论文信息 - Design and evaluation of database layouts for MEMS-based storage systems

Design and evaluation of database layouts for MEMS-based storage systems

MEMS-based storage systems have recently generated significant interest due to their potential to be faster and more efficient than disks, while providing the non-volatility property. Designing data layouts for these devices is a challenging, important and interesting problem. In this paper, we explore various ways of placing a database on a MEMS-based storage architecture. Three novel data layouts are proposed after considering the MEMS device characteristics and the access patterns arising from queries. We then design the access methodology for each layout and evaluate these layouts based on their respective I/O service times. Overall, our results were able to identify the intricacies of placing data on a MEMS-based storage and also ascertain the large potential of MEMS-based devices for databases.

Wei-keng Liao | Alok N. Choudhary | Jayaprakash Pisharath

[1] Dürig,et al. The “ Millipede ” — More than one thousand tips for future AFM data storage , 2000 .

[2] L. Richard Carley,et al. MEMS-based integrated-circuit mass-storage systems , 2000, CACM.

[3] Scott A. Brandt,et al. Data Placement Based on the Seek Time Analysis of a MEMS-based Storage Device , 2001 .

[4] David J. DeWitt,et al. Data page layouts for relational databases on deep memory hierarchies , 2002, The VLDB Journal.

[5] G. Binnig,et al. The nanodrive project , 2003 .

[6] Gregory R. Ganger,et al. Modeling and performance of MEMS-based storage devices , 2000, SIGMETRICS '00.

[7] Raghu Ramakrishnan,et al. Database Management Systems , 1976 .

[8] Josep Torrellas,et al. Detailed characterization of a quad Pentium Pro server running TPC-D , 1999, Proceedings 1999 IEEE International Conference on Computer Design: VLSI in Computers and Processors (Cat. No.99CB37040).

[9] Tara M. Madhyastha,et al. Physical Modeling of Probe-Based Storage , 2001, 2001 Eighteenth IEEE Symposium on Mass Storage Systems and Technologies.

[10] Divyakant Agrawal,et al. Tabular Placement of Relational Data on MEMS-based Storage Devices , 2003, VLDB.

[11] Goetz Graefe,et al. Hash Joins and Hash Teams in Microsoft SQL Server , 1998, VLDB.

[12] Gregory R. Ganger,et al. Operating system management of MEMS-based storage devices , 2000, OSDI.