JPH04184551A - Data restoring system for electronic disk device - Google Patents

Abstract

PURPOSE:To shorten the data restoring time of an electronic disk device and to eliminate the possibility of occurrence of data destruction due to an artificial mistake by restoring data in a memory from an auxiliary storage device when an uncorrectable data error occurs in the data when power supply is made. CONSTITUTION:When power supply is made, a diagnosis control circuit 2 diagnoses a data control circuit 1 and, when the diagnosed result is normal, checks a memory 3 for an uncorrectable data error by reading the entire area of the memory 3. Upon finding an error, whether or not the data saving to an auxiliary storage device 4 is normally completed at the last power supply disconnecting time is discriminated. When the data saving is normally completed, data are restored into the memory 3 from the auxiliary storage device 4. Therefore, data restoration can be easily performed in a short time and the risk of destroying data by the wrong operation of a maintenance attendant can be eliminated.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a data recovery method for an electronic disk device using a semiconductor memory.

[Conventional technology]

Generally, when an electronic disk is powered on.

It checks to see if there are any uncorrectable errors in the data in memory, and if an error exists, conventionally the data is made unusable (offline). Also, traditionally, after going offline.

The data was restored by maintenance personnel, and after the data was restored, a ready command was issued to make it operational again.

FIG. 3 is a flowchart showing an example of data recovery processing of a conventional electronic disk device. As shown in Figure 3,
When the power is turned on (step 550), initialization (
Initialization) is performed (step 851), and then the data control circuit is diagnosed (step 5s2).
It is determined whether the diagnosis result is normal or not (step 5
53).

If the diagnosis result is abnormal, other cause analysis is performed (step 554).

On the other hand, if the diagnosis result is normal, the data on the memory is checked (step 555).

It is determined whether it is normal or not (step 556), and if it is normal, it is made online (ready) (step 557).
. On the other hand, if the check result of the data on the memory is not normal, the maintenance panel is operated to make it offline (step 5SS), and then the data recovery operation processing of steps 859 to S65 is performed. .

That is, after going offline, the maintenance personnel should analyze the cause of the Stella fS 59) and determine whether it is a memory data error (Step 560).

When there is a memory data error, the auxiliary storage device (S
VD) is present. Auxiliary storage device (SV
D), the maintenance personnel restores the data from the maintenance panel to recover the data (step 862);
Check the memory data again (Stella 7'863).

As a result, when the data in memory becomes normal (
Step 564), operate the maintenance panel to issue a ready command.Step 565), online (ready)
I was doing it.

[Problem to be solved by the invention]

In this way, in conventional electronic disk devices, if an uncorrectable data error exists in the memory when the power is turned on, the device becomes unusable (offline).

Maintenance personnel had to perform completely independent procedures to restore data from the auxiliary device from the device's maintenance channel, and issue a ready command from the maintenance channel to bring it online.

In other words, since data recovery was performed by maintenance personnel using the maintenance control panel, it took a considerable amount of time to recover, and data in the auxiliary storage device could be destroyed due to operational errors, etc.45. There was a risk.

The present invention is a book that improves these conventional drawbacks, and its purpose is to make it possible to easily restore data in a short time, and to eliminate the risk of data destruction due to maintenance staff's operational errors. An object of the present invention is to provide a data recovery method for an electronic disk device.

[Means to solve the problem]

In an electronic disk device having a memory and an auxiliary storage device in which data is saved when the power is turned off, the present invention diagnoses data on the memory when the power is turned on, and detects uncorrectable data errors in the data on the memory. In some cases, the data is read from the auxiliary storage device and stored in memory for data recovery.

[Effect]

According to the present invention, when there is an uncorrectable error in data on memory, data from the auxiliary storage device is restored and automatic data recovery is performed.

〔Example〕

Hereinafter, the present invention will be explained with reference to the drawings. FIG. 1 is a schematic diagram of the configuration of an electronic disk device according to an embodiment of the present invention.

In FIG. 1, the electronic disk device of this embodiment includes a semiconductor memory 3, which is a storage medium for the electronic disk, and an auxiliary storage device (SVD) 4.

It has a data control circuit 1 that controls writing/reading in the memory 3, and a row 5 diagnostic control circuit 2 that diagnoses the data control circuit 1 and controls the auxiliary storage device 4.

Next, the processing operation when an uncorrectable error exists in the data on the memory when the power is turned on in the electronic disk device having the above five configurations will be explained using the flowchart shown in FIG.

When the power is turned on (step S1), initialization (
initialization) is performed (step 52), and then
The data control circuit 1 is diagnosed by the diagnostic control circuit 2 (step 53), and it is determined whether the first diagnosis result is normal (step s4). If there is an abnormality in the diagnosis result, the process is taken offline (step S5), and the cause is analyzed.

On the other hand, if the diagnosis result is normal, it is primary.

It is checked whether there is any uncorrectable data error in the data on the memory 3 by reading the entire memory 3 (step 86). As a result, if there is no error (step S
7) The device is set offline (ready) and the device is made operational (step s8).

Fi if there is an error (step 87). Determine whether this device has auxiliary storage (svn) (
Step S9). In this case, since the device shown in FIG. 1 has an auxiliary storage device (SVD) 4, it is also necessary to check whether data was successfully saved to the auxiliary storage device (SVD') 4 at the time of the previous power-off. is determined (Stella f
s10). As a result, if the data saving to the auxiliary storage device 4 at the time of the previous power-off was successfully completed, data K1,1 is stored from the auxiliary storage device 4 onto the memory 3 (step 511). next.

Check again whether there are any uncorrectable data errors in the data on the memory 3 (step 512).

If there is no error (step 513), the system is set online (ready) and operational.

〔Effect of the invention〕

As explained above, in the present invention, when an uncorrectable data error occurs in the data on the memory when the electronic disk device is powered on, the data is restored from the auxiliary storage device to the memory. Data is automatically restored, and the possibility of data destruction due to human error by maintenance personnel can be eliminated.

[Brief explanation of drawings]

FIG. 1 is a block diagram of an embodiment of the present invention, FIG. 2 is a flowchart showing processing operations according to the invention, and FIG. 3 is a flowchart showing conventional processing operations. In FIG. 1, 1...Data control circuit %2...Diagnostic control circuit, 3-
9゜Semiconductor memory, 4... Auxiliary storage device (SVD)
. Agent Patent Attorney Johei Yamashita Figure 1

Claims (1)

[Claims] It has a memory and an auxiliary storage device where data is saved when the power is turned off.When the power is turned on, the data in the memory is diagnosed, and if there is an uncorrectable data error in the data on the memory, the auxiliary storage device is saved. A data recovery method for an electronic disk device, characterized in that the data is read from the device and stored in a memory to recover the data.