JP3675342B2 - Library processing system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a library processing system, and in particular, during periodic maintenance or failure maintenance (hereinafter referred to as maintenance), when there is a medium that has received a task execution command from a host device in a library processing apparatus or drive that is being maintained. The present invention also relates to a library processing system that can continue a task without stopping the operation of the system by executing a task on the forcibly loaded medium.
[0002]
[Prior art]
Conventionally, this type of library processing system is generally managed so that the medium management information is not double-registered in the database of the host device (host) and is not lost.
[0003]
In the case of a library processing system configuration in which a host device and a plurality of library processing devices are connected, when one library processing device becomes incapable of processing, the medium in the library processing device that has become incapable of processing is transferred to another library If it is manually transferred to the processing device, there is a risk that the medium management information may be double registered or lost. Similarly, if a failure occurs in a drive in the library processing device, the medium existing in the failed drive is also the same. Moving to another drive may cause double registration or loss of media management information.
[0004]
Therefore, when one library device becomes incapable of processing, if there is a target medium to be used in the library processing device that has become incapable of processing, or is used in a failed drive when a drive failure occurs If there is a target medium to be used, the operation of the library processing system using that medium must be stopped until the fault is recovered, and that medium is essential for the operation of the library processing system in the event of a failure. In such a case, the library processing system service is temporarily stopped.
[0005]
In addition, the media management information database must be rewritten to operate the library processing system by manually transferring the target medium from the failed library processing device or drive to another library processing device or drive. However, the work of rewriting the database has a drawback that there is a risk of destroying the database and stopping the library processing system if the operation is mistaken. Note that the work of rewriting the database is an important work item that is generally not permitted by ordinary operators.
[0006]
Furthermore, the library processing system user operates automatically with a scheduled program, and it is not possible to know exactly when the service is operated on which library processing apparatus among a plurality of library processing apparatuses. The medium cannot be artificially transferred, and when maintaining the library processing apparatus, maintenance is performed after the operation of the library processing system is stopped.
[0007]
Therefore, in order to perform maintenance without stopping the operation, the library processing system can be operated by a dedicated program with a special schedule for maintenance, but the maintenance work time is executed according to the programmed schedule. When extended without being able to do so, there is a drawback that the above-mentioned dedicated program cannot cope.
[0008]
[Problems to be solved by the invention]
As described above, in the conventional library processing system, when the library processing apparatus becomes incapable of processing, there is a medium to be used in the library apparatus that has become incapable of processing, or when a failure occurs in the drive If there is media to be used in the failed drive, the media in the failed library processing unit or drive is moved to another library processing unit or other drive, and the media cannot be used. The library processing system operation using the medium must be stopped until the location is restored. If the medium is indispensable for the library processing system operation at the time of failure, the library processing system service There is a problem that is temporarily stopped.
[0009]
Also, if you want to manually relocate the target media from the failed library processing device or drive to another library processing device or drive to operate the library processing system, when rewriting the media management information database, There is a problem that there is a risk of destroying the database due to a work mistake and stopping the library processing system.
[0010]
Furthermore, since media cannot be transferred artificially during library processing system operation, the library processing system cannot be maintained unless the library processing system operation is stopped, but maintenance is not stopped. Therefore, the library processing system can be operated by developing a dedicated program for the library processing device that is performing maintenance work during the maintenance time period so that the task to be operated is not generated from the host device. However, there is a problem that the maintenance work time cannot be coped with when the maintenance work time cannot be executed according to the programmed schedule and is extended.
[0011]
An object of the present invention is to forcibly insert a medium and forcibly input the medium, and to temporarily store the medium, and forcibly eject the medium and temporarily store the discharged medium, and the medium name of the discharged medium Forcibly ejecting mechanism with a display unit that can be identified, and using media stored in the forced loading mechanism instead of media in the library processing device or drive during maintenance. It is to provide a library processing system that can be continued.
[0012]
In addition, a library processing system is provided that can perform maintenance of a library processing apparatus or a drive without using a serious task of rewriting a database of media registration information and a task of developing a program with a new schedule. There is.
