JPS62209774A - Alternate processing system for defective area in magnetic disk device - Google Patents

Abstract

PURPOSE:To obtain a complete form of alternate processing without affecting an access to a normal area, by retrieving an alternate record allocation table in the detecting time of a signal to indicate the failure of a table, and accessing to an alternate area corresponding to a defective area. CONSTITUTION:In a magnetic disk device, an alternate record allocation table ARAB 2 is retrieved only when a specific area is accessed, and the signal of the said area from a defective cylinder reference table DCRB 1 is detected, and the alternate area corresponding to the defective area is accessed. In this way, the complete form of alternate processing for the defective area is performed without affecting the access to the normal area, and the good access speed and high reliability can be obtained.

Description

[Detailed Description of the Invention] [Summary] In a magnetic disk drive, there is a defective cylinder reference table (DCRB) that stores defective areas in one-to-one correspondence with their cylinder addresses, and a replacement table that associates the defective areas with replacement areas. By providing a record allocation table (ARAB), a specific area of the medium of the magnetic disk device can be accessed and a defective cylinder reference table (DC
Only when a signal (interrupt signal) indicating that the access area in question is a defective area from RB) is detected, the above-mentioned replacement record allocation table (ARAB) is searched and the replacement area for the defective area is accessed. This is what I did.

[Industrial application field]

The present invention relates to a magnetic disk device, and particularly to a medium of the magnetic disk device. Alternatively, the present invention relates to a processing method for recognizing a potentially defective area and accessing a replacement area.

Conventional magnetic disk devices were generally used as file storage devices (FM) in computer systems, but with recent remarkable advances in computer technology, they have become larger in capacity and more economical. As a result, magnetic disk devices have changed from system-specific file storage devices to file storage devices that are easily used by general users.
The influence of reprocessing on defective areas on a medium can no longer be ignored, and an effective replacement processing method for the defective areas is now required.

[Prior art and problems to be solved by the invention] FIG. 3 is a diagram illustrating a conventional replacement processing method for defective records.

Normally, in a magnetic disk device when shipped from the factory,
Defective records are formatted with alternate assignments and can be used individually, but if a defective record occurs during on-site operation, for example, initialization processing can be used to assign alternate records. It is necessary to make an allocation.

This figure schematically shows the relationship between defective records and replacement records, where ■ indicates the address area of the normal record, ■ indicates the address area of the defective record, and ■
indicates the address area of the spare area used as a replacement record.

Now, when accessing a specific normal record of the magnetic disk device, read the address area marked ■ in this diagram,
After comparing with the access address and recognizing a match, the record is accessed.

If the accessed record is a defective record,
The address area shown in ■ will be read, so
Since the access address does not match and the first bit of the flag (F) bit in the address area is "1", the record is recognized as a defective record and the replacement registered in the address area is Read the logical address on the record side, access the record ■, read the logical address on the defective record side registered in the address area of the record, confirm that it matches the own access address, and execute the replacement. Records can be accessed.

■ is a schematic representation of the above link between the defective record and the replacement record, where address (Add) = A
If the accessed record is a defective record, the address (8dd) = a of the replacement record registered in the address area (AA) of the defective record indicates that the replacement record can be accessed. At this time, in the address area (AA) of the defective record,
It can be seen that the address (8dd)=A of the replaced original record (referred to as the -next address) is registered and that they are linked to each other.

In this conventional method, defects in the user area are recorded in the area itself and associated with the replacement area, resulting in the following problems. That is, (1) Since the defective record itself has a defect indication (flag bit), it may not even be possible to compose information corresponding to the replacement record.

(2) If a replacement record is substituted without even being able to indicate the defect, if the defective record is read, the data will be inconsistent.

(3) Even records that may become defective for a long time may end up being used as normal due to an error in initialization or malfunction of the control unit.

FIG. 4 is a diagram illustrating another conventional defective area replacement processing method.

This conventional method is an example in which a table is provided in which defective record addresses and replacement record addresses are recorded in pairs.

In this conventional method, when accessing a specific record, the table is always searched and the record is accessed only after confirming that the access address is not registered.

Therefore, there is a problem in that the overhead in the magnetic disk device becomes large.

SUMMARY OF THE INVENTION In view of the above-mentioned drawbacks of the conventional technology, it is an object of the present invention to guarantee the reliability of data by completely allocating a replacement area and to provide means for quickly accessing the replacement area.

[Means for solving problems]

FIG. 1 is a block diagram of the principle of the defective area replacement processing method of the present invention.

In the present invention, in a magnetic disk device, a defective cylinder reference table (DCRB) 1 stores defective areas that cannot be read or written or are predicted to be at risk of becoming unable to read or write, in a one-to-one correspondence with their cylinder addresses; A replacement record allocation table (ARAB) 2 is provided for associating the defective area with a replacement area, and when a specific area is accessed in the magnetic disk device,
Only when a signal (interrupt signal) indicating a defect in the area from the defective cylinder reference table (DCRB) 1 is detected, the replacement record allocation table (AR
AB) 2 is searched and a replacement area corresponding to the defective area is accessed.

[Effect]

That is, according to the present invention, in a magnetic disk drive, there is provided a defective cylinder reference table (DCRB) that stores a defective area in one-to-one correspondence with its cylinder address, and a replacement record allocation for associating the defective area with a replacement area. By providing a table (ARAB), a signal (interrupt signal) that accesses a specific area of the medium of the magnetic disk device and indicates that the accessed area is a defective area from the defective cylinder reference table (DCRB).
Only when a defective area is detected, the replacement record allocation table (ARAB) is searched and the replacement area for the defective area is accessed. Therefore, replacement processing for the defective area can be carried out in a complete manner. , it is possible to perform alternate processing without affecting access to the general normal area, and the normal area can be accessed as before.

