Lazy-split B⁺-tree: A novel B⁺-tree index scheme for flash-based database systems

Flash memory is rapidly being deployed as a data storage medium for embedded systems and tablet computers due to its shock resistance, fast access, and low power consumption, etc. However, it has some intractable characteristics, such as erase-before-write, asymmetric read/write/erase speed, and a limited number of write/erase cycles. Due to these hardware limitations, magnetic disk-based systems and applications can hardly make full use of the advantages of flash memory when adopting it directly for storage. For example, the frequent changes of B-tree can degrade the performance and negatively influence the lifespan of flash memory. Most state-of-the-Art studies on flash-Aware index design focused mainly on buffer and storage mechanisms whereby they can obtain efficient I/Os to flash memory. In this paper, we identify the problems inherent in the related studies, and then introduce the concepts of lazy-split, modify-two-node, and semi-clean, which make possible the construction of a novel index solution, the Lazy-Split B⁺-tree (LSB⁺-tree). In detail, by their introduction, the first concept of LSB⁺-tree can efficiently reduce the number of node splits, the second can reduce the number of node modifications, and the last can make a further improvement on buffer space utilization and flash writes reduction.