Abstract
Mobile computers such as notebooks, subnotebooks, and palmtops require low weight, low power consumption, and good interactive performance. These requirements impose many challenges on architectures and operating systems. This paper investigates three alternative storage devices for mobile computers: magnetic hard disks, flash memory disk emulators, and flash memory cards. We have used hardware measurements and trace-driven simulation to evaluate each of the alternative storage devices and their related design strategies. Hardware measurements on an HP OmniBook 300 highlight differences in the performance of the three devices as used on the Omnibook, especially the poor performance of version 2.00 of the Microsoft Flash File System [11] when accessing large files. The traces used in our study came from different environments, including mobile computers (Macintosh Power-Books) and desktop computers (running Windows or HP-UX), as well as synthetic workloads. Our simulation study showsthatflash memory can reduceenergy consumptionby an order of magnitude, compared to magnetic disk, while providing good read performance and acceptable write performance. These energy savings can translate into a 22% extension of battery life. We also find that the amount of unused memory in a flash memory card has a substantial impact on energy consumption, performance, and endurance: compared to low storage utilizations (40% full), running flash memory near its capacity (95% full) can increase energy consumption by 70-190%, degrade write response time by 30%, and decrease the lifetime of the memory card by up to a third. For flash disks, asynchronous erasure can improve write response time by a factor of 2.5.
Original language | English (US) |
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State | Published - Nov 14 1994 |
Event | 1st USENIX Conference on Operating Systems Design and Implementation, OSDI 1994 - Monterey, United States Duration: Nov 14 1994 → Nov 17 1994 |
Other
Other | 1st USENIX Conference on Operating Systems Design and Implementation, OSDI 1994 |
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Country/Territory | United States |
City | Monterey |
Period | 11/14/94 → 11/17/94 |
All Science Journal Classification (ASJC) codes
- Information Systems
- Hardware and Architecture
- Computer Networks and Communications