[0013]
[Means for Solving the Problems]
The library processing system of the present invention is a library processing system that has a host device and a plurality of library processing devices connected to the host device, and transmits and receives information between the host device and the library processing device. The library processing apparatus includes a housing, a loading / unloading mechanism for loading / unloading a medium, a loading / ejection mechanism control unit for controlling the loading / unloading mechanism, a drive for writing / reading information to / from a medium, Forced loading mechanism for loading media, forced ejection mechanism for forcing media ejection, forced loading and ejection mechanism control unit for controlling the forced loading mechanism and forced ejection mechanism, and dedicated writing of specific information to the media Drives between the drive and the loading / unloading mechanism, forced loading mechanism, forced ejection mechanism and drive, and the dedicated drive. Eve, a medium transport mechanism for inserting / removing a medium to / from the dedicated drive, an interface control unit for controlling transmission / reception of information between the host device, and a memory for storing the name of the medium loaded in the drive and the drive And an allocation control unit that allocates a drive sent from the storage unit or receives a command from the interface control unit and searches for a drive and a medium transport mechanism and allocates a drive, a medium transport mechanism, an input / output mechanism control unit, and a forcing A medium transport control unit that controls the input / output mechanism control unit, a drive control unit that controls the drive, a write-only drive control unit that controls a dedicated drive, and a drive and a medium transport mechanism that are allocated from the allocation control unit In order to execute the load / unload command from the host device, the media transport control unit, drive control unit, and write only Yes a device controller for controlling the drive control section, and a library interface control unit for controlling the transmission and reception of information between the library processor Each of the forced loading mechanism and the forced discharging mechanism has a plurality of storage shelves for storing the medium, and the forced discharging mechanism has a display unit for recognizing the medium name of the discharged medium corresponding to the storage shelf. It is characterized by doing.
[0015]
The forced input mechanism and the forced discharge mechanism have an opening / closing mechanism, and the medium is input and output from the front of the housing.
[0017]
The display unit includes a liquid crystal display.
[0018]
The dedicated drive is characterized in that the medium name is written in the header portion of the medium.
[0019]
When the medium assigned to execute the task from the host device is mounted in the library processing device or drive under maintenance and cannot be used, the host device can replace the media stored in the storage rack of the forced loading mechanism. It has the means to perform the task from.
[0020]
The storage unit stores a drive under maintenance and a medium name loaded in the drive under maintenance.
[0021]
When the host apparatus receives an error notification from the library processing apparatus that has transmitted the task instruction, the host apparatus issues a forced retry instruction to the library processing apparatus that has transmitted the error notification.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of a library processing apparatus of the present invention will be described with reference to the drawings.
[0023]
1 is a schematic block diagram showing a library processing system according to the present invention, FIG. 2 is a schematic perspective view of a library processing apparatus, and FIG. 3 is a perspective view showing a state in which a forced ejection mechanism in FIG. 2 is opened. Although the internal configuration of the library processing apparatuses 31, 32, and 33 in FIG. 1 is omitted, it has the same configuration as the library processing apparatus 30, and in the following description, the component elements of the library processing apparatus 30 The same symbol is used.
[0024]
1, 2, and 3, the library processing system 100 includes a host device 20 having a database 21 for registering management information of the medium 40, and a plurality of library processing devices 30 connected to the host device 20. The library processing system 100 is configured by 31, 32, 33, and transmits and receives information between the host device 20 and the library processing devices 30, 31, 32, 33, and includes the library processing devices 30, 31, 32, Reference numeral 33 denotes a housing 50, a loading / discharging mechanism 16 for loading / unloading the medium 40, a loading / discharging mechanism control unit 15 for controlling the loading / discharging mechanism 16, and a drive 9 a for writing / reading information to / from the medium 40. , 9b, 9c, forcible input mechanism 13 for forcibly inserting the medium 40, forcible discharge mechanism 17 for forcibly discharging the medium 40, A forced input / output mechanism controller 12 for controlling the input / output mechanism 13 and the forced output mechanism 17, a dedicated drive 11 for writing specific information to the medium 40, an input / output mechanism 16, a forced input mechanism 13, and a forced output mechanism 17. And the drive 9a, 9b, 9c and the dedicated drive 11, and the medium 40 is inserted into and removed from the loading / unloading mechanism 16, the forced loading mechanism 13, the forced ejection mechanism 17, the drives 9a, 9b, 9c and the dedicated drive 11. The interface control unit 1 that controls transmission / reception of information between the medium transport mechanism 7 to be performed and the host device 20, and the names of the media loaded in the drives 9a, 9b, 9c and the drives 9a, 9b, 9c are stored. To the storage unit 3 and the drives 9a, 9b, 9c sent from the storage unit 3, or the drive 9 in response to a command from the interface control unit 1 , 9b, 9c and the medium transport mechanism 7 and a medium for controlling the assignment control unit 4 for assigning the drives 9a, 9b, 9c, the medium transport mechanism 7, the input / discharge mechanism control unit 15, and the forced input / discharge mechanism control unit 12 Drive control unit 6, drive control unit 8 that controls drives 9a, 9b, and 9c, write-only drive control unit 10 that controls dedicated drive 11, and drives 9a, 9b, and 9c allocated from allocation control unit 4 A device control unit 5 that controls the medium transport control unit 6, the drive control unit 8, and the write-only drive control unit 10 so that the medium transport mechanism 7 can execute a load / unload instruction from the host device 20, and a library The library interface control unit 2 controls transmission / reception of information between the processing devices 30, 31, 32, and 33.
