JP2009110195A - Information processing apparatus and system, information processing taking-over control method, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information processing system for selecting a server related to taking-over of information processing by removing the influence of discontinuous load variation which is caused by the taking-over of information processing. <P>SOLUTION: A guard time storage part 24 stores the server name of a physical server 30 excluded from the candidates of the movement origin and/or movement destination of a virtual server and the end time (guard time end time) of the exclusion period by associating them with each other. A movement destination decision part 22 determines the virtual server 31 as the object of movement and the physical server 30 as the destination of movement from among the physical servers 30 excluding the physical server decided to be within the guard time by an excluded server specification part 25. When the virtual server is moved according to the decision of the movement destination decision part 22 by a virtual server movement part 23, a guard time information updating part 26 stores the physical server 30 as the destination of movement and the guard time end time in a guard time storage part 24. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an information processing apparatus, an information processing system, an information processing takeover control method, and a program, and more specifically, information processing for performing control to take over information processing executed on one server and execute it on another server. The present invention relates to an apparatus, an information processing system, a method, and a program.

  There is a virtual server technology for constructing a plurality of virtual servers on one physical server. Regarding virtual server technology, Patent Document 1 describes a technology in which a plurality of virtual servers are constructed by executing software on one physical server, and a plurality of processes are simultaneously executed by the plurality of virtual servers. ing. By using the virtual server technology, it is possible to construct a system for operating a plurality of virtual servers simultaneously on a plurality of physical servers connected by a communication network.

In a virtual server system in which multiple virtual servers operate on multiple physical servers, when the physical server resource usage exceeds a high load threshold that is a preset upper limit, A technique for distributing the resource usage rate of each physical server by moving a virtual server to another physical server with a relatively low resource usage rate is known. For example, in Patent Document 1, the storage capacity data of each physical server, the storage capacity data used in each virtual server, and the measured data of the performance of each virtual server every predetermined time are managed in the virtual server system. It is described that a virtual server is arranged for each physical server so that the management server acquires the virtual servers so that the load on each physical server does not become high.
Japanese Patent No. 386087

  However, in the virtual server system described in Patent Document 1, for a while after the virtual server is moved to another physical server, the load fluctuations of the migration source physical server and the migration destination physical server are large. . For this reason, if the prediction of the physical server load and the virtual server move are performed based on the load data of each physical server before the load fluctuation converges, the next virtual server placement destination is inappropriately selected. There was a case. That is, in the technique described in Patent Literature 1, there is a case where an inappropriate server is selected as a takeover source or a takeover destination of information processing when taking over information processing, and consideration for this is required.

  An information processing apparatus, an information processing system, and an information processing system capable of selecting a server involved in information takeover by eliminating the influence of discontinuous load fluctuations caused by the takeover of information processing, eliminating the problems of the related techniques An object is to provide an information processing takeover method and a program.

  In order to achieve the above object, an information processing apparatus of the present invention is an information processing apparatus that is connected to a plurality of servers, and that executes processing to take over information processing executed on one server to another server, Exclusion server that refers to an exclusion server storage unit that stores identification information of a server that is excluded from the target of the takeover process, and that specifies a server that is specified to be excluded from the target of the takeover process in the exclusion server storage unit Select at least one of the takeover source server and takeover destination server of the information processing target to be taken over from among the server excluding the server specified by the specified server and the excluded server specifying unit among the plurality of servers And at least one of the takeover source server and the takeover destination server is excluded in the excluded server storage unit after execution of the takeover process. Characterized in that it comprises a negative server information updating unit that stores as a server.

  The information processing system of the present invention is an information processing system having a plurality of physical servers and an autonomous control server that executes a process of taking over a virtual server executed on one physical server to another physical server. The control server refers to an exclusion server storage unit that stores identification information of a physical server that is excluded from the takeover process target, and is specified to be excluded from the takeover process target in the exclusion server storage unit An excluded server specifying unit that specifies a physical server, and a physical server that is the takeover source of the virtual server that is the takeover target from among the plurality of physical servers excluding the physical server specified by the excluded server specifying unit A server selection unit that selects at least one of a server and a takeover destination physical server, and the takeover source physical server and takeover after execution of the takeover process. Previous physical server at least one, characterized in that it comprises a negative server information updating unit that stores a physical server which is the excluded by the exclusion server storage unit.

