Univ., Chengdu, China
Abstract :
Piggybacking is an efficient method to decrease the repair bandwidth of maximum distance separable codes. In this paper, in order to reduce the repair bandwidth of parity nodes of the known minimum storage regenerating (MSR) codes with high rate, which is usually the whole amount of the original data, i.e., the maximal, a new systematic piggybacking design is proposed through an in-depth analysis of the design of piggybacking. As a result, new MSR codes are obtained with almost optimal repair bandwidth of parity nodes while retaining the optimal repair bandwidth of systematic nodes. Furthermore, MSR codes with balanced download during node repair process are presented based on the new piggybacking design.
Keywords :
codes; MSR code; maximum distance separable code; minimum storage regenerating code; parity node; repair bandwidth reduction; systematic piggybacking design in-depth analysis; Bandwidth; Encoding; Error correction; Error correction codes; Maintenance engineering; Redundancy; Systematics; Distributed storage; MSR code; balanced download; piggybacking; repair bandwidth;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2015.2472524