[0025]
The forced loading mechanism 13 and the forced ejection mechanism 17 each have a plurality of storage shelves 19 for storing the medium 40, and the medium 40 is loaded from the front of the housing 50 by operating an opening / closing mechanism (not shown). The forced discharge mechanism 17 has a display unit 14 of a liquid crystal display that recognizes a medium name corresponding to the storage shelf 19.
[0026]
Next, the operation of the library processing system 100 configured as described above will be described with reference to the drawings.
[0027]
FIG. 4 is a flowchart showing the operation of the library processing system 100.
[0028]
Now, the operation when the library processing devices 30, 31, 32, 33 receive a task execution instruction from the host device 20 when a failure or maintenance is occurring will be described.
[0029]
Referring to FIGS. 4 and 1-3, before starting the service of the library processing system 100, the medium 40 is loaded into the forced loading mechanism 13 of the library processing apparatuses 30, 31, 32, 33 (S1). At this time, the medium 40 is on the medium storage shelf 19 of the forcing mechanism 13 inside the library processing apparatus 30, 31, 32, 33, and the medium transport mechanism 7 can take out the medium 40 and move it. is there.
[0030]
The operation of the library processing system 100 is started from this state. For example, the medium transport mechanism 7 of the library processing apparatus 30 is in failure or maintenance (S2), and a task command is sent from the host apparatus 20 to the library processing apparatus 30. When executed, the mount command for moving to the drives 9a, 9b, and 9c from the place where the medium 40 exists is issued to the library processing apparatus 30 first in the task, and is issued from the host apparatus 20 The mount command is sent from the interface control unit 1 of the library processing apparatus 30 to the allocation control unit 4, but the allocation control unit 4 allocates the medium transport mechanism 7 because the medium 40 cannot be transported during a failure or during maintenance. Error cannot be detected via the interface control unit 1 To report to the (S3).
[0031]
Here, the host device 20 that has received the error notification for the mount command issues the same mount command in a forced format as a retry process (S4). Note that the forced mount command as the retry process is an option format command for the interface specification command.
[0032]
When a compulsory mount command is issued from the host device 20, the library processing apparatus 30 receives the compulsory mount command again by the allocation control unit 4 via the interface control unit 1, and the allocation control unit 4 that has received the compulsory mount command receives the library. The forced mount command is transferred to another library processing apparatus 31, 32, 33 via the interface control unit 2 (S5).
[0033]
Upon receiving the forced mount command, the allocation control unit 4 of the library processing apparatus 31, 32, 33 searches for and reserves available drives 9a, 9b, 9c, and forcibly inserts the medium instead of the medium 40 to be originally mounted. The medium 40 in the mechanism 13 is entered (S6), and the medium 40 from the forced loading mechanism 13 is conveyed to the header write dedicated drive 11 (S7).
[0034]
On the other hand, the storage unit 3 of the library processing apparatus 30 in failure or maintenance stores the medium 40 that could not be processed from the information of the task in error and the position information of the drives 9a, 9b, and 9c in which the medium 40 exists (S10). .
[0035]
In the alternative library processing apparatus 31, 32, 33 to which the command is transferred in (S5) above, the medium transport mechanism 7 and the drives 9a, 9b, 9c that can be used by the allocation control unit 4 are allocated (S6), and the allocated information Is sent to the apparatus control unit 5, and the apparatus control unit 5 is dedicated to header writing before mounting the medium 40 entered by the allocation control unit 4 on the allocated medium transport mechanism 7 on the allocated drives 9 a, 9 b, 9 c. The medium transport control unit 6 and the write-only drive control unit 10 are controlled so that they can be mounted on the drive 11.
