JP2004005577A - Information processing system and information processing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a required service to a user not having knowledge about functions and performances of apparatuses of an information processing system (client server system). <P>SOLUTION: Each of the information processing apparatuses 101, 104, 111, and 117 connected to each other through a network 110 is provided with QOS tables 102, 105, 112, and 118 for registering the functions and performances. When a device is connected to the network 110, the QOS table is automatically registered to the local directory 108 of the network, agents 103, 106, 113, and 119 convert the content of the QOS table into service information and provide the converted information to the user through a user interface. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
[Industrial applications]
The present invention relates to an information processing system and method for providing a service to an end user in a device connected via a network, and a service providing method in the information processing system.
[0002]
[Prior art]
Generally, a large number of devices such as a server machine having resources such as a large-capacity disk and a plurality of client machines used by individual users are connected on a network, and these connected devices generally exchange information with each other. Called the client server system (CSS). The actual usage of the CSS is mainly based on the sharing of resources possessed by the server machine, such as file sharing using the disk resources of the server machine and sharing of the printer connected to the print server. In recent years, with the advancement of basic software such as a network operating system (hereinafter abbreviated as a network OS) and hardware of a server / client machine, it has become possible to realize a CSS environment having a more advanced usage form.
[0003]
As a specific example thereof, OSF DCE (hereinafter abbreviated as DCE) proposed by the Open Software Foundation (hereinafter abbreviated as OFS), which is one of the standardization organizations in the computer industry, is known. The DCE realizes provision of services called a directory service, a yellow page service, an authentication service, an access right service, and the like in a heterogeneous network environment.
[0004]
The directory service converts a user-friendly name into address information in an actual network system, and is like a telephone number indexing service using a telephone directory. The yellow page service is an additional function of the directory service, but can be searched by a function / attribute instead of a name. Further, the authentication service and the access right service are services for performing security checks such as whether or not the user has a legitimate access matter when subscribing to the system and when using the system, and both are services for managing the system. It can be said.
[0005]
The above-mentioned OSF DCE is described in detail in, for example, OSF DCE technical description (Soft Research Center Inc .; issued on August 25, 1992, ISBN 4-915778-15-0).
[0006]
[Problems to be solved by the invention]
Many services provided in the current CSS environment as described above cannot be provided unless the end user using the client machine is conscious of using a specific service. For example, when sharing a file with another client, specify the file name of the file sharing partner and specify in which directory on your client machine the shared file is to be set (this operation is called mounting). By doing so, files can be shared.
[0007]
Also, even if there is a service that can be used without the end user being aware of a specific service, the service is currently provided by a system administrator by setting in advance. It can be said that the DCE mainly enhances services for administrators who perform these system managements. Therefore, the end user has a problem that it is practically difficult or impossible to use information / service not set by the system administrator.
[0008]
In addition, as the range of devices that can be connected by CSS expands, the number of end users who use the system is diversified, and the number of opportunities for users who do not know how to operate information processing devices to use them is increasing. In such a case, there is also a problem that the end user can hardly utilize the service provided by the CSS which can be used by the end user.
[0009]
In many cases, the end user uses the device without special knowledge of the specifications and characteristics of the device. For example, there are cases in which a user does not know the functions / services provided by a device (such as a disk), such as which device has sufficient disk capacity, high transfer performance, or high reliability of data storage. Unless you become a system expert, you cannot use resources of the system properly and use it inefficiently.
[0010]
SUMMARY OF THE INVENTION An object of the present invention is to solve the above-described problems by providing information that enables even a person who has no knowledge about services provided by an information processing system to properly use a service provided by the information processing system. An object of the present invention is to provide a processing system and a method thereof, and a service providing method in an information processing system.
[0011]
Another object of the present invention is to provide an information processing system, a method thereof, and an information processing system that enable even a person who has no knowledge about services provided by CSS to appropriately use services provided by CSS. In providing a service providing method.
[0012]
Another object of the present invention is to provide an information processing system and method for guaranteeing the quality of service provided by the system to end users, that is, Quality of service (hereinafter abbreviated as QOS), and a service providing method in the information processing system. It is in.
[0013]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides two types of agent functions: a personal agent for managing user information for associating a service provided by an information processing system with a process requested by a user, and a terminal agent for managing a device. Is provided. The terminal agent grasps information such as functions and performances provided by each device connected to the network, converts the information into service information required by the user, and simultaneously manages terminals and clients operated by the user. It is. The personal agent manages customized data and provides services corresponding to individual users.
[0014]
In the present invention, a service information conversion unit is provided for converting information such as the function and performance of each device into service information. Further, the service information conversion unit includes a general service conversion table unit used by the terminal agent to convert service information, and a personal service conversion table used by the personal agent to convert service information customized for each user. Consists of
[0015]
Further, in the present invention, the terminal agent is in charge of the basic part of the user interface of the terminal / client operated by the user, and converts the information on the functions and performances provided by the respective devices connected to the network into service information on the user interface. It is made to be converted. The personal agent further takes charge of a customizing function corresponding to each user such as a security function in a user interface.
