Abstract

Several B+-tree variants have been developed to exploit the byte-addressable non-volatile memory (NVM). We attentively investigate the properties of B+-tree and find that, a conventional B+-tree node is a linear structure in which key-value (KV) pairs are maintained from the zero offset of a node. These KV pairs are shifted in a unidirectional fashion for insertions and deletions. Inserting and deleting one KV pair may inflict a large amount of write amplifications due to shifting existing KV pairs. This badly impairs the performance of in-NVM B+-tree. In this article, we propose a novel circular design for B+-tree. With regard to NVM's byte-addressability, our Circ-Tree embraces tree nodes in a circular structure without a fixed base address, and bidirectionally shifts KV pairs for insertions and deletions to minimize write amplifications. We have implemented a prototype for Circ-Tree and conducted extensive experiments. Experimental results show that Circ-Tree significantly outperforms two state-of-the-art in-NVM B+-tree variants, i.e., NV-tree and FAST+FAIR, by up to 1.6× and 8.6×, respectively, in terms of write performance. The end-to-end comparison by running YCSB to KV stores built on NV-tree, FAST+FAIR, and Circ-Tree reveals that Circ-Tree yields up to 29.3 and 47.4 percent higher write performance, respectively, than NV-tree and FAST+FAIR.

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