[0036]
Under the control of the apparatus control unit 5, the medium 40 entered by the medium transport mechanism 7 is transported to the header label writing dedicated drive 11, mounted (loaded), and after the medium 40 is mounted, the header writing dedicated drive control is performed. The unit 10 writes the header information to the medium 40 on which the medium header information obtained in (S6) is mounted, and after writing the header information, controls the dedicated drive 11 to unload the medium 40 (S7).
[0037]
When the medium 40 is unloaded from the dedicated drive 11, the apparatus control unit 5 controls the medium conveyance control unit 6 and the drive control unit 8 to transfer the medium to the drives 9 a, 9 b, and 9 c reserved in the above (S 6). 40 is transported and mounted.
[0038]
When the mounting of the medium 40 to the reserved drives 9a, 9b, and 9c is completed, the library interface control unit 2 transfers the data information from the host device 20 to the drive control unit 8 that controls the reserved drives 9a, 9b, and 9c. Then, the drive control unit 8 starts data transfer (save / restore) processing (S8).
[0039]
Here, when the library processing apparatuses 31, 32, and 33 automatically execute the above-described operation, the host apparatus 20 determines that the task after the forced mounting is a failure or maintenance of the library processing apparatus 30 and the drives 9a, 9b, and 9c. However, the task processing is executed by the different library processing apparatuses 31, 32, and 33 and drives 9a, 9b, and 9c that are actually different.
[0040]
Regarding this processing, in the case of the library processing system 100 in which it is a problem that the library processing devices 31, 32, 33 and the drives 9a, 9b, 9c in which the host device 20 is actually operating cannot be grasped, the above (S6) The assignment processing information in the assignment control unit 4 of the replaced library processing devices 31, 32, and 33 is not sent to the device control unit 5, but the library interface control unit 2, assignment to the original library processing device 30 during failure or maintenance. By reporting the list of library processing devices 31, 32, 33 and drives 9a, 9b, 9c that can be used at that time to the host device 20 via the control unit 4 and the interface control unit 1, Library processing devices 30, 31, 32, 33 used by the device 20 and the drive 9a, b, 9c is selected, the task is executed, and if the command is issued from the host device 20 to the alternative library processing devices 31, 32, 33 as assigned in (S6), the host device 20 is currently in use. The library processing devices 31, 32, and 33 and the drives 9a, 9b, and 9c can be managed.
[0041]
When the save / restore process (S8) is completed, the apparatus control unit 5 causes the drive control unit 8 to unload the medium 40 from the drives 9a, 9b, and 9c, and causes the medium conveyance control unit 6 to execute the medium from the drives 9a, 9b, and 9c. 40 is moved to the storage shelf 19 of the forced discharge mechanism 17 by the medium transport mechanism 7, the forced discharge mechanism 17 is manually opened to the state shown in FIG. 3, and the medium 40 is taken out (S9). At this time, the medium name of the medium 40 obtained in (S6) is displayed on the display unit 14 provided on the side surface of the forced ejection mechanism 17 so that the operator can know the medium name of the ejected medium 40 (S13). ).
[0042]
On the other hand, when the repair or maintenance of the library processing apparatus 30 that has failed or has been maintained is completed and the library processing apparatus 30 or the drives 9a, 9b, and 9c are ready to be used, the data is stored in (S10). The medium 40 that could not be processed from the error task information stored in the unit 3 and the position information of the medium 40 are sent to the allocation control unit 4, and the allocation control unit 4 sends the medium 40 to the medium of the forced ejection mechanism 17. The medium transport mechanism 7 is allocated so as to be transported to the storage shelf 19 (S11), and the apparatus control unit 5 performs control to transport the medium 40 to the forcible discharge mechanism 17 according to the information allocated from the allocation control unit 4, Thereafter, the forced ejection mechanism 17 is manually opened to the state shown in FIG. 3 and the medium 40 is taken out (S12). Similarly, media name in the display portion 14 of the side surface of the forced discharge mechanism 17 displays the media name as can be seen to the operator (S14).