[0016]
Further, according to the present invention, a QOS table which defines functions and performances provided by each device is provided for each device connected by a network, and a plurality of QOS tables are provided for each cell which is a range of a small-scale network. It is managed in a directory. The local directory of the entire network system is managed by the global directory.
[0017]
Further, in the present invention, when a device is connected to the network, the QOS table is automatically registered in a local directory. Further, when the registered contents of the local directory are changed, the contents are notified to the global directory.
[0018]
Further, in the present invention, broadcast is used as means for registering the QOS table in the local directory.
[0019]
Further, according to the present invention, the information processing apparatus is provided with state monitoring means for monitoring the state of each part, and means for storing information on the state of each part collected by the state monitoring means is provided, and a network interface used only by the state monitoring means is provided. Is provided.
[0020]
That is, the present invention provides a plurality of information processing apparatuses having a table for registering information on functions and performances, a network interconnecting the plurality of information processing apparatuses, and a table of the information processing apparatuses connected to the network. And an agent function for providing the user with information on the function and performance of the information processing device registered in the table with reference to the management contents of the directory in the desired information processing device. An information processing system characterized by the following. Further, in the information processing system, the agent function of the desired information processing apparatus performs customization corresponding to each user, and provides a user corresponding part for providing the service information and service information independent of a specific user. And a portion for providing Further, in the information processing system, the information of the function and the performance registered in the table in the information processing system include a transfer speed, a random I / O performance, an access time, a bit error rate, an MTTDL (Mean Time to Data Loss), and an MTDA. (Mean Time for Data Availability) and bit cost. Further, according to the present invention, in the information processing system, the function and performance information registered in the table may be any one of a name of an information processing device, a type of an I / O device included in the information processing device, and a function / performance. One or all of them.
[0021]
Further, the present invention is an information processing system wherein an information processing apparatus having a QOS table for registering functions and performances provided to a user via a network is connected to the network. The present invention also provides a plurality of information processing apparatuses having a table for registering information on functions and performance, a network interconnecting the plurality of information processing apparatuses, and a table of the information processing apparatuses connected to the network. An information processing system comprising a directory to be managed. The present invention also provides a plurality of information processing apparatuses having a table for registering information on functions and performance, a network interconnecting the plurality of information processing apparatuses, and a table of the information processing apparatuses connected to the network. An information processing system comprising: a local directory to manage; and a global directory to manage the local directory. The present invention also provides a plurality of information processing apparatuses having a table for registering information on functions and performance, a network interconnecting the plurality of information processing apparatuses, and a table of the information processing apparatuses connected to the network. A directory to be managed, the function and the performance information of the information processing apparatus registered in the table are converted into service information by referring to the management contents of the directory in the desired information processing apparatus, and the converted service An information processing system characterized by having an agent function of providing information to a user. The present invention also provides a plurality of information processing apparatuses having a QOS table for registering information on functions and performances, a network interconnecting the plurality of information processing apparatuses, and a small set connected to the network. A local directory that manages a plurality of the QOS tables in a local area unit; and a global directory that manages a plurality of the local directories in a global area in a local area unit. It has an agent function of converting function and performance information of the information processing device registered in the QOS table with reference to the contents of a local directory into service information indicating service quality and providing the service information to a user. It is an information processing system. Further, in the information processing system, the agent function of the desired information processing apparatus performs customization corresponding to each user, and provides a user corresponding part for providing the service information and service information independent of a specific user. And a portion for providing Further, in the information processing system, the agent function of the desired information processing apparatus may read out the contents of a plurality of QOS tables registered in the local directory and store a plurality of common QOS tables registered in the QOS table. A service menu is created by detecting a function. Further, the present invention is characterized in that in the information processing system, the agent function in the desired information processing apparatus further creates a QOS menu for each of the services and provides the QOS menu to the user. Further, in the information processing system according to the present invention, the QOS table in the information processing apparatus includes at least one of a response time, a processing capability per unit time, and a transfer speed as information indicating a function and a performance of the information processing apparatus. It is characterized by including one. Further, the present invention provides a plurality of information processing apparatuses having a QOS table for registering information on functions and performance, a network connecting the plurality of information processing apparatuses to each other, and a small set of the plurality of information processing apparatuses. A local directory for managing a plurality of the QOS tables in a certain local area unit, and a plurality of the local directories in a global area for the local area unit, and when the contents of the local directory are changed, the local directory is changed. A global directory for receiving the change notification of the contents, and an agent function for providing a user with information on the function and performance of the information processing apparatus in the desired information processing apparatus; Provide to users according to An information processing system, characterized in that to change the contents of-bis information. Further, in the information processing system, when the information processing device is newly connected to the network, the local directory reads and registers a QOS table of the newly connected information processing device. And Further, in the information processing system according to the present invention, when the information processing apparatus is disconnected from the network, the local directory deletes a QOS table of the disconnected information processing apparatus. The present invention also provides a plurality of information processing apparatuses having a QOS table for registering functions and performances, a network connecting the plurality of information processing apparatuses to each other, and a local set which is a small set of the plurality of information processing apparatuses. A local directory that manages a plurality of the QOS tables in area units; and a global directory that manages a plurality of the local directories in a global area in the local area unit. The function and performance of the information processing device registered in the QOS table are converted into service information indicating the quality of service with reference to the contents of the directory and provided to the user through a user interface, and the frequency of use of each service by the user. Or service An information processing system characterized by having an agent function to change the contents of the service information to be provided through the user interface according to the usage content. Further, the present invention provides the information processing system, wherein the agent function of the desired information processing apparatus includes a service access agent for controlling a user interface and a personal agent for providing the service information by performing customization corresponding to each user. It is characterized by comprising a service and a public agent service for providing a common service among a plurality of users. Further, according to the present invention, in the information processing system, the personal agent service is provided in a client which is a terminal in the plurality of information processing apparatuses, and a copy of the personal agent service is transmitted to a server which controls the plurality of information processing apparatuses. It is characterized by having. The present invention also provides the information processing system, wherein the agent function in the desired information processing apparatus monitors a state of a plurality of application software activated by a user, and performs an operation according to an operation state of the application software. The content of the service information provided through a user interface is changed.
