MEMS-based Storage Related Papers

  1. Schlosser, S., Griffin, J., Nagle, D., Ganger, G., Filling the Memory Access Gap: A Case for On-Chip Magnetic Storage. Technical Report CMU-CS-99-174, Carnegie Mellon University School of Computer Science, November 1999.
  2. Schlosser, S., Griffin, J., Nagle, D., Ganger, G., Designing Computer Systems with MEMS-based Storage. In ASPLOS 2000, November 13-15, 2000.
  3. L. Richard Carley, Gregory R. Ganger, and David F. Nagle, MEMS-Based Integrated-Circuit Mass-Storage Systems. in COMMUNICATIONS OF THE ACM November 2000, Vol.43, No.11.
  4. Griffin, J., Schlosser, S., Ganger, G., Nagle, D., Operating Systems Management of MEMS-based Storage Devices. In OSDI 2000, October 23-25, 2000.
  5. Griffin, J., Schlosser, S., Ganger, G., Nagle, D., Modeling and Performance of MEMS-Based Storage Devices. In Proceedings of SIGMETRICS 2000, June 18-21, 2000. Published as Performance Evaluation Review 28(1):56-65, June 2000.
  6. Tara M. Madhyastha, Katherine Pu Yang, Physical Modeling of Probe-Based Storage.In Proceedings of the Eighteenth IEEE Symposium on Mass Storage Systems (April 2001).
  7. Z.N.J. Peterson, S.A. Brandt and D.D.E. Long. Data Placement Based on the Seek Time Analysis of a MEMS-based Storage Device. A Work in Progress (WIP) at: the Conference on File and Storage Technologies (FAST), USENIX, 2002.
  8. R.C. Burns, R.M. Rees, Z.N.J. Peterson, and D.D.E. Long. Allocation and Data Placement Using Virtual Contiguity. iNIST/SSRC/01-001. 2001.
  9. Pu Yang. Modeling Probe-based Storage Devices. Tehcnical report. Department of Computer Science, University of California Santa Cruz, June 2000. Master's thesis.
  10. Feng Wang, Scott Brandt. Using MEMS Device as Disk Write Buffer. Department of Computer Science, University of California Santa Cruz. 2001
  11. Ying Lin, Power consumption on MEMS-based storage device. Report for cmps290s, December 1, 2001
  12. John Linwood Griffin, Jiri Schindler, Steven W. Schlosser, John S. Bucy, Gregory R. Ganger, Timing-accurate Storage Emulation. In Proceedings of the Conference on File and Storage Technologies (FAST), January 28-30, 2002.
  13. P. Vettiger, M. Despont, U. Drechsler, U. Dürig, W. Häberle, M. I. Lutwyche, H. E. Rothuizen, R. Stutz, R. Widmer, G. K. Binnig. The 'Millipede'--More than one thousand tips for future AFM data storage. IBM Journal of Research and Development, Directions in information technology, Vol. 44, No. 3, 2000
  14. H. J. Mamin, R. P. Ried, B. D. Terris, and D. Rugar, High-Density Data Storage Based on the Atomic Force Microscope. Proc. IEEE 87, No. 6, 1014-1027 (June 1999).
  15. B. Hong, Exploring the Usage of MEMS-based Strorage as Metadata Storage and Disk Cache in Storage Hierarchy. Department of Computer Science, University of California Santa Cruz. 2003
  16. Steven W. Schlosser, Jiri Schindler, Anastassia Ailamaki, and Gregory R. Ganger, Exposing and Exploiting Internal Parallelism in MEMS-based Storage. Carnegie Mellon University Technical Report CMU-CS-03-125, March 2003.
  17. M. Uysal, A. Merchant, and G. Alvarez, Using MEMS-based stroage in disk arrays. Proc. of 2nd USENIX Conference on File and Storage Technologies, April 2003
  18. Hailing Yu, Divyakant Agrawal, and Amr El Abbadi, Towards Optimal I/O Scheduling for MEMS-Based Storage. 20 th IEEE/11 th NASA Goddard Conference on Mass Storage Systems and Technologies (MSS'03) April 07 - 10, 2003 San Diego, California
  19. H. Yu, D. Agrawal, and A. E. Abbadi, Tabular Placement of Relational Data on MEMS-based Storage Devices. In proceedings of the 29th Conference on Very Large Databases(VLDB), 680-693. September 2003
  20. H. Yu, D. Agrawal, and A. E. Abbadi, Declustering two-dimensional datasets over MEMS-based Storage. Computer Science Department, UCSB, 2003