JPH07161092A - Optical disk control device - Google Patents

Abstract

PURPOSE:To perform an initialization procession in a short time while maintaining an interchangeability with those initialized by a conventional initialization procession. CONSTITUTION:This device is provided with a high speed initialization means 8 making a disk structure managing table and a defected sector table in which no defected sector is assumed to be present without performing the erasure, the recording, the verification of the data area of an optical disk MOD-Further, the device has a writing control means 10 performing a writing control for recording the disk structure managing table and the defected sector managing table made by the means 8 into the optical disk MOD.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical disk control device which is connected to a host computer through an input / output interface and controls each part of the optical disk device by a command issued from the host computer.

[0002]

2. Description of the Related Art A conventional magneto-optical disk initialization processing flow is shown in FIG. Step a: When an initialization command is received from a host computer (not shown), the entire data area of the magneto-optical disk is physically formatted first. Step b: The entire data area of the magneto-optical disk is completely erased, recorded, and verified, and the defective sector is extracted in association with each processing operation. Steps c and d: The process of creating the disk structure management table including the address data of the defective sector management table and the data related to the user area, and the process of creating the defective sector management table of the defective sector extracted in step b above are performed. Step e: The created disk structure management table and defective sector management table are recorded in a predetermined area of the magneto-optical disk.

It is necessary to read or write data from or to the initialized magneto-optical disk while avoiding a defective sector existing in the magneto-optical disk and in a predetermined user area. . For this reason,
A disk structure management table and a defective sector management table are required.

[0004]

Recently, the quality of magneto-optical disks has improved due to advances in the manufacturing technology of magneto-optical disks, and there are almost no defective sectors, or at most one or two defective sectors. ing. However,
In the conventional initialization process, the entire data area of the magneto-optical disk is completely erased, recorded, and verified, and the defective sector is extracted in each process, so that in a magneto-optical disk having a large capacity of several hundred megabytes, There is a problem that it takes a long time of about tens of minutes just to perform the initialization process.

Therefore, it is a first object of the present invention to provide an optical disk control device capable of performing initialization processing in a short time while maintaining compatibility with the conventional initialization processing. A second object is to provide an optical disk control device capable of selecting normal initialization processing and high-speed initialization processing.

[0006]

An optical disk control device according to a first aspect of the present invention is a device for erasing a data area of an optical disk,
High-speed initialization means for creating a disk structure management table and a defective sector management table assuming that there is no defective sector without recording and verification, and recording the created disk structure management table and defective sector management table on the optical disk. And a write control means for performing write control for writing.

Further, the optical disc control apparatus of the second embodiment has a normal initialization means for erasing, recording, and verifying the data area of the optical disc, and creating a disc structure management table and a defective sector management table, and the erasing, recording, and High-speed initialization means for creating a disk structure management table and a defective sector management table on the assumption that there are no defective sectors without performing verification, and a mode selection means for selecting one of these normal initialization means and high-speed initialization means. And write control means for performing write control for recording the disk structure management table and defective sector management table created by the selected initialization means on the optical disk. As the mode selection means, it is preferable to select the normal initialization means or the high speed initialization means based on the mode selection information included in the input initialization command.

[0008]

The operation of the optical disk control device of the first embodiment is as follows. The high-speed initialization means creates a disk structure management table and a defective sector management table assuming that there is no defective sector, without erasing, recording, or verifying the data area of the optical disk. The writing control means performs control for recording the created disk structure management table and defective sector management table on the optical disk.

The operation of the optical disc control device of the second embodiment is as follows. When the normal initialization means is selected by the mode selection means, the normal initialization means
The data area of the optical disk is erased, recorded and verified, and the disk structure management table and defective sector management table are created.

On the other hand, when the high-speed initialization means is selected by the mode selection means, the high-speed initialization means does not perform the erasing, recording, and verification, and the disk sector management table and the defective sector which is assumed to have no defective sector Create a control table. The write control means performs control for recording the disk structure management table and the defective sector management table created by the normal initialization means or the high speed initialization means on the optical disk.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described with reference to the drawings. FIG. 1 is a block diagram of an optical disk control device. The optical disk control device is incorporated in the optical disk device and is connected to the host interface circuit 2 of the host computer 1 via, for example, SCSI (Small Computer Systems Interface). Then, each part of the optical disk device is controlled by a command and a control signal transmitted to and received from the host computer 1 via the SCSI bus 3.