[0022]
The present invention is also an information processing method and system, wherein the information processing apparatus collects information of an I / O device connected at the time of startup and notifies another information processing apparatus via a network. . Further, the present invention is characterized in that the information processing device sends a request for I / O device information to another information processing device via a network at the time of startup and acquires I / O information of another information processing device. Information processing method and system. Further, the present invention is an information processing method and system, wherein a predetermined benchmark program is executed for an information processing apparatus newly connected to a network, and the result is registered in a QOS table or a directory. In the present invention, in the information processing method and the information processing system, the notification may be a broadcast communication.
[0023]
Further, the present invention provides a service providing method in an information processing system in which an information processing apparatus is connected to a network, wherein when a request for information on a state of each unit of the information processing apparatus is received through the network, the information processing apparatus operates independently of the operation of the information processing apparatus. And transmitting the collected information on the status of each unit to a network via a network interface of a status monitoring unit that monitors the status of each unit. The present invention also provides a service providing method in an information processing system in which an information processing apparatus is connected to a network, wherein, when a request for information on a state of each unit of the information processing apparatus is received through the network by a communication protocol, the operation of the information processing apparatus is performed. Independently converts the collected information on the status of each unit into a communication protocol through a network interface of status monitoring means for monitoring the status of each unit, and sends the communication protocol to a network. is there.
[0024]
Further, the present invention includes a plurality of information processing apparatuses having a QOS table for registering information on functions and performances, and a network connecting the plurality of information processing apparatuses to each other, wherein the desired information processing apparatus is connected to the network. The user refers to the QOS table of each of the plurality of connected information processing devices and converts the information of the function and performance of the information processing device registered in the QOS table into service information indicating the quality of service, and An information processing system characterized by having an agent function for providing the information to an information processing system. Further, the present invention provides a service providing method in an information processing system in which a plurality of information processing apparatuses having a QOS table for registering function and performance information are connected by a network, wherein the desired information processing apparatus has an agent function connected to the network. The QOS table of each of the plurality of information processing apparatuses is referred to each other, and the information on the function and performance of the information processing apparatus registered in the QOS table is converted into service information indicating the quality of service, and the A service providing method in an information processing system characterized by providing. Further, according to the present invention, the user interface for displaying the QOS information indicating the function, performance, and service provided by the information processing apparatus is any one or all of menu information of online storage, moving image quality, and backup storage. It is characterized by.
[0025]
According to the present invention, the terminal agent makes an inquiry about the QOS table of each device connected to the CSS to the global directory and the local directory via the network, and obtains the function / performance of each device obtained as a result. Is converted into service information required by the user, so that the service information can be directly provided to the user.
[0026]
When the terminal agent performs the conversion of the service information, the terminal agent converts the function / performance information of the device into service information required by the user based on the registered contents of the general service conversion table of the service information conversion unit. Therefore, the service information to be provided to the user can be changed according to the registered contents of the service information conversion unit.
[0027]
The terminal agent is responsible for the basic part of the user interface of the terminal / client used by the user and displays common functions and provides common services for each user. Interface, and the service information to be provided can be changed.
[0028]
Also, the personal agent issues an inquiry to the global directory and the local directory about the functional performance of each device connected to the CSS similarly to the terminal agent, and obtains the function / performance of each device obtained as a result. The service information is converted into service information required by the user and provided to the user. When providing the service information from the personal agent to the user, the terminal agent can request the terminal agent to provide the service information to the user, and the terminal agent can notify the user of the information through a user interface.