Moreover, the defective area has the effect of being able to obtain faster access speed and higher reliability than ever before.

〔Example〕

Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 2 is a block diagram showing one embodiment of the present invention.
) 1 and alternate record allocation table (ARAB)
2. and related features are the means necessary to carry out the invention. Note that the same reference numerals indicate the same objects throughout the figures.

Hereinafter, while referring to the above-mentioned FIG. 1, according to FIG. 2,
A defective area replacement processing method according to the present invention will be explained.

In this embodiment, the total number of cylinders is 2048. ) Rank aspect 12. This example is based on a magnetic disk device with 32 records and 2000 user cylinders.

The defective cylinder reference table (DCRB) 1 of the present invention is composed of 256 bytes as shown in FIG.
It corresponds to

Therefore, if the cylinder address is “CYL”,
In the defective cylinder reference table (DCRB) 1,
It can be determined by Bi l-Position-CYL/8 Human Position-CYL-(CYI,/8) *8.

For a cylinder in which a defective record exists, the bit of the corresponding defective cylinder reference table (DCRB) l is set to, for example, 0.1.

As a result, the cylinder address of the seek address register 11 and the defective cylinder reference table (DCRB)
1 and the software or firmware,
Alternatively, a bit-by-bit comparison is performed by hardware means, and if the cylinder contains a defective record, the comparator circuit (C) 12 generates an interrupt signal (INT).

Furthermore, the alternate record allocation table (ARAB) 2 necessary to implement the present invention is as shown in FIG.
For example, when the ■ element is composed of 8 hides and an interrupt signal (INT) indicating access to the defective cylinder is output, the ARAB detection unit 21 is activated and the replacement record allocation table (ARAB) 2 is searched. It operates to determine a replacement area and access the determined replacement area via the access control unit 22.

The above alternate record allocation table (AI?Al1)
2, at the initial setting stage of the magnetic disk device,
They are created in the order of defective addresses, and the above interrupt signal (INT
), the search is performed sequentially starting from address 0, for example. The functional block for this search operation is the ARAB search section 21 mentioned above.
It is.

In the ARAB search unit 21, the above-mentioned interrupt signal (
INT) and rewrites the contents of the alternate record allocation table (ARAB) 2 in descending order of access frequency. This rewriting timing is, for example, when an interrupt signal (INT) corresponding to the number of minus steps is detected.

The above defective cylinder reference table (DCI?B) 1.
Access to the alternate record allocation table (ARAB) 2 is normally made by firmware or an operating system (OS) when the magnetic disk device is ready, from a magnetic disk medium (not shown) to the magnetic disk device. DCRB within
, is performed after being expanded to the ARAB expansion storage (RAM).

Therefore, when the above rewriting is performed, the contents of the alternate record allocation table (ARAB) 2 on the medium must also be rewritten.

Also, defective cylinder reference table (DCRB) 1. It goes without saying that both the Alternate Record Allocation Table (ARAB) and the Alternate Record Allocation Table (ARAB) may be written in a defect-free guaranteed area on the magnetic disk medium in duplicate or triple, if necessary.

In this way, the present invention provides a defective cylinder reference table (DCRB) in which a cylinder in which a defective record exists and a defective cylinder reference table (DCRB) corresponds to the cylinder in which a defective record exists, in addition to the commonly used defective address-replacement address correspondence table. The defective address-alternative address correspondence table (alternative record allocation table (ARAB)) is searched only when the cylinder address of the record is accessed and detected to be a cylinder containing a defective record. There are characteristics.

〔Effect of the invention〕

As described above in detail, the defective area replacement processing method of the magnetic disk device of the present invention is based on a defective cylinder reference table (DCRB) that stores defective areas in a one-to-one correspondence with their cylinder addresses in the magnetic disk device. By providing an alternate record allocation table (ARAB) for associating the defective area with a replacement area, a specific area of the medium of the magnetic disk device can be accessed and the access from the defective cylinder reference table (DCRB) can be performed. Only when a signal (interrupt signal) indicating that an area is a defective area is detected, the replacement record allocation table (ARAB) is searched and the replacement area for the defective area is accessed. Replacement processing for defective areas can be performed completely, and
Alternative processing can be performed without affecting access to general normal areas, and while normal areas can be accessed as before, access speeds and reliability higher than before for defective areas can be obtained. effective.

[Brief explanation of drawings]

FIG. 1 is a principle block diagram of the defective area replacement processing method of the present invention. FIG. 2 is a block diagram showing an embodiment of the present invention. FIG. 3 is a diagram schematically showing a conventional replacement processing method for defective records. FIG. 4 is a diagram illustrating another conventional defective area replacement processing method. It is. In the drawing, 12 is a comparison circuit (C). 2 is an alternate record allocation table (ARAB). 21 is the RAB search section. 22 is an access control unit.

Claims (1)

[Scope of Claims] In a magnetic disk device, a defective cylinder reference table (DCRB) (1 ) and an alternate record allocation table (ARAB) (2) for associating the defective area with a replacement area, so that when a specific area is accessed in the magnetic disk device,
Only when a signal indicating a defect in the area from the defective cylinder reference table (DCRB) (1) is detected, the replacement record allocation table (ARAB) (2) is searched and the replacement area corresponding to the defective area is searched. A defective area replacement processing method for a magnetic disk device characterized by accessing.