  An information processing takeover method of the present invention is a method of operating an information processing apparatus that is connected to a plurality of servers and performs control to take over information processing executed on a server and execute it on another server. Referring to an excluded server storage unit that stores identification information of servers excluded from the target, and specifying the server designated to be excluded from the target of the takeover process in the excluded server storage unit; Selecting at least one of a takeover source server and a takeover destination server of information processing to be taken over from servers other than the server specified in the specifying step, and the takeover processing After execution, at least one of the takeover source server and the takeover destination server is set as the excluded server in the excluded server storage unit. Characterized by a step of 憶.

  The program of the present invention stores identification information of a server that is excluded from the takeover processing target in a computer that is connected to a plurality of servers and that controls the information processing executed by the server to be taken over by another server. A process for identifying a server that is specified to be excluded from the target of the takeover process in the exclusion server storage unit, and a process for identifying the server among the plurality of servers. A process of selecting at least one of a takeover source server and a takeover destination server of information processing targets to be taken over from servers other than the specified server, and the takeover source server and takeover destination after execution of the takeover process Storing at least one of the servers as the excluded server in the excluded server storage unit

  In the information processing apparatus, information processing system, information processing takeover method, and program of the present invention, it is possible to select a server involved in information takeover by eliminating the influence of discontinuous load fluctuations caused by information takeover.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows an information processing system according to the first embodiment of the present invention. The virtual server system according to the first embodiment of the present invention includes a plurality of physical servers (server devices) 30-1 to 30-m (m is an integer of 2 or more) and each virtual server operating on the physical server 30. And an autonomous control server (information processing apparatus) 20 that manages the system. The autonomous control server 20 and the physical server 30 are connected via the communication network 10. In FIG. 1, the virtual servers operating on the physical server 30-1 are assigned reference numerals 31-1-1 to 31-1-n (n is an integer of 2 or more), and the virtual server operating on the physical server 30-m is assigned. The servers are identified by reference numerals 31-m-1 to 31-mn. The physical servers 30-1 to 30-m are realized by, for example, a computer that executes processing according to a program stored in a computer-readable recording medium (magnetic disk, semiconductor memory, optical disk, or the like).

  In the first embodiment, the movement of a virtual server will be described as an example of taking over information processing. Here, taking over the information processing by another server means, for example, stopping the information processing operating on the first physical server and operating the same information processing on the second physical server. The stop of information processing on the first physical server and the start of information processing on the second physical server do not need to be strictly synchronized. That is, to take over information processing by another server includes that the first physical server and the second physical server execute the same information processing for a certain period as long as the situation permits, and in the first physical server This includes starting the information processing by the second physical server after a certain period of time has elapsed since the information processing was stopped. Also, taking over of information processing is not limited to movement of a virtual server.

  The autonomous control server 20 includes a resource information collection unit 21, a movement destination determination unit 22 (server selection unit), a virtual server movement unit 23, a guard time storage unit (exclusion server storage unit) 24, an excluded server specification unit 25, and a guard A time information update unit (exclusion server information update unit) 26 is provided. The autonomous control server 20 is a computer including, for example, a CPU (Central Processor Unit) realized by a semiconductor integrated circuit, a memory, and the like. For example, the autonomous control server 20 reads the program from a computer-readable recording medium, downloads it from a network, or arranges the program on a memory by other methods, and the CPU interprets and executes the program on the memory. Each function of the resource information collection unit 21, the movement destination determination unit 22, the virtual server movement unit 23, the excluded server identification unit 25, and the guard time information update unit 26 is realized.