[0029]
When the personal agent accepts a service request from a user, the personal agent inquires the contents of the QOS table of each device registered in the global directory and the local directory, and requests the device having the function and performance corresponding to the user's service request to the device. The user's service request can be notified.
[0030]
When the personal agent converts function / performance information of each device connected to the CSS into service information required by the user, the personal agent converts the information into the conversion information registered in the personal service conversion table of the service information conversion unit. Since conversion is performed based on the number of personal services, by providing personal service conversion tables for the number of persons corresponding to each user, it is possible to provide service information customized for each user.
[0031]
Also, the personal agent rewrites the contents of the personal service conversion table according to the degree of service request of each user and the frequency of use of a specific service.
[0032]
As described above, the two agents grasp the service information of each device connected to the CSS, the terminal agent is in charge of the user interface and notifies the user of the service, and the personal agent performs the service request of the user. By grasping the content, information exchange between the terminal agent and the personal agent can realize the mapping of the user request to the service provided by the system.
[0033]
Further, according to the present invention, the status monitoring means performs input / output with the information processing system via the network interface used only by the status monitoring means, and receives a request for information regarding the status of each unit of the information processing apparatus. Can transmit the information collected by the status monitoring means through a network interface independently of the operation of the information processing system.
[0034]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of a computing service according to the present invention will be described below with reference to FIGS.
[0035]
FIG. 1 is a block diagram showing a system configuration according to an embodiment of the present invention. In FIG. 1, an information processing apparatus A101, an information processing apparatus B104, an information processing apparatus C107, an information processing apparatus D111, and an information processing apparatus E are mutually connected via a local area network (hereinafter abbreviated as LAN) 110. The LAN 110 is further connected to a wide area network (hereinafter abbreviated as WAN) 123 via an information processing device E which is a communication server, and is also connected to an information processing device F120 on the WAN 123. Each of the information processing apparatuses A to F has a QOS table 102, 105, 112, 118 and a terminal agent 103, 106, 109, 113, 119, 122, respectively. The terminal agent interfaces each information processing device with the LAN 110 and other information processing devices.
[0036]
Here, a case where the user operates the information processing apparatus D as a client will be described. When the information processing device D is started, the terminal agent 113 and the personal agent 115 issue an inquiry to the information processing device 107, which is a server on the LAN 110, about resources on the network registered in the local directory 108. The terminal agent 109 of the information processing device C107 sends out the contents of the local directory 108 to the information processing device D111.
[0037]
FIG. 2 shows a configuration example of the local directory. 2, a QOS table registration unit 301 includes a registration item 302 and registration contents 303, and one QOS registration unit 301 corresponds to a QOS table of one information processing device. Items indicating functions and performances of the information processing apparatus are registered in the registration item 302, and contents corresponding to the items are registered in the registration contents 303. The network address registration unit 304 includes a connected resource name 305 and an address 306 on the network corresponding to the resource name 305.
[0038]
When the user uses the information processing apparatus A from the information processing terminal D, the user requests and gives / receives a service through the service menu 116 with the terminal agent 113 and the personal agent 115. The terminal agent, personal agent, and service menu will be described in detail in the section of the user interface, and will not be described here. When a user requests use of a computing resource, the terminal agent 113 makes an inquiry about the computing resource to the information processing apparatus C107 which is a server. The terminal agent 109 of the information processing apparatus C searches the contents of the local directory 108, and sends information on the function and performance of the registered computing resources to the information processing apparatus 111 via the LAN 110. The terminal agent 113 converts the received information into service information for the user at the service information conversion unit 114, and notifies the user via the personal agent 115 and the service menu 116.
[0039]
FIG. 3 shows an embodiment of the service information converter. In FIG. 3, the service information conversion unit includes a general service information conversion table 307 for converting service information common to a plurality of users, and a personal service conversion table 310 corresponding to a specific user.
[0040]
The general service conversion table includes a table 308 for storing information indicating functions and performances of resources connected to the network obtained from the local directory 108 of the server, and a table for users corresponding to the information indicating the functions and performances. And a table 309 for storing service information. The personal service conversion table contains service conversion information for the personal agent 115 to optimize the service menu 116 for each user according to the service usage status of the user and the operation state of the application software in the information processing apparatus D. Stored.
[0041]
For example, FIG. 3 shows a case in which the display order of each service in the service menu 116 is changed according to the use status of each service. The personal agent 115 registers the use frequency of the user in the use frequency table 311 for each of the service information provided by the terminal agent 113, and displays each service on the service menu in any order according to the use frequency. The registration is registered in the display order table 312. The user agent displays many according to the proficiency level and usage status of each user based on the registration information in the personal service conversion table.
