IBM DTNA-22160 Hard Drive Specifications - Page 70

10.5 Adaptive Power Management Feature This feature is developed to improve the power consumption and performance in mobile hard drives. This power management technology intelligently manages power modes within the device by adapting to the individual users recent disk access pattern. DTNA-xxxxx support this feature. This feature has two-stage idle mode. One is Performance Idle mode. The other is Low Power (LP) Idle mode. 10.5.1 Performance Idle mode This mode is usually entered immediately after Active mode command processing is complete, instead of conventional idle mode. In Performance Idle mode, all electronic components remain powered and full frequency servo remains operational. This provides instantaneous response to the next command. The duration of this mode is intelligently managed as described below. 10.5.2 Low Power (LP) Idle mode In this mode, power consumption is 15-20% less than conventional idle mode. Additional electronics are powered off, and the head is parked near the mid-diameter of the disk without servoing. Recovery time to Active mode is about 40ms. 10.5.3 Transition Time The transition time is dynamically managed by user's recent access pattern, instead of fixed times. The algorithm monitors the frequency of commands over intervals of interest, usually several seconds. The algorithm judges how long the current burst of commands will continue by maintaining a distribution of command frequencies. After each command, the algorithm calculates the probability that the current burst of commands is complete based on the statistics of the distribution. Each time this algorithm decides that the current burst of commands is not yet complete, it places the device in Performance Idle mode. This means another command will arrive very soon, and the response to it can now be instantaneous without the delay associated with conventional idle. Since bursts usually contain tens of commands, performance is improved. When this algorithm decides the current burst of commands is complete, it knows with high probability that the next command will not occur for a relatively long time (seconds). To conserve power, this feature places the device in LP Idle mode, then performs a seek to the mid-band and enters a low power state. The optimal time to enter LP Idle is variable depending on the users recent behavior. It is not possible to achieve the same level of savings with a fixed entry time into LP Idle because each user's data and access pattern is different. The optimum entry time changes over time. To recover to Active mode from LP Idle requires about 40 ms. This does not represent a significant performance impact because it is a relatively rare event, and because a new burst of commands almost always begins with a seek to a new location which requires the time anyway. Throughput is maintained because LP Idle is entered only when a long idle interval is anticipatied. 62 OEM Specifications of DTNA-2xxxx 2.5 inch H D D