JPH04148445A - information processing equipment - Google Patents

Abstract

PURPOSE:To exchange storage units even if the power source of a processor is not disconnected by copying the stored content of the storage unit whose receive life does not last long into an exchange unit when it is inserted, and switching the storage unit after copy completes. CONSTITUTION:In addition to spaces 13-13n storing the storage units 14a-14n, a space only for exchange 15 storing the exchange unit 16 are provided. Function DPF displaying the storage unit to be exchanged, function IRF identifying that the new storage unit is inserted into the space only for exchange and copy function CPF copying data from the storage unit to be exchanged to the new storage unit are provided to an information processing part 11. when the exchange unit 16 is inserted into the space only for exchange 15, the stored content of the storage unit 14a whose service life does not last long is copied in the exchange unit 16 and it is switched to the storage unit 16. Thus, the storage units can be exchanged even if the power source of the processor is not disconnected.

Description

DETAILED DESCRIPTION OF THE INVENTION [Summary] The present invention relates to an information processing device having a large number of replaceable units having a data storage function.

The purpose is to provide an information processing device that allows storage units to be replaced without having to turn off the power to the computer. A function to display the storage unit to be replaced, a function to identify that a new storage unit has been inserted into the exchange-only space, and a function to identify the storage unit to be replaced when a new storage unit is inserted into the exchange-only space. The information processing section is configured to have a copy function of copying data from one to a new storage unit, and to switch the storage unit after copying is completed.

[Industrial Field of Application] The present invention relates to an information processing apparatus, and more particularly to an information processing apparatus having a large number of replaceable units having a data storage function.

In recent years, the field of use of information processing devices (computers) has expanded, and banks, hospitals, etc. are increasingly operating at full capacity 24 hours a day. Along with this, preservation of data stored in storage units such as disks and memories has become an important theme as failure preventive maintenance.

[Prior Art] In order to preserve data, in the field of large-scale computers, hardware failures are dealt with by having multiple pieces of hardware (redundant system). but.

Currently, in the field of medium and small-sized computers, duplication is not implemented due to cost, installation space, etc.

Therefore, there is a need for an information processing device that can maintain data by methods other than duplication.

Storage devices (storage units) such as memories and disks have the property that symptoms appear before they completely fail. That is, as the life approaches the end of life, errors increase when data is read/written. Note that before a complete failure occurs, normal operation is not affected even if a retry occurs, but an increase in the number of errors means that a failure will occur in the future, so it is necessary to replace the storage unit.

Therefore, conventionally, the number of errors is counted using the O8 function, and when a predetermined number of errors is reached, a replacement message is issued, and the storage unit is replaced by referring to the message.

[Problems to be Solved by the Invention] However, conventionally, storage units are replaced with the computer powered off. However, in a system that is in full operation 24 hours a day, even a slight stoppage of the JS computer is not desirable.

In light of the above, an object of the present invention is to provide an information processing apparatus in which storage units can be replaced without turning off the power of the computer.

[Means to solve the problem] FIG. 1 is a diagram showing the principle of the present invention.

11 is an information processing section of a computer configuration; 12 is a display section;
13a, 13b, . . . 13n are spaces (for example, slots) for storing storage units; 14a, 14b, . . .
14n is a storage unit, 15 is a replacement space, 16
is a replacement unit.

[Function] In addition to the spaces 13a, 13b, . . . , 13n for accommodating the storage units 14a, 14b, . A function DPF that displays the storage unit, a function IRF that identifies that a new storage unit has been inserted into the exchange-only space, and a new storage unit from the storage unit to be replaced when a new storage unit is inserted into the exchange-only space. A copy function CPF is provided to copy data to. As a result, a message indicating a storage unit (for example, the storage unit 14a) that is nearing the end of its lifespan is displayed on the display section 12, and then a message is displayed on the display section 12 to see if a replacement unit 16 has been inserted into the replacement space 15. copies the memory contents of the storage unit 14a, which is nearing the end of its lifespan, to the replacement unit 16,
After the copy is completed, the storage unit is switched from 14a to 16. In this way, the storage unit can be replaced without turning off the power to the processing device. In this case, the length of the connector pins of the replacement unit 16 is increased in the order of the power pin, the inrush current prevention power pin, the signal pin, and the ground pin, and when inserting the replacement unit into the replacement space 15, the ground pin → Signal pin → Power supply pin for inrush current prevention →
If the connection is made to the J socket of the power supply pin, it is possible to suppress element destruction, generation of inrush current, and malfunctions due to signal fluctuations when inserting the replacement unit 16, without having to turn off the power to the information processing device. can.

[Example] Overall configuration FIG. 2 is a configuration diagram of an embodiment of the present invention. In the figure.

11 is an information processing section of the computer configuration; 12 is a display section that displays a message prompting replacement of the storage unit; 13a;
, 13b, . . . 13n are spaces (for example, slots) for storing storage units, and 14a.

14b, . . . 14n are storage units that use hard disks as storage media; 15 is a space (slot) for exclusive use for exchange;
16 is a replacement unit.

The information processing unit 11 includes a processor (CPU) lla, a main memory (MM) llb, a disk channel 11c, a workstation channel 1lc1, and the like. A bus line (tiffface) 17 is led from the disk channel llc to each of the storage unit storage slots 13a to 13n and an exchange-only space slot 15, and is connected to a connector (not shown).

The display unit 12 includes, for example, a display function of a workstation. Note that the exchange message may be displayed on the display section of the operation panel.

Each of the storage units 14a to 14n and the replacement unit 16 has a connector CN, and when each unit is inserted into the slot, the pins of the connector CN are engaged with the jacks of the connectors provided in the slot, thereby connecting the disk channel llc and the storage units 14a to 14n. , data can be exchanged between the exchange dedicated slots 16.

