JPH0334164A - Hard disk device - Google Patents

Abstract

PURPOSE:To accelerate processing speed by deviating a sector format by the prescribed number of sectors in a rotational direction of a disk for all the tracks following behind the track on which an alternate sector processing is applied in the same cylinder. CONSTITUTION:An alternate sector processing execution part 2 prohibits the use of a designated sector on a track (n) with a host command, and performs the re-formatting of the track so as to alternate to a spare sector. Next, a sector deviation processing execution part 3 switches the track to the next track n+1 in the same cylinder, and saves data recorded on the track to a working track prepared in advance. Next, the execution part 3 changes the state of the format of the track to the one where it is deviated by the prescribed number of sectors in the rotational direction of the disk, then, recovers the data. Thereby, when the read/write of the next track is performed from the track on which the alternate sector processing is applied, the time margin of the spare sector can be secured, which accelerate the processing speed of the whole of the device.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Field of Industrial Application) The present invention relates to a hard disk device used as an external storage device, etc. of various 11 computer systems.

(Prior Art) Conventionally, in a hard disk drive, a spare sector is set in advance in each track on the disk surface, and when an abnormal sector occurs, the track is replayed so that the spare sector is used as a replacement sector for this sector. Alternative sector processing methods that perform formatting are widely adopted.

By the way, in a hard disk drive employing such an alternative sector processing method, the spare sector is set as the last sector at the same rotation position of each track, causing the following problem.

That is, in general, in a hard disk drive, data is continuously read/written within the same cylinder to each disk surface by simply switching the respective heads provided corresponding to each disk surface. Among these, the spare sector is also useful for securing the time margin necessary for head switching. Therefore, if this is lost due to alternative sector processing or the like, the time margin decreases by that amount, and there is a problem that depending on the case, there is a wait for one rotation of the disk.

(Problem to be Solved by the Invention) As described above, in conventional hard disk devices, when data is continuously read/written from a track on which alternative sector processing has been performed to the next track west of the same cylinder, the disk There is a possibility that waiting time for one rotation may occur, which causes a problem that the processing speed of the entire apparatus decreases.

The present invention is intended to solve these problems, and is designed to prevent the occurrence of disk rotation wait when data is read/written from a track that has undergone alternative sector processing to the next track in the same cylinder. The purpose of the present invention is to provide a hard disk device that can prevent such problems.

[Structure of the Invention] (Means for Solving the Problem) In order to achieve the above-mentioned object, the hard disk device of the present invention has a plurality of disks and a head corresponding to each surface of the disk, and has a head that corresponds to each surface of the disk. In a hard disk drive configured to read/write data continuously within the same cylinder by switching each head, a spare sector is set in advance as the final sector at the same rotation position of each track on the disk surface. , an alternative sector processing means for reformatting a track including a spare sector so as to replace the sector with a spare sector due to the occurrence of a regular hole sector; For all subsequent tracks, data saving means temporarily saves the data recorded on the track to another storage area, and after data saving, the sector format of the track is shifted by a predetermined sector in the disk rotation direction. The apparatus is equipped with a sector shifting means for changing the state, and a data restoring means for restoring saved data to the track after the sector shifting is completed.

(Function) In the hard disk drive of the present invention, when the alternative sector processing means executes the alternative sector processing, the data saving means saves all tracks following the track on which the alternative sector processing has been performed in the same cylinder. , the data recorded on the track is temporarily saved to another storage area. Subsequently, the sector shifting means changes the sector format of the track to a state shifted by a predetermined sector in the disk rotation direction. Thereafter, the data restoration means restores the saved data to the track after sector shifting is completed.

Therefore, according to the present invention, when the head is successively switched from a track on which alternative sector processing has been performed to the next track within the same cylinder and data is read/written to the track, Since at least a time margin for the spare sector can be secured, it is possible to prevent the waiting time for one rotation of the disk from occurring.

(Example) Embodiments of the present invention will be described below based on the drawings.

FIG. 1 shows one embodiment of the present invention! FIG. 2 is a diagram for explaining a configuration related to alternative sector processing in a hard disk device.