[0042]
Next, a case where the information processing apparatus B (processor) 104 is connected to the LAN 110 in the embodiment shown in FIG. 1 will be described. When a new information processing apparatus is connected to the information processing system connected via the network, the QOS table 105 of the information processing apparatus B is newly registered in the local directory 108 managed by the information processing apparatus (server) C. . FIG. 4 shows a registration flow of the QOS table. When the information processing apparatus B104 is connected to the LAN 110 (operation 401), the terminal agent 106 notifies the connection and activation of the information processing apparatus B104 using broadcast communication (402).
[0043]
The terminal agent 109 of the information processing apparatus C107, which is a server on the network, requests the information processing apparatus B104 to transmit the contents of the QOS table 105 (403). The terminal agent 106 sends the contents of the QOS table 105 (404). The terminal agent 109 registers the contents of the QOS table in the local directory 108 (405). Further, the information processing device C 107 notifies the global directory 121 managed by the information processing device F 120 that is a server on the WAN 123 via the communication server 117 that the content of the local directory 108 has been changed (407). The terminal agent 122 registers the change of the local directory 108 in the global directory 121 (407) and completes the operation.
[0044]
One embodiment of the global directory 121 is shown in FIG. The global directory includes a local directory registration unit 313 for registering a plurality of local directories of the entire system and a resource registration unit 316 for registering the type of each resource registered in the local directory. The local directory registration unit 313 includes a local directory name 314 managed by the global directory 121 and a gateway address 315 of a LAN managed by each local directory. A logical address or a physical address determined by a network protocol is registered as the gateway address 315. Further, the resource registration unit 316 registers a resource type 317 managed by each local directory and a connection directory 318 of each resource.
[0045]
When the global directory 121 receives an inquiry about a resource from an arbitrary terminal agent, the global directory 121 first checks the resource type 317 and the connection directory 318 by referring to the resource registration unit 316, The gateway address 315 of the local directory to be transmitted is transmitted. Further, instead of the gateway address 315, the network address of each server that manages the local directory may be transmitted.
[0046]
FIG. 6 shows a flow in the case of connecting an information processing apparatus not having the QOS table. When the information processing apparatus does not have the QOS table, for example, if it is a computing resource, a predetermined benchmark program may be executed, and the result may be registered in the local directory 108 as a QOS table. In FIG. 6, when the information processing apparatus B104 in FIG. 1 is connected to the LAN 110 and the information processing apparatus B104 does not have a QOS table (steps 408 and 409), the information processing apparatus C107 is connected to the information processing apparatus B104. A predetermined benchmark program is sent to the server (410). The information processing B104 executes the benchmark program and sends a result to the information processing device C107. Subsequent operations are the same as in the case where the QOS table is provided.
[0047]
FIG. 7 shows another embodiment of the service information conversion unit 114 in FIG. In FIG. 7, the service information conversion unit converts function / performance information of the information processing apparatus into service information for the user. In the general service conversion table 319, the function / performance information is used as the function / performance information of the system. The number of effective calculation digits 320 of each processor of the resource is registered, and this is converted into service information 321 for the user indicating a suitable use of each processor. In the personal service conversion table 324, the number of effective calculation digits 322 of each processor is converted into service information for the user as a predetermined benchmark result 323. The user can determine the number of significant digits of each processor by a user's required evaluation method by using the user's selected benchmark.
[0048]
Further, the agent function according to the present invention will be described with reference to FIGS. FIG. 8 shows the configuration of an embodiment of the agent function of the present invention. The agent function 150 is software that operates on the information processing device 160, and each unit of the agent function 150 operates as follows. The hardware virtualization layer 159 absorbs differences between the plurality of information processing devices 160 so that differences in hardware do not affect the operation of software. The file system 157 controls the file system 171 of the information processing device 160, and the network I / F 155 also controls the network I / F 163. The DCE support 156 has a function of supporting an OFS (Open Software Foundation) / DCE environment. OFS / DCE has been described in the conventional example and will not be described here.
[0049]
The general service conversion table 173 and the personal service conversion table 172 correspond to the service information conversion unit in FIG. The general service conversion table 173 is a registration table for converting system function / performance information common to a plurality of users into user service information. The personal service conversion table stores service information for a specific user. This table stores information corresponding to each user, such as conversion and customization information of the user interface 152. The kernel 154 is a main function of the agent and controls other functional blocks. The shell 151 and the user interface 152 are on the application interface 153, and the user interface 152 controls the CRT 161 of the information processing device 160 and performs an interface with the user.
[0050]
The information processing device 160 has peripheral devices such as a keyboard (K / B) 168, a ROM 169, and a flash memory 170, which are connected to a CPU 161 and a main memory 162 by a system bus 164. Usually, the agent is stored in a non-volatile memory such as the ROM 169 or the flash memory 170 or a secondary storage device such as the file system 171, and is loaded into the main memory 162 and executed by the CPU 161 after the system is started. The QOS tables 102, 105, 112, and 118 in FIG. 1 are usually stored in a non-volatile memory such as the ROM 169 or the flash memory 170, and are stored in the main memory 162 or the file system 171 by the agent 150 when the system is started. .