The optical disk control device serves as a control center of the entire device and also analyzes a command input via the SCSI bus 3 and the like.
singUnit) 4, a program storage memory 5 composed of a ROM or the like, and a work memory 6 composed of a RAM or the like
And erasing and recording the entire data area of the optical disc MOD.
The normal initialization means 7 for creating the verification and the disk structure management table and the defective sector management table, and the defective sector management table on the assumption that the disk structure management table and the defective sector do not exist without performing the erasing, recording and verification. A high-speed initialization means 8 to be created, a mode selection means 9 for selecting one of the normal initialization means 7 and the high-speed initialization means 8, a disk structure management table and a defective sector created by the selected initialization means. It has a writing control means 10 for performing writing control for recording a management table on the optical disc MOD.

The disk structure management table includes the number of groups, the logical block address of each group, the logical block address of the number of user data sectors per group, the number of user data sectors, and the like, as well as the primary and secondary sector management tables. Of the start track number, the start track number, the start sector number, and the like. The number of user data sectors and their logical block addresses shown in this disk structure management table can be uniquely determined by setting the number of groups in advance.

The defective sector management table comprises a primary defective sector management table and a secondary defective sector management table. The primary defective sector management table is data relating to defective sectors generated in the optical disc manufacturing stage, and is a list including the first defective sector, the logical block address of the nth track number, the track number, and the sector number. The secondary defective sector management table is data relating to the defective sector after the initialization processing, and includes the logical block address of the track number of the defective sector, its track number, the sector number, the logical block address of the track number of the alternative sector, It is a list including the track number, sector number, and the like.

The normal initialization means 7 executes the entire erasing, recording, and verifying process of the data area of the optical disk MOD, and also produces the disk structure management table and the defective sector management table concerning the defective sectors actually existing in the optical disk MOD. create.

The high-speed initialization means 8 creates a disk structure management table having preset contents and a defective sector management table assuming that there are no defective sectors, without erasing, recording, and verifying the entire surface of the optical disk MOD.

That is, the disk structure management table created by the high-speed initialization means 8 is of a preset group regardless of the primary and secondary defective sectors actually existing in the physically formatted optical disk MOD. Number, the logical block address of each group, the logical block address of the number of user data sectors per group, the number of user data sectors, etc., as well as the primary defective sector management table and the secondary defect assuming that there is no defective sector. The contents include the logical block address of the start track number of the sector management table, the start track number of the secondary defective sector management table, and the start sector number. For example, in the primary defective sector management table, FFh is written in the first defective sector address, the secondary defective sector management table has only bytes 0 to 8, and 00h is written in bytes 8 and 9. The contents of the primary defective sector management table and the secondary defective sector management table are as described above, but the format format of these primary and secondary defective sector management tables is normally created by the initialization means 7.
It is the same as the secondary defective sector management table and is compatible.

When a FORMAT UNIT command, which is a SCSI initialization command, is input, the mode selection means 9 receives a CDB (Command Descripter Bloc) of the command.
The vendor unique field of k) is referred to, and it is selected from the bit state by discriminating between the normal initialization mode and the fast initialization mode. For example, if the bit state of the vendor unique field is "0", the normal initialization means 7 is selected, and if the bit state is "1", the high speed initialization means 8 is selected.

The write control means 10 sends a write instruction to the CPU 4 to write the disk structure management table and the defective sector management table created by the initialization mode selected by the mode selection means 9 to the optical disk MOD.

On the output side of the CPU 4, the CPU 4
A controller 11 for performing a writing process in response to a control signal from the disk, and a disk structure management table and a defective sector management table stored in the working memory 6 from the NZR data format to the 2-7 RLL data format 2-7 A modulation / demodulation circuit 12, a read / write controller 13 for digital / analog converting the 2-7 RLL data output from the 2-7 modulation / demodulation circuit 12, an analog-converted disk structure management table, and a defective sector management table. An optical head 14 for writing on the optical disc MOD is connected.

The operation of this optical disk control apparatus will be described with reference to the initialization processing flow shown in FIG. Step 1 (abbreviated as S1 in the figure. The same applies hereinafter): When the FORMAT UNIT command is input from the host computer 1, the process proceeds to step 2. Step 2: The mode selection means 9 uses the input FORMAT U
Refer to the vendor unique field of the NIT command, and if the bit status is "0", proceed to step 3,
If not "0", proceed to step 3 '.