Figure 3 is a schematic structural diagram of the connector CN in the storage unit (including the replacement unit), where 21 is a ground pin, 22 is a signal pin, 23 is a power supply pin for inrush current prevention, and 2
4 is a power supply pin, 25 is a resistor for reducing inrush current, 26 is a flexible cable, and 27 is a hard disk main body. The lengths of the power supply pin 24, inrush current prevention power supply pin 23, signal pin 22, and ground pin 21 are increased in this order, and when the storage unit is inserted into the slot, the ground pin 21 → signal pin 22 → inrush current prevention Power pin 2 for
Connection is made to the jack of the connector in the slot in the order of 3→power pin 24. As a result, even if the storage units 13a to 13n and the replacement unit 16 are inserted into the slots 14a to 14n and 15 while the information processing device is powered on, element destruction, inrush current generation, and malfunctions due to signal fluctuations are suppressed. be able to.

Figure 4, by Tachimi Kanemoto, is a flowchart of the storage unit replacement process in the information processing apparatus of the present invention.

The information processing unit 11 manages the number of read/write errors for each storage unit, and when the number of errors in a predetermined storage unit exceeds a set number, it instructs the display unit 12 to replace the unit (step 101, 102), it is assumed that the number of errors in the storage unit 14a exceeds a set value.

After that, the processor (CPU) lla monitors whether the replacement unit 16 is inserted into the replacement slot 15 (
Step 103). For example, a device number (
If configured to send out the machine number), the replacement unit 16
By setting a special machine number in the slot 15, the disk channel 11c can identify that the replacement unit 16 has been inserted into the slot 15.

It is also possible to provide a switch that turns on when a storage unit is inserted into the slot, and to identify whether a replacement unit has been inserted by turning on or off the switch.

Further, it is also possible to provide the disk channel lie with a polling function and use polling to check whether a storage unit is inserted into each slot during bus idle time.

When the replacement unit 15 is inserted, when the replacement unit 16 is inserted into the slot 15, the connection is made to the jack of the connector in the slot in the following order: ground pin → signal pin → inrush current prevention power pin → power pin.

When the insertion of the replacement unit 16 is notified, the processor l
la uses an interrupt routine to issue a disk copy command to copy the data stored in the storage unit 14a to be replaced to the replacement unit 16 (step 105).
.

The disk copy command causes the disk channel 11c to perform a disk copy from the storage unit 14a to the replacement unit 16 (steps 106 and 107).

When the disk copy is completed, the upper processor (CPU) is notified of this fact (step 1o8), and the processor switches the storage unit from 14a to 16.
Step 109 also instructs the removal of the storage unit 14a.
), the process ends.

Note that if the replacement unit 16 continues to be inserted into the replacement slot 15, a problem will occur when replacing the second storage unit. Therefore, (1) after leaving the storage unit 14a,
A new storage unit is inserted into the slot 13a, a disk is copied from the replacement unit 16 to the new storage unit, and after the disk copy, the replacement unit 16 is removed to make the replacement slot 15 empty. Alternatively, (2) when the computer is shut down for regular maintenance or the like at a later date, the replacement unit 16 in the replacement slot 15 must be replaced with the slot 13a.

The above explanation describes the case where replacement unit insertion is detected and disk copy is automatically performed, but it is also possible to receive a notification from the workstation that a replacement unit has been inserted,
It is also possible to manually control the disk copying machine and issue an instruction to start the disk copying.

Although the present invention has been described above with reference to examples, the present invention can be modified in various ways according to the gist of the present invention as described in the claims, and the present invention does not exclude these modifications.

[Effects of the Invention] According to the present invention, a message indicating a storage unit that is nearing the end of its lifespan is displayed, and then it is monitored whether a replacement unit is inserted into the replacement space. Since the storage contents of the storage unit that is nearing completion are copied to the replacement unit and the storage unit is switched after the copy is completed, the storage unit can be replaced without disconnecting the 1i power source of the processing device.

In addition, the length of the connector pins of the replacement unit should be increased in the order of power pin, inrush current prevention power pin, signal pin, and ground pin, so that when inserting the replacement unit into the replacement space, the ground pin → signal pin → inrush current Prevention power pin →
Since connections are made in the order of the power pins, it is possible to suppress element destruction, inrush current generation, and signal fluctuations when inserting a replacement unit into a slot without having to turn off the power to the information processing device. can.

[Brief explanation of the drawing]

Fig. 1 is a principle diagram of the present invention, Fig. 2 is a configuration diagram of an embodiment of the present invention, Fig. 3 is a schematic structural diagram of a connector, and Fig. 4 is a flowchart of storage unit replacement processing in an information processing apparatus of the present invention. It is. 11... Information processing section 12... Display sections 13a to 13n... Spaces (slots) 14a to 14
n...Storage unit 15...Replacement-only space (slot) 16...Replacement unit

Claims (1)

[Claims] (1) In an information processing device having a large number of units that are replaceable and have a data storage function, in addition to the spaces for storing each of the storage units, a dedicated space for storing replacement units is provided, and the information processing section is provided with a dedicated space for storing replacement units. , a function to display the storage unit to be replaced, a function to identify that a new storage unit has been inserted into the replacement-only space, and a function to identify the new storage unit from the replacement storage unit when a new storage unit is inserted into the replacement-only space. An information processing device having a copy function of copying data to a storage unit, wherein the information processing section switches the storage unit after the copy is completed. (2) Increase the length of the connector pins of the replacement unit in the order of power supply pin, inrush current prevention power supply pin, signal pin, and ground pin, and when inserting the replacement unit into the replacement space, ground pin → signal pin → inrush Claims characterized in that connections are made in the order of current prevention power supply pin → power supply pin (
1) The information processing device described above.