[0051]
FIG. 9 shows another embodiment of the agent. In FIG. 9, the agent includes a terminal agent 175 for converting a service common to a plurality of users and a personal agent 174 for customizing a service conversion method and a user interface for a specific user. The personal agent 174 transfers all information through the terminal agent 175. The operation of the other parts in FIG. 9 is the same as that in FIG.
[0052]
Next, an embodiment of the QOS user interface according to the present invention will be described with reference to FIGS. This embodiment is an example in the case of access from a satellite office to a home office. When an arbitrary terminal in the satellite office is started, a terminal agent of the terminal appears, and a service menu (FIG. 10) indicating what kind of service is available at the terminal is displayed. In the service menu shown in FIG. 10, the terminal agent of the terminal manages the services so that the services are displayed in order of use frequency.
[0053]
When connecting to the home office host computer, the user selects and clicks "Connect to Host" from the menu. In response to this, the terminal agent of the terminal displays the QOS menu (FIG. 11) for ordering the connection method. In the present embodiment, four options of “nothing in particular”, “fast even if expensive”, “slow and cheap”, and “finely set” are displayed in the QOS menu of FIG. If the user selects "none", the terminal agent selects a route according to the default settings and connects to the home office host computer.
[0054]
When the user selects “fast even if it is expensive”, a route that can perform communication as fast as possible is selected. When the user selects “cheap because it is slow,” a route that allows communication as inexpensive as possible is selected. When the user selects "set finely," the route selection is set by the user. In the present embodiment, it is assumed that the user has selected “not particularly”. In this case, the terminal agent selects a route according to the default setting and connects to the home office host computer, and the terminal displays a login screen (FIG. 12) of the home office host computer.
[0055]
The login screen in FIG. 12 is the same as the conventionally known login screen, except that an icon of the terminal agent of the terminal is displayed at the upper left, and the user clicks the icon as necessary to open the terminal screen. Can change the settings such as the size of the screen. Upon successful login, the personal agent on the home office host computer is activated, and an initial service menu screen (FIG. 13) corresponding to the user is displayed.
[0056]
In FIG. 13, the personal agent indicates that three e-mails and two circulation documents by the workflow software have been delivered to the user. As the service menu, “E-mail (reading e-mail)”, “circulation (see)”, and “postponing” are shown. When the user selects "E-mail", the e-mail software starts up and displays the first mail, and when "circulates", the workflow software starts up and displays the first circular document. If the user selects "postponed", the personal agent displays another service menu. In this embodiment, it is assumed that the user has selected “circulation”. In this case, the personal agent activates the workflow software and displays the first circular document, circular 1 (FIG. 14).
[0057]
In FIG. 14, the screen of the workflow software is displayed, and the user can process the circulation document according to the operation method of the software. The screen of FIG. 14 is similar to a conventionally known login screen, but icons of a terminal agent and a personal agent of the terminal are displayed at the upper left, and the user clicks these icons as necessary. By doing so, one of the agents can be called. In this embodiment, a case is shown in which the user clicks the personal agent icon and calls the personal agent.
[0058]
In this case, the workflow software is hidden in the background, and a service menu screen (FIG. 15) by the personal agent is displayed. When the user wants to print circular 1, he selects and clicks “print circular 1” from the service menu in FIG. 15. The service menu of FIG. 15 is managed by the personal agent in order of frequency, and the personal agent monitors the status of the background workflow software, and displays “Print circulation 1”, “To next circulation”, etc. in the service menu. Has been added.
[0059]
When the user selects “print circulation 1”, the personal agent displays a QOS menu screen for printing (FIG. 16). In the present embodiment, the QOS menu of FIG. 16 shows three options of “not particularly”, “home office”, and “other settings”. In showing the screen of FIG. 16, the personal agent recognizes that the user has logged in from the satellite office based on information from the terminal agent. Thus, in the QOS menu of FIG. 16, when the user selects "nothing in particular", printing is performed in the satellite office, and "home office" is added to the QOS menu. When the user selects “home office”, printing is performed at the home office, and when the user selects “other settings”, the selection of the print location and the like is set by the user.
[0060]
In the present embodiment, a case where the user selects “not particularly” is shown. In this case, printing is performed at the satellite office, and the personal agent displays the service menu screen again (FIG. 17) unless there is any particular problem with printing. The screen of FIG. 17 is basically the same as the screen of FIG. 15, but the contents of the service menu are different. This is because the personal agent reconfigures the service menu based on printing the circulation document.
[0061]
As described above, in the user interface of the present invention, the agent reconfigures the contents of the service menu or the QOS menu according to the user's usage frequency or work content. The terminal agent and the personal agent in the above-described embodiment of the agent correspond to the terminal agent 113 and the personal agent 115 in the above-described embodiment of the computing service, respectively.