[0043]
With the above processing operation, the task from the host device 20 has been completed normally when the library processing device 30 is in failure or maintenance.
[0044]
However, since a label (barcode label) (not shown) is generally affixed to the medium 40 managed in the library processing devices 30, 31, 32, and 33, in this state, the medium from the host device 20 Since the medium 40 actually processed by the library processing apparatuses 31, 32, and 33 that have replaced the task has no label, the forced ejection mechanism that could not be processed during the failure or maintenance in the process of (S12) The medium 40 existing in 17 is taken out, the label is peeled off from the medium 40, and the medium 40 in the forced ejection mechanism 17 whose label is replaced in (S9) is taken out and pasted on the medium 40 (S15).
[0045]
At the time of label replacement, since the medium name (label name) is displayed on the display unit 14 of the forced ejection mechanism 17 in (S13), between the media 40 in the forced ejection mechanism 17 showing the same display. If the replacement is carried out, it is possible to easily perform the replacement work without making a mistake.
[0046]
Then, when the medium 40 with the label attached is put into the loading mechanism of the loading / unloading mechanism 16 of the library processing apparatus 30 that has completed the failure recovery or maintenance (S16), the host device 20 determines that the library being failed or being maintained. It only recognizes that the task assigned to the processing device 30 has been processed normally and the normally processed medium 40 has been discharged from the library processing device 30 once and re-introduced.
[0047]
When the library processing system 100 does not record the label name in the header portion of the medium 40, the above-described processing (S7) is not necessary, and the dedicated drive 11 for writing the header and the write-only drive control unit 10 Although not necessary, the rest is the same as the operation of the library processing system 100 when the label name is recorded in the header portion of the medium 40 described above, and a description thereof will be omitted.
[0048]
When the drives 9a, 9b, and 9c are the library processing apparatuses 30, 31, 32, and 33 that are in failure or maintenance, when the allocation control unit 4 receives a forced mount command in the above-described allocation process (S5). If the usable drives 9a, 9b, and 9c are assigned without transferring the commands to the other library processing devices 31, 32, and 33, the processes of (S6), (S7), (S8), and (S9) are performed. It goes without saying that can be executed in the library processing apparatus 30.
[0049]
As described above, the library processing apparatuses 30, 31, 32, and 33 are provided with the forced ejection mechanism 17 to forcibly eject the medium 40 for which task processing has been completed. This is managed by the host apparatus 20. This is because the management information database 21 of the medium 40 is rewritten or the database 21 is not inconsistent.
[0050]
The management information database 21 of the medium 40 is registered when the medium 40 is inserted, and is deleted when the medium 40 is ejected, but the medium 40 that has been forcibly inserted and the medium 40 that has been in the library processing apparatus 30 that is in failure or maintenance is forcibly Since the information of these media 40 is deleted from the database 21 and the task of the host device 20 is processed, the medium 40 with the label attached is loaded from the loading mechanism of the loading / unloading mechanism 16. The management information of the medium 40 is registered in the database 21.
[0051]
Accordingly, the medium 40 existing in the library processing apparatus 30 or the drives 9a, 9b, and 9c in which there is a failure with a simple configuration in which the library processing apparatuses 30, 31, 32, and 33 are provided with the forced loading mechanism 13 and the forced ejection mechanism. Alternatively, by replacing the medium 40 that cannot be used during maintenance with the medium 40 in the forced input mechanism 13 automatically, the library processing apparatus 30 or the drives 9a, 9b in the failure or maintenance can be used. , 9c can be continued, the database 21 is not contradicted, and there is an effect that no intentional rewriting work occurs.
[0052]
【The invention's effect】
As described above, the library processing system of the present invention is ejected by the forced loading mechanism, the forced ejecting mechanism, and the forced ejecting mechanism having a plurality of storage shelves that can forcibly load and unload media into and out of the library processing apparatus. By providing a display section that clearly shows the medium name of the medium and a header label writing dedicated drive in the header section of the medium, and managing the medium to be forcibly inserted and forcibly ejected, the forced insertion mechanism or the forced ejection mechanism By using the ejected media, it can be used automatically by replacing the media in the library processing device or drive that has failed, or the media that cannot be used during maintenance. Or the operation of the library processing system for the library processing device or drive under maintenance can be continued. Cormorant an effect.
[0053]
In addition, maintenance work can be performed continuously without the need to rewrite the medium registration information database or to develop a program with a new schedule for operation on the library processing device or drive that is being maintained. effective.