The hard disk drive of the same embodiment has heads (not shown) corresponding to each surface of a plurality of disks 1, and by switching these heads, reading/writing data to each disk surface can be performed within the same cylinder. It is configured to be performed continuously.

In addition, in the figure, 2 sets a spare sector as the final sector at the same rotation position of each track on the first side of each disk, and includes the spare sector so that this sector is replaced by the spare sector when an abnormal sector occurs. An alternative sector processing unit 3 performs track reformatting, and a sector shifting unit 3, which will be described later, performs the alternative sector processing.
This is a sector shifting processing execution unit that executes 1.

Next, the operation of this embodiment will be explained using FIGS. 2 and 3.

FIG. 2(a) shows a sector format and a mat including spare sectors set in advance in each track in the same cylinder on one surface of each disk.

First, when the alternative sector processing execution unit 3 receives a request command for alternative sector processing on track n from the host (step A), the alternative sector processing execution unit 3 uses the designated sector on track n. The track is reformatted to be prohibited and replaced with a spare sector (step B). FIG. 2(b) shows the sector format after this alternative sector processing.

When this alternative sector processing is completed, the alternative sector processing execution unit 3 then notifies the sector shifting processing execution unit 3 that the processing has been completed.

As a result, processing by the sector shift processing execution unit 3 is started.

In this process, the head is first switched to the next track n+1 in the same cylinder (step C), and the data recorded on this track is evacuated to a previously prepared work track (step D).

When this data saving process is completed, the sector shifting process execution unit 3 changes the sector format of the track to
The state is shifted by a predetermined sector (in this case, one sector) in the disk rotation direction (step E).

Next, the sector shift processing execution unit 3 records the data saved in the work track again on the track to restore the data (step F).

Thereafter, the above-described sector shifting process is performed on all tracks following track n+1 in the same cylinder (step G), and when the process is completed on the last track m, this process ends.

As described above, all tracks n+1 following track n to which alternative sector processing has been performed within the same cylinder...
m is changed so that its sector format is shifted by a predetermined sector in the disk rotation direction, as shown in FIG. 2(C).

As a result, from track n that has undergone alternative sector processing,
When the head is subsequently switched to the next track n+1 and data is written/written to the track n+1, a time margin for at least a spare sector can be secured, and the processing speed of the entire device can be effectively improved. becomes possible.

In the above-described embodiment, a work track is prepared in advance on the disk 1, and the data on the track on which sector shifting processing is to be performed is temporarily saved to this work track. The data is not limited to this, and the data may be saved in a work area such as a RAM, for example.

[Effects of the Invention] As explained above, according to the hard disk drive of the present invention, the head is continuously switched from the track on which alternative sector processing has been performed to the next track in the same cylinder, and data is transferred to the track. When reading/writing the
At least a time margin for the spare sector can be secured, and as a result, it is possible to prevent the waiting time for one revolution of the disk from occurring.

[Brief explanation of drawings]

FIG. 1 is a diagram for explaining the configuration related to alternative sector processing in a hard disk device according to an embodiment of the present invention, and FIG.
The figure is a diagram showing the sector format of each track in the same cylinder and an example of changing the format in the same embodiment, and FIG. 3 is a flowchart showing the flow of sector shifting processing in the same embodiment. DESCRIPTION OF SYMBOLS 1...Disk, 2...Alternative sector processing execution part, 3
... Sector shift processing execution unit.

Claims (1)

[Scope of Claims] It has a plurality of disks and a head corresponding to each surface of the disk, and reading/writing data to each of the disks is performed continuously within the same cylinder by switching each of the heads. In the hard disk drive configured as above, a spare sector is set in advance as the final sector at the same orbital position of each track on the disk surface, and the spare sector is set so that when an abnormal sector occurs, the spare sector is replaced by the spare sector. an alternative sector processing means for reformatting a track containing the above-mentioned alternative sector processing; a data saving means for saving data to a storage area; a sector shifting means for changing the sector format of the track to a state shifted by a predetermined sector in the disk rotation direction after saving the data; 1. A hard disk device comprising: data restoration means for restoring saved data.