Method and system for writing data to a magnetic storage...

Electrical computers and digital processing systems: memory – Addressing combined with specific memory configuration or... – Dynamic-type storage device

Reexamination Certificate

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Details

C360S075000

Reexamination Certificate

active

06405277

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to magnetic storage device operation and more particularly to a method and system for writing data to a magnetic storage device when the device ambient temperature is relatively cold or hot.
2. Description of the Prior Art
A common concern for saving data onto a magnetic storage device is the reliability of the write operation when performed at the extremes of the temperature specification. While the read operation works well under these extreme circumstances, the write process may result in unrecoverable hard errors when attempts are made to read the data on either the target block or blocks adjacent to the target block.
One source of the problems at the temperature extremes is the coercivity of the storage media, for instance, a magnetic disk or tape. The disk coercivity changes with temperature. In a cold-temperature environment, the disk coercivity is high, whereas in a warm-temperature environment, the disk coercivity is low. Hence, at the low temperatures the disk is more difficult to write; and at the warm temperatures, there is the potential of writing an extra wide track resulting in adjacent track squeeze. Therefore, on the one hand, when the disk coercivity is high in a low-temperature environment, the question is whether or not data will be saved onto the media and, if the data are saved, whether or not the data saved can be retrieved successfully. On the other hand, when the disk coercivity is low in a high-temperature environment, the question is whether or not the tracks adjacent to the target track still contain their original data after the write operation.
FIG. 1A
is a diagram illustrating the effect of disk coercivity on the written data bit width (track width) when the device is operating at a normal ambient temperature. A magnetic recording head
10
is shown flying above a magnetic disk
12
. Magnetic field
14
is generated by the recording head
10
when the head
10
is writing to the disk
12
and saves a recorded magnet (data bit)
16
on the disk media
12
. The width of recorded magnet
16
stays within a particular range when the recording head writes to the disk
12
so long as the device ambient temperature is within a normal operating temperature range.
However, as depicted in
FIG. 1B
, the disk coercivity is lower when the device ambient temperature is warmer, and the recorded magnets
18
saved on the disk media under this circumstance are wider than the recorded magnets
16
written to the disk media under the normal operating temperature as shown in FIG.
1
A.
Similarly, as illustrated in
FIG. 1C
, the disk coercivity is higher when the device ambient temperature is cooler, and the recorded magnets
20
stored on the disk media under this circumstance are narrower than the recorded magnets
16
saved onto the disk media under the normal operating temperature as shown in FIG.
1
A.
FIGS. 2A through 2C
are plan view diagrams showing the widths of the tracks written onto a disk under the various temperature regimes illustrated in
FIGS. 1A through 1C
. As shown in these diagrams, as the widths of the recorded magnetic data bits formed on the media change under different temperatures so do the track widths.
FIG. 2A
indicates three data tracks
22
each written under normal operating temperature. An arrow
24
shows the direction of magnetic head movement. Previously recorded data bits
28
are being written over with data to be saved in the current write operation.
FIG. 2B
shows a middle track
30
written at a higher temperature than the two surrounding tracks
22
which were written at normal operating temperature. As expected, the widths of the magnetic data bits in the middle track
30
are wider than those of the tracks written under normal operating temperatures. As a result, a track written under higher temperature may squeeze into its adjacent tracks and may destroy the data previously recorded thereon. For a save operation performed at a hot temperature, the newly saved information in the middle track
30
may interfere with previously written adjacent tracks
22
. Hence, this may cause unrecoverable hard errors when attempts are made to read the adjacent tracks
22
at a later time.
On the other hand, as shown in
FIG. 2C
, the width of the magnetic data bits in the middle track
32
were recorded at a cooler temperature resulting in a track which may be too narrow to be successfully read back. For a write operation performed at a cold temperature, the magnetic storage media may be so poorly written that the track cannot be properly read back. This may cause an unrecoverable read error when one attempts to read the data in the track at a later time.
Hence, a write operation to a magnetic disk works best when the device ambient temperature is within its normal operating temperature range. Conversely, a recording to a particular track performed at a temperature remote from the normal operating temperature may result in unrecoverable hard errors in a subsequent read operation attempted at the track or tracks adjacent to it. Data written to the track or in the adjacent tracks may never be properly read back. Therefore, it is desirable that the magnetic storage device ambient temperature be monitored before saving the data to the storage media and that data saved on the media be verified before completing the operation.
SUMMARY OF THE INVENTION
One object of the present invention is to provide a method and apparatus to insure that data saved onto a magnetic storage device are properly saved for future retrieval.
Another object of the present invention is to provide a method and apparatus to verify that data to be saved on a target track of a magnetic storage device are saved when the ambient temperature of the storage device is colder than normal operating temperature.
Yet another object of the present invention is to provide a method and apparatus to insure that data saved on a magnetic storage device when the ambient temperature of the storage device is within a predetermined range are verified before the save operation is complete.
One other object of the present invention is to provide a method and apparatus to insure that data in a tracks adjacent to a target track are unaffected by a write operation to the device when the device ambient temperature is warmer than normal operating temperature.
Briefly, the preferred embodiment includes a method for storing data on a target track of a recordable medium in a storage device via a magnetic head therein, said storage device has an operating parameter having an operational range with one extreme at which the writing of data to said device is prohibited. A first threshold within said range is defined and proximate said first extreme and delimits a first operational subrange. The method includes the steps of: monitoring said operating parameter; and determining whether the monitored parameter lies within said first subrange and if so, performing a first predetermined operation to compensate for deleterious effects on data storage caused thereby.
Another embodiment comprises a computer program product embodying a program of instructions executable by a machine to perform method steps for storing data on a target track of a recordable medium in a storage device via a magnetic write head. The storage device has an operating parameter having an operational range with one extreme at which the writing of data to said device is prohibited. A first threshold within said range is defined and proximate said first extreme and delimits a first operational subrange. The computer program product is operative to execute a method comprising the steps of: monitoring said operating parameter; and determining whether the monitored parameter lies within said first subrange and if so, performing a first predetermined operation to compensate for deleterious effects on data storage caused thereby.
Yet another embodiment includes a disk drive system having a magnetic storage medium for storing data in a storage device, wh

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