  The resource information collection unit 21 receives the CPU usage rate, the memory usage rate, and the input / output performance of the recording medium from the physical servers 30-1 to 30-m and the virtual servers 31-1-1-1 to 31-mn. A value (for example, a ratio of the input / output data transfer rate with respect to the maximum data transfer rate), an input / output performance value (transmission rate, use band, etc.) of the communication control device, etc. are acquired as resource information. The resource information collection unit 21 stores a server name of a physical server connected to the autonomous control server 20, and acquires resource information from the physical servers 30-1 to 30-m using the stored physical server name. . Alternatively, a request for acquiring the name of a physical server connected to another means is issued, the server name of the physical server is acquired in response to the request, and the physical server 30-1 to 30- is used using the acquired physical server name. Resource information may be acquired from m.

  The movement destination determination unit 22 determines a virtual server to be moved and a physical server that is the movement destination of the virtual server. The movement destination determination unit 22 may determine the movement target and the movement destination for each predetermined period (for example, 1 minute interval, 1 hour interval, etc.) or according to an input given from the outside. And the destination may be determined. After determining the virtual server to be moved and the physical server that is the movement destination, the movement destination determination unit 22 outputs information for identifying the virtual server to be moved and the server name of the physical server that is the movement destination. The information for identifying the virtual server is, for example, a value calculated from the name of the virtual server, the network address, the server configuration, and the like, but is not limited thereto.

  The guard time storage unit 24 stores the server name of the physical server and the guard time end time in association with each other. The guard time is a period during which the physical server 30 is excluded from candidates for the migration source and / or migration destination of the virtual server, and the guard time end time is the end time of the period. FIG. 2 shows an example data structure of information stored in the guard time storage unit 24. The excluded server specifying unit 25 refers to the guard time storage unit 24, compares the current time with the end time of each entry in the guard time storage unit 24, and specifies the physical server name within the guard time. For example, if the guard time storage unit 24 stores the information illustrated in FIG. 2 and the current time is “2007/10/23 14:40:23”, the excluded server specifying unit 25 may include the physical time within the guard time end time. The server name “SV3” of the server is output.

  An example in which the movement target and the movement destination are determined according to the input will be described. When a request for determining a movement destination is input, the movement destination determination unit 22 requests a list of physical servers within the guard time from the exclusion server specifying unit 25, and the physical servers within the guard time, that is, virtual Acquires a list of physical servers that are excluded from the target in server migration processing. The movement destination determination unit 22 excludes the physical servers included in the list acquired from the excluded server identification unit 25 from the physical servers connected to the autonomous control server 20, and then moves the movement target virtual server and the movement destination. Select a physical server. The selection of the migration target virtual server and the migration destination physical server is performed based on the resource information. For example, the migration destination determination unit 22 uses the resource information collection unit 21 to acquire resource information of physical servers that are not included in the list of physical server names acquired from the excluded server specification unit 25, and uses the acquired resource information With reference, the movement target and the movement destination are selected.

  For example, in the acquired resource information, the migration destination determination unit 22 has the largest value for the CPU usage rate, the memory usage rate, or the number of input / output bytes to / from the recording medium per unit time, or other indicators indicating performance. A virtual server operating on the indicated physical server is determined as a movement target. Further, the movement destination determination unit 22 sets the CPU usage rate, the memory usage rate, the number of input / output bytes to / from the recording medium per unit time, and other indexes indicating the smallest performance in the acquired resource information. The indicated physical server may be determined as the movement destination. The method for selecting the movement target and the movement destination described above is an example, and the present invention is not limited to this. In the present embodiment, a method of selecting a movement target and a movement destination that are conventionally used can be used.

  The virtual server moving unit 23 moves the virtual server according to the determination of the movement destination determining unit 22. More specifically, when the information for identifying the virtual server to be moved and the physical server name of the movement destination are input, the virtual server moving unit 23 selects the virtual server specified by the information for identifying the virtual server, Move to the physical server indicated by the physical server name. The virtual server migration unit 23 notifies the guard time information update unit 26 of the destination physical server name after the migration of the virtual server is completed. Further, the virtual server migration unit 23 may notify the guard time information update unit 26 of the physical server name on which the virtual server was operating instead of or along with the physical server name of the migration destination.