[0062]
Next, an embodiment of the file service of the present invention will be described with reference to FIGS. In order to carry out the present invention, two methods are required: (1) a user interface of a file service in a computer network, and (2) a method of managing a quality of service (QOS) of a file service device connected to the computer network. is there. Since (1) is described in the embodiment of the user interface, the information passed from (2) to (1) in the user interface by the management method and the file service in (2) is described here.
[0063]
First, the QOS management server of the file service device shown in FIG. 18 will be described. The computer network is hierarchically managed in units called zones, domains, and the like. A QOS management server is placed in each management unit, such as a zone and a domain, and the QOS information 205 of the file service device 208 and the device on the network are hierarchically arranged. An ID for specifying the ID or a name corresponding to the ID is registered and managed.
[0064]
In FIG. 18, a local area 201 managed by a lower-level QOS management server and a global area configured by a plurality of collections of the local areas 201 and managed by a higher-level QOS management server with respect to the hierarchical structure of the zones, domains, and the like. 202. In FIG. 18, the QOS information 205 of each information processing apparatus connected to the LAN 206 in the local area 201 and an ID for specifying a device or a name corresponding to the ID are registered in the local QOS management server 203. .
[0065]
Further, a part or all of the registered contents of the QOS management server is registered in the global QOS management server 204 through the gateway 205 and the main LAN 207 of the global area 202 which is a set of the local areas 201. The operation of the other parts in FIG. 18 is the same as that of the embodiment relating to the computing service, and will not be described here.
[0066]
Next, the contents of the QOS of the file service device will be described. As the QOS of the file service device, there are various levels from a classification based on the service quality closest to the lower-level device characteristics to a classification closely related to the upper-level file characteristics. As a preferred embodiment of the present invention, a lower level QOS and an upper level QOS are set as follows.
[0067]
1. Lower level QOS
Transfer speed (sequential performance), random IO performance, access time; bit error rate, MTTDL (Mean Time To Data Loss), MTDA (Mean Time for Data Availability); bit cost
2. High-level QOS
Online storage (normal files); Moving images (eg, 640x480 in MPEG format, HDTV quality, etc.); Backup storage
Next, a method of registering a file service device in the QOS management server will be described. In the present invention, it is desirable that the file service device is automatically registered in the QOS management server when it is connected to a computer network or a computer on the computer network. For this purpose, each device only needs to be able to hold its own QOS on a nonvolatile storage device and notify the management server of the QOS when connected to a network or a computer.
[0068]
In the case of a device directly connected to the network, the device autonomously notifies its own QOS to the management server when the power is turned on or when the device is connected to the network. In the case of a device connected to a computer, the QOS of the device may be read and registered in the management server when the computer detects the connection. The computer can detect the connection of the device by periodically polling for the presence or absence of the device, or by using an input / output bus that can detect the device connection according to the rules of the input / output bus such as a power supply line and a signal line. For example, in the case of SCSI (Small Computer System Interface), the notification of the QOS from the device to the computer can be realized when the computer (initiator in this case in SCSI) responds to the mode sense command by the device (target in this case in SCSI).
[0069]
In FIG. 18, when the file service device 208 is connected to the LAN 206, the file service device 208 reads out the QOS information 209 of the device at the time of starting the device, and notifies the local QOS management server 203 of it. The local QOS management server 203 registers the QOS information 209 and, at the same time, registers part or all of the QOS information 209 in the global QOS management server 204 on the main LAN 207.
[0070]
Next, information passed from the QOS management server to the user interface will be described. The information of the file service device passed from the QOS management server to the user interface has the following two contents.
1. Name or ID to identify the device on the network
2. QOS of each level
The user interface selectively determines which level of QOS to present to the user according to the level and requirements of the user. 19, a QOS management server 210 and a user client 212 are mutually connected via a LAN 211. The user interface 213, which is an application running on the user client, requests the QOS information of each level to the QOS management server 210 via the LAN 211 in response to a user request. The QOS management server 210 sends out the requested QOS information. If the QOS management server 210 does not have the requested QOS information, it sends the request for the QOS information to the QOS management server in a higher hierarchy.
[0071]
The operation of the user interface in FIG. 19 has been described in detail in the embodiment of the user interface and the embodiment of the computing service, and thus the description is omitted here.
[0072]
Hereinafter, embodiments related to the network will be described. FIG. 20 is an example of the system configuration of the present invention. The information processing apparatus A 601, the information processing apparatus B 605, the information processing apparatus C 609, the information processing apparatus D 613, the information processing apparatus E 619, and the information processing apparatus E 625 are connected to the LAN 612. In the present embodiment, the information processing apparatus A 601, the information processing apparatus B 605, the information processing apparatus C 609, and the information processing apparatus E 625 are servers that mainly provide services, and the information processing apparatuses D 613 and E 619 mainly receive services. Be a client. A disk 604 having a highly reliable RAID configuration is connected to the information processing device A 601, and a high-speed disk 608 having a high access speed is connected to the information processing device B 605. The information processing device E 625 is an upper server connected to another LAN 628.