[0054]
In addition, after the media that could not be used due to failure or maintenance and task processing could not be performed and the media that was replaced were automatically and forcibly ejected from the library processing unit, and the label was attached to the media that had been replaced The medium registration information database can be automatically rewritten with correct information by inserting the medium from the normal medium loading / unloading mechanism, and it is necessary to artificially rewrite the medium registration information database. It has the effect of disappearing.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram showing a library processing system of the present invention.
FIG. 2 is a schematic perspective view of a library processing apparatus according to the present invention.
FIG. 3 is a perspective view showing a state in which a forced discharge mechanism in FIG. 2 is opened.
FIG. 4 is a flowchart showing the operation of the library processing system of the present invention.
[Explanation of symbols]
1 Interface controller
2 Library interface controller
3 storage unit
4 Allocation control unit
5 Device controller
6 Medium transport controller
7 Medium transport mechanism
8 Drive controller
9a, 9b, 9c drive
10 Write-only drive controller
11 Dedicated drive
12 Forced input / output mechanism controller
13 Forced input mechanism
14 Display section
15 Input / output mechanism controller
16 Input / output mechanism
17 Forced discharge mechanism
19 Storage shelf
20 Host device
21 Database
30, 31 Library processing device
32, 33 Library processing device
40 medium
50 cases
100 Library processing system

Claims (7)

A library processing system having a host device and a plurality of library processing devices connected to the host device, and transmitting and receiving information between the host device and the library processing device, wherein the library processing device A case, a loading / unloading mechanism for loading / unloading the medium, a loading / discharging mechanism control unit for controlling the loading / unloading mechanism, a drive for writing / reading information to / from the medium, and the medium forcibly A forced input mechanism that forcibly releases the medium, a forced discharge mechanism that forcibly discharges the medium, a forced input and discharge mechanism control unit that controls the forced input mechanism and the forced discharge mechanism, and writing of specific information on the medium A dedicated drive for performing the operation, the charging / discharging mechanism, the forced charging mechanism, the forced discharging mechanism and the drive, and the dedicated drive. A medium transport mechanism that inserts and removes the medium with respect to the forced insertion mechanism, the forced ejection mechanism, the drive, and the dedicated drive, and an interface control unit that controls transmission and reception of information between the host device, A storage unit for storing the drive and the name of the medium loaded in the drive; and the drive and the medium conveyance in response to an instruction from the interface control unit or the drive sent from the storage unit. An allocation control unit that searches for a mechanism and allocates the drive, a medium transport control unit that controls the medium transport mechanism, the input / discharge mechanism control unit, and the forced input / discharge mechanism control unit, and a drive control unit that controls the drive A write-only drive control unit that controls the dedicated drive, and an allocation control unit An apparatus control unit for controlling the medium conveyance control unit, the drive control unit, and the write-only drive control unit to execute a load / unload instruction from the host device for the drive and the medium conveyance mechanism; possess a library interface control unit for controlling the transmission and reception of information between the library processor, wherein the forced charging mechanism and the forced discharge mechanism, each have a plurality of storage shelves storing the medium, the forced ejection mechanism, the library processing system, characterized in that have a display unit recognizes the medium name of said medium discharged in correspondence with the storage shelf. The forcing mechanism and the forced ejection mechanism includes an opening and closing mechanism, the closing of the front from the medium of the housing, according to claim 1 Symbol placement library processing system, characterized in that the discharge is performed. Wherein the display unit, the library processing system according to claim 1, characterized in that it has a liquid crystal display.   The library processing system according to claim 1, wherein the dedicated drive writes a medium name in a header portion of the medium.   When the medium assigned to execute a task from the host apparatus is mounted in the library processing apparatus or the drive that is being maintained and the medium cannot be used, the medium is stored in the storage shelf of the forcing mechanism. 2. The library processing system according to claim 1, further comprising means for executing a task from the host device by substituting the medium.   The library processing system according to claim 1, wherein the storage unit stores the drive being maintained and the medium name loaded in the drive being maintained.   2. The high-order apparatus according to claim 1, wherein, when receiving an error notification from the library processing apparatus that has transmitted a task instruction, the host apparatus issues a forced retry instruction to the library processing apparatus that has transmitted the error notification. Library processing system.

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