  When the guard time information updating unit 26 receives the physical server name from the virtual server moving unit 23, the guard time information updating unit 26 additionally registers the physical server name and the guard time end time in association with each other in the guard time storage unit 24. At this time, the guard time information update unit 26 stores, for example, a time obtained by adding a predetermined period to the time when the physical server name is received as the guard time end time in the guard time storage unit 24. The period to be added is preferably set to a period according to the period during which load fluctuations accompanying the movement of the virtual server converge. The period to be added may be stored in a setting file or the like, or may be input to the guard time information update unit 26 together with the physical server name. The calculation method of the end time of the guard time is an example and is not limited to the above method. A method for calculating the end time of the guard time may be different for each physical server name, or may be changed according to the time zone of the time when the physical server name is received.

  In the present embodiment, after the virtual server is moved, the physical server name of the movement destination and / or the movement source is notified to the guard time information update unit 26, and the server name of the physical server together with the guard time end time is notified. 24. By doing so, the guard time storage unit 24 excludes physical servers within a predetermined period from the execution of the virtual server migration processing from the virtual server migration source and / or migration destination candidates. It will be stored as a server. Therefore, in the present embodiment, the migration destination determination unit 22 excludes physical servers that have not passed a predetermined period from the already executed virtual server migration process from the migration source and / or migration destination candidates of the virtual server. Thus, the migration target virtual server and the migration destination physical server are selected.

  In FIG. 3, the example of a process sequence of the autonomous control server with which a virtual server system is provided is shown. The autonomous control server 20 has previously acquired the resource information of the physical servers 30-1 to 30-m and the virtual servers 31-1-1-1 to 31-mn by the resource information collection unit 21, respectively. The migration destination determination unit 22 requests the excluded server identification unit 25 for a list of physical servers within the guard time (step A1). The excluded server specifying unit 25 refers to the guard time storage unit 24, generates a list of physical servers within the guard time, and returns this to the destination determination unit 22.

  The migration destination determination unit 22 passes the list of physical server names within the guard time to the resource information collection unit 21, and acquires resource information regarding the physical servers outside the guard time (step A2). Thereafter, the migration destination determination unit 22 determines the migration source or migration destination physical server of the virtual server from the physical servers outside the guard time (step A3). Here, a conventional technique can be used as a method for selecting a virtual server migration source, a migration destination physical server, and a migration target virtual server, and the selection method is not particularly limited.

  When the movement destination determination unit 22 determines the movement target virtual server and the movement destination physical server by the process of step A3, the autonomous control server 20 moves the movement target virtual server to the movement destination by the virtual server movement unit 23. To the physical server (step A4). For example, when the virtual server 31-1-1 in the physical server 30-1 is determined as a movement target virtual server in step A3, the autonomous control server 20 A command for moving the virtual server 31-1-1 to the physical server 30-m is issued. When the physical server 30-1 moves the virtual server 31-1-1 according to the command, the movement of the virtual server is executed.

  After completing the movement of the virtual server, the virtual server migration unit 23 notifies the guard time information update unit 26 of the server name of the destination physical server (step A5). At this time, the virtual server migration unit 23 may notify the guard time storage unit 24 of the server name of the migration source physical server instead of or in addition to the migration destination virtual server. Upon receiving the notification of the physical server name, the guard time information update unit 26 determines the guard time end time, associates the determined guard time end time with the physical server mate, and stores them in the guard time storage unit 24.

  In the present embodiment, after the migration process of the virtual server is performed, the migration source and / or the migration destination physical server of the virtual server is stored in the guard time storage unit 24. In the selection process of the migration target virtual server and the migration destination physical server, the migration target virtual server and / or the migration destination physical server are selected by excluding the physical server stored in the guard time storage unit 24. By doing so, it is possible to move the virtual server for the remaining physical servers after excluding the physical servers whose load fluctuates with the movement of the virtual servers. In addition, by setting a predetermined period from the movement of the virtual server as the guard time, the physical server that is the movement source / destination of the virtual server is excluded from the virtual server movement candidates within the guard time, It is possible to select a server involved in the movement of the virtual server by excluding the influence of the discontinuous load fluctuation caused by the virtual server movement.