<High-speed initialization mode> Step 3 ': The high-speed initialization means 8 creates a preset disk structure management table and a defective sector management table when there is no defective sector, and the working memory 6 To load. Step 4 ': The write control means 10 sends a write instruction to the CPU 4. The CPU 4, which has received the write instruction, sends the disk structure management table and the defective sector management table loaded in the working memory 6 to the 2-7 modulation / demodulation circuit via the controller 11.

The 2-7 modulation / demodulation circuit 12 converts the input disk structure management table and defective sector management table from the NZR data format to the 2-7 RLL data format. This 2
The disk structure management table and the defective sector management table converted into the -7RLL data format are stored in the read / write controller 13
Is converted from digital to analog by the optical head 14 and written on the optical disk MOD via the optical head 14.

When data is read or written from the optical disc MOD which has been initialized as described above, the data area is verified every read or write operation. At the time of this verification, the defective sector actually existing in the optical disc MOD is extracted, and the data regarding this defective sector is added to the defective sector management table. At this time, regardless of whether the extracted defective sector is a primary defect or a secondary defect, it may be added to any defective sector management table.

<Normal Initialization Mode> Steps 3 to 5:
The normalizing means 7 normally erases the entire data area of the optical disc MOD to make the magnetization directions of the respective sectors uniform and records necessary data in the respective areas. Then, the entire surface of the data area is verified. Step 6: A disk structure management table and a defective sector management table are created based on the primary and secondary defective sector data actually obtained by the entire erasing, recording and verifying process, and loaded into the working memory.

Step 7: The write control means 10 uses C
A write instruction is sent to PU4. After that, the disk structure management table and the defective sector management table are written to the optical disk MOD through the same processing as the processing in step 4 ′.

The present invention is not limited to the illustrated or described embodiments, but various modifications can be made within the scope of the invention. In the above-described embodiment, the one including the high-speed initialization means and the normal initialization means has been described, but only the high-speed initialization means may be provided.

A MODE SELECT command for setting various parameters is prepared for the SCSI command, and the CDB of this command has FORMAT PAGE.
Therefore, mode selection information may be assigned to this FORMAT PAGE to select the normal initialization mode or the fast initialization mode.

[0029]

According to the present invention, the following effects can be obtained. (1) Since the high-speed initialization means creates a preset disk structure management table and a defective sector management table assuming that there are no defective sectors without extracting defective sectors of the optical disk, the initialization process is extremely short. Can be done in time.

(2) The disk structure management table and the defective sector management table created by the high-speed initialization means have a byte indicating the existence of a defective sector in the disk structure management table and the defective sector management table created by the normal initialization means. It has the same format as that in which data indicating that there is no defective sector is written. Therefore, it is possible to make the optical disk initialized by the high-speed initialization means compatible with the optical disk initialized by the normal initialization means.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of an optical disk control device of the present invention.

FIG. 2 is a flowchart showing an initialization process of the optical disc control device.

FIG. 3 is a flowchart showing an initialization process of a conventional optical disc control device.

[Explanation of symbols]

 1 Host Computer 2 Host Interface Circuit 3 SCSI Bus 4 CPU 5 Program Storage Memory 6 Working Memory 7 Normal Initialization Means 8 High Speed Initialization Means 9 Mode Selection Means 10 Write Control Means 11 Controller 12 2-7 Modulation Demodulation Circuit 13 Lead / Write controller 14 Optical head MOD Optical disc

Claims (3)

[Claims] 1. An erasing / recording of a data area of an optical disc.
A high-speed initialization means for creating a disk structure management table and a defective sector management table on the assumption that there is no defective sector without performing verification, and for recording the created disk structure management table and defective sector management table on the optical disk. And a write control means for performing write control of the optical disk control device. 2. An erasing / recording of a data area of an optical disk
Ordinary initialization means for making verification and its disk structure management table and defective sector management table, and creating a disk structure management table and a defective sector management table assuming that there is no defective sector without performing the erasing, recording and verification. A high-speed initialization means, a mode selection means for selecting one of the normal initialization means and the high-speed initialization means, and a disk structure management table and a defective sector management table created by the selected initialization means. An optical disk control device, comprising: a write control means for performing write control for recording on a disc. 3. The optical disk control device according to claim 2, wherein the mode selection means selects the normal initialization means or the high-speed initialization means based on the mode selection information included in the input initialization command.