  As a comparative example, considering the selection of a migration target virtual server and a migration destination physical server without using the guard time storage unit 24, the influence of load fluctuations associated with the migration of the virtual server is eliminated and the next virtual In order to move the server, it is necessary to suppress the movement of the virtual server among all the physical servers until the load fluctuation converges. However, the load largely fluctuates with the movement of the virtual server is the movement-source physical server and the movement-destination physical server related to the movement of the virtual server, and the loads of the other physical servers do not change greatly. In this case, the movement of the virtual server including the physical server whose load does not change greatly is uniformly suppressed, resulting in insufficient capacity and generation of useless resources. On the other hand, in the present embodiment, the physical server related to the movement of the virtual server is excluded from the virtual server movement target, so that the virtual server can be moved between the remaining physical servers. Therefore, it is possible to avoid the capacity shortage and the generation of useless resources while eliminating the influence of the load fluctuation due to the movement of the past virtual server. In addition, since the physical server not included in the guard time does not need to wait for the load of the physical server within the guard time to converge, there is an effect that the interval for moving the virtual server can be shortened.

  In the first embodiment, an example in which a virtual server is moved is described as an example of taking over information processing. However, the present embodiment is not limited to this. For example, the information processing that takes over may be processing of a Web service request. When taking over the processing of a Web service request, information for identifying the processing includes a name of a program for causing the server to execute the processing, a GUID (Globally Unique Identifier) assigned to the program, and a value calculated from the program code. However, it is not limited to these. In addition, a technique related to installation or activation of a program for causing another server to execute a program for causing a server to execute a web service request process is performed using conventional techniques and is not particularly limited.

  Next, a second embodiment of the present invention will be described. FIG. 4 shows an information processing system according to the second embodiment. In the information processing system of this embodiment, the autonomous control server 20a includes a guard time adjustment unit (exclusion time adjustment unit) 27 in addition to the configuration of the autonomous control server 20 in the first embodiment shown in FIG. Constituent elements similar to those in the first embodiment are given the same reference numerals, and the description thereof is omitted.

  Information relating to the load of the virtual server to be moved and the server name of the destination physical server are input to the guard time adjustment unit 27. The guard time adjustment unit 27 determines a guard time period to be set for the movement destination physical server based on the load information of the movement target virtual server, and sets the period of the determined guard time and the movement destination physical Outputs the server name of the server. For example, when the load of the virtual server to be moved is equal to or greater than a predetermined threshold, the guard time adjustment unit 27 outputs a period to be used as a normal guard time as a guard time of the physical server of the movement destination, When it is lower than the threshold value, a period shorter than the normal guard time is output.

  For example, when a period set by a file or the like is set as a normal guard time, the guard time adjustment unit 27 sets a predetermined period from the normal guard time when the load of the migration target virtual server is lower than a threshold value. Is subtracted, and the normal guard time is multiplied by a weight less than 1 or other algebraic operations are performed to output a period shorter than the normal guard time. Further, the guard time may be determined according to the ratio between the load of the virtual server and the threshold value. For example, when the migration target virtual server load is 5% and the threshold load is 20%, a period obtained by multiplying the normal guard time by 1/4 is output as the guard time of the destination physical server. May be. The method described here is an example, and the present invention is not limited to this.

  Further, the server name of the migration source physical server may be input to the guard time adjustment unit 27 instead of or in addition to the server name of the migration destination physical server. In this case, when the load of the migration target virtual server is lower than a predetermined threshold, the guard time adjustment unit 27 outputs a period shorter than usual as the guard time of the migration source physical server. When both the server name of the migration destination physical server and the server name of the migration source physical server are input to the guard time adjustment unit 27, the guard time adjustment unit 27 sets the migration source and migration destination servers for each. The guard time is obtained, and the physical server names of the migration source and the migration destination and the obtained guard time are output in association with each other.

  Next, the operation of this embodiment will be described. FIG. 5 shows a processing procedure of the autonomous control server in the second embodiment. The autonomous control server 20a obtains the resource information of the physical servers 30-1 to 30-m and the virtual servers 31-1-1-1 to 31-mn in advance by the resource information collection unit 21, respectively. The destination judging unit 22 requests the excluded server specifying unit 25 for a list of physical servers within the guard time (step B1). The excluded server specifying unit 25 refers to the guard time storage unit 24, generates a list of physical servers within the guard time, and returns this to the destination determination unit 22.

  The migration destination determination unit 22 passes the list of physical server names within the guard time to the resource information collection unit 21, and acquires resource information regarding the physical servers outside the guard time (step B2). Thereafter, the migration destination determination unit 22 determines the migration source or migration destination physical server of the virtual server from the physical servers outside the guard time (step B3). Here, a conventional technique can be used as a method for selecting a virtual server migration source, a migration destination physical server, and a migration target virtual server, and the selection method is not particularly limited.

  When the movement destination determination unit 22 determines the movement target virtual server and the movement destination physical server by the process of step B3, the autonomous control server 20a uses the virtual server movement unit 23 to move the movement target virtual server to the movement destination. To the physical server (step B4). The processing so far is the same as the operation procedure (FIG. 3) in the first embodiment.

  When moving the virtual server, the virtual server moving unit 23 acquires the load data of the virtual server to be moved using the resource information collecting unit 21 (step B5). The virtual server migration unit 23 notifies the guard time adjustment unit 27 of the load data of the migration target virtual server and the server name of the migration destination physical server after the migration of the virtual server is completed (step B6). In this notification, the virtual server migration unit 23 may notify the server name of the migration source physical server instead of or in addition to the server name of the migration destination physical server.

  The guard time adjustment unit 27 determines whether or not the load of the virtual server to be moved is lower than a threshold value. When the load is lower than the threshold value, the guard time of the destination physical server is shorter than normal. The period is set, the server name of the destination physical server is associated with the period set as the guard time, and the guard time information update unit 26 is notified (step B7). When the load to be moved is equal to or greater than the threshold value, the guard time is set to a normal period. Further, the guard time adjustment unit 27 receives the server name of the migration source physical server, and when the load of the migration target virtual server is lower than the threshold value, sets the guard time of the migration source physical server from the normal value. Also, the server name of the source physical server is associated with the period set as the guard time, and the guard time information update unit 26 is notified.

  When the guard time adjusting unit 27 is notified of the server name of the physical server and the period to be set as the guard time, the guard time information updating unit 26 uses the time added to the current time as the guard time end time. The guard time end time and the server name of the physical server are stored in the guard time storage unit 24 in association with each other.

  In the present embodiment, the guard time to be set for the migration destination and / or the migration source physical server is determined based on the load of the migration target virtual server. When the load of the virtual server to be moved is low, it is considered that the convergence of the load fluctuation accompanying the movement of the virtual server is shorter than when the load is high. When the load of the migration target virtual server is low, by setting the guard time of the migration source and migration destination physical servers to be short, the physical server that has become the migration destination or migration source in the past due to migration of the virtual server The period excluded from the candidates when the virtual server is moved can be further shortened. Thereby, free resources of the physical server can be efficiently reused.

  As mentioned above, although this invention was demonstrated based on the suitable embodiment, the information processing apparatus of this invention, an information processing system, the information processing takeover method, and a program are not limited only to the said embodiment, What carried out various correction | amendment and change from the structure of the said embodiment is also contained in the scope of the present invention.

The block diagram which shows the structure of the information processing system of 1st Embodiment of this invention. The figure which shows the data structure of a guard time memory | storage part. The flowchart which shows the operation | movement procedure of an information processing system. The block diagram which shows the structure of the information processing system of 2nd Embodiment of this invention. The flowchart which shows the operation | movement procedure of the information processing system of 2nd Embodiment.

Explanation of symbols

10: Communication network 20: Autonomous control server 21: Resource information collection unit 22: Movement destination determination unit 23: Virtual server movement unit 24: Guard time storage unit 25: Exclusion server specification unit 26: Guard time information update unit 27: Guard time Coordinator 30: Physical server 31: Virtual server

Claims (9)

An information processing apparatus that is connected to a plurality of servers and executes processing for taking over information processing executed on one server to another server,
Exclusion that refers to an excluded server storage unit that stores identification information of a server that is excluded from the target of the takeover process, and that identifies a server that is specified to be excluded from the target of the takeover process in the excluded server storage unit A server specific part;
A server selection unit that selects at least one of the takeover source server and the takeover destination server of the information processing target to be taken over from among the plurality of servers excluding the server specified by the excluded server specifying unit When,
An exclusion server information update unit that stores at least one of the takeover source server and the takeover destination server as the excluded server in the exclusion server storage unit after execution of the takeover process. Information processing device.   The information processing apparatus according to claim 1, wherein the information processing takeover process is movement of a virtual server operating on a physical server.   3. The information processing according to claim 1, wherein the excluded server storage unit stores, as the excluded server, a server that is within a predetermined period after executing the information processing takeover process. apparatus.   The excluded server information update unit sets a time obtained by adding a predetermined time to the current time as an end time of a period excluded from the target of the takeover process, and identification information of at least one of the takeover source and the takeover destination servers, The information processing apparatus according to claim 3, wherein an end time of the excluded period is associated and stored in the excluded server storage unit.   The load information of the information processing to be taken over is acquired, and the exclusion server information update unit adds the load information based on the acquired load information and identification information of at least one of the takeover source and takeover destination servers. The information processing apparatus according to claim 3, further comprising an exclusion time adjustment unit that determines a predetermined time.   The excluded server specifying unit compares the current time with the end time of the excluded period stored in the excluded server storage unit, and the server whose end time has not expired among the plurality of servers. The information processing apparatus according to claim 4, wherein the server is specified as the excluded server. An information processing system having a plurality of physical servers and an autonomous control server that executes processing for taking over a virtual server executed on one physical server to another physical server,
The autonomous control server refers to an exclusion server storage unit that stores identification information of a physical server that is excluded from the takeover process target, and specifies that the exclusion server storage unit is excluded from the takeover process target A take-off source of a takeover target virtual server from among a plurality of physical servers excluding a physical server specified by the excluding server specification unit among the plurality of physical servers The server selection unit that selects at least one of the physical server and the takeover destination physical server, and at least one of the takeover source physical server and the takeover destination physical server after the execution of the takeover processing in the excluded server storage unit And an excluded server information update unit that stores the physical server to be excluded.
An information processing system characterized by this. A method of operating an information processing apparatus that is connected to a plurality of servers and performs control to take over and execute information processing executed on the server by another server,
A step of referring to an excluded server storage unit that stores identification information of a server excluded from the target of the takeover process, and specifying a server designated to be excluded from the target of the takeover process in the excluded server storage unit When,
A step of selecting at least one of a takeover source server and a takeover destination server of information processing to be taken over from among the plurality of servers excluding the server specified in the specifying step;
Storing at least one of the takeover source server and the takeover destination server as the excluded server in the excluded server storage unit after executing the takeover process. Method. To a computer connected to a plurality of servers and performing control to take over and execute information processing executed on the server by other servers,
A process of referring to an excluded server storage unit that stores identification information of a server that is excluded from the target of the takeover process, and specifying a server that is specified to be excluded from the target of the takeover process in the excluded server storage unit When,
A process of selecting at least one of a takeover source server and a takeover destination server of information processing to be taken over from among the plurality of servers excluding the server specified in the specified process;
A program that, after execution of the takeover process, causes at least one of the takeover source server and the takeover destination server to be stored as the excluded server in the excluded server storage unit.

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