[0073]
Next, the operation of the present invention will be described. The information processing apparatus A 601 connected to the LAN 612 executes the initial settings in the apparatus by turning on the power, loads a program such as an OS or a monitor, executes the program initialization processing, and starts the terminal agent 603. Use environment starts up.
[0074]
During the initialization or OS initialization processing, QOS information of the connected I / O is collected. For example, when the connection interface of the I / O is SCSI, the function of the device is collected using an inquiry command. In the case of an individual I / O interface, information is collected by a collecting method provided by the interface. Individual interfaces include RS232C, Centronics, bidirectional Centronics, GPIB, and the like.
[0075]
The QOS information of the I / O to be collected is a value related to a function or performance. For example, for a disk, it is a capacity, a transfer performance, and the like. .
[0076]
If the connection I / O does not have an interface for providing QOS information, the QOS information can be collected manually by setting the QOS information in a file or a non-volatile memory from the outside and reading the content when the information processing apparatus is started. Realize. When the connection I / O provides only partial information, the connection can be made manually or by setting the system default value in a file or a non-volatile memory, reading this content at startup, and completing the QOS table information. Collect I / O QOS information.
[0077]
The collected QOS information is stored in the QOS table 602 in the information processing device. FIG. 21 shows a configuration example of the QOS table 602.
[0078]
When completing the creation of the QOS table 602 of the connected I / O, the information processing apparatus A 601 notifies the other information processing apparatuses of the activation of the own system. At this time, a notification is sent together with the QOS table 602 of the own system. The notification uses the broadcast address on the network to notify all devices. The information processing device C609, which is a management server in the network having the notified local directory, stores the notified QOS table 602 in the local directory. Other information processing devices store the notified QOS table 602 as needed. Specifically, the terminal agent of the information processing device determines whether the information is necessary, and if necessary, stores it as internal data. The determination as to whether it is necessary is made based on whether it is set in advance or includes I / O information requested by the end user.
[0079]
Next, if the QOS table information of the other information processing apparatus is included in the previously requested QOS table 602 information, the terminal agent 603 of the information processing apparatus A 601 compares the QOS table information with the corresponding other information processing apparatus. Contact
[0080]
As an example of this inquiry, there is a method of using a broadcast address for the inquiry. Among the other information processing apparatuses that have received the inquiry, the information processing apparatus that has connected the request I / O sends the QOS table information of its own information processing apparatus to the information processing apparatus A 601. When the information processing apparatus A 601 receives the QOS table information of the inquiry result from a plurality of other information processing apparatuses, it performs prioritization according to a predetermined determination criterion. As the predetermined criterion, a criterion based on the position of the same network or the like, a difference in I / O performance, or the like is used. The setting of the judgment criteria is performed by a system default or a system administrator.
[0081]
Another example of the inquiry is a method of inquiring the information processing device C609 having a local directory. When a server having a global directory is not connected in the network, the information processing apparatus A 601 obtains necessary QOS table information by transmitting the QOS table in the local directory 610 of the information processing apparatus C 609. If there is a server having a global directory (this example corresponds to the information processing device E625), the information processing device C609 sends the QOS table information of the local directory to the server information processing device E625 having the global directory at startup. When receiving the inquiry about the QOS table from the information processing device A 601, the information processing device C 609 makes an inquiry to the information processing device E 625, and transmits the QOS table of the response from the information processing device E 625 and the QOS table information of the local directory. As a result, the information processing device A 601 can obtain necessary QOS table information.
[0082]
Although the description has been given of the information processing apparatus A601, the information processing apparatus serving as a server can transmit and receive the QOS table information in a similar manner.
[0083]
Next, the operation of the client information processing apparatus D613 will be described with reference to FIGS. When the information processing device D613 is activated, the terminal agent 615 is activated. The terminal agent 615 has a QOS table 614 and a terminal service information conversion table 629 for converting terminal services. The end user 618 activates a personal agent 616 for himself / herself via the terminal agent 615, and realizes login to the information processing device D613. The activated personal agent 616 has a personal agent service information conversion table 630 and user environment information 631, and displays a service menu 617 based on the user environment information 631. FIG. 22 shows the configuration of the service information conversion table, and FIG. 23 shows the user environment information table. FIG. 25 shows an example of the displayed service menu. FIG. 25 shows a menu for saving data. Here, the RAID 604 of the information processing apparatus A 601 is displayed as a file with a highly reliable backup function, and the high-speed disk of the information processing apparatus B 605 can be saved in a short time. When an I / O access is required by the user instructing according to the service menu 617, the personal agent 616 searches the personal agent service information conversion table 630, and executes the I / O access if necessary information exists. If there is no necessary information, the terminal agent 615 is requested to search the required terminal service information conversion table 629. If the requested information has been registered, the terminal agent 615 returns a terminal service information conversion table to the requesting personal agent 616. If there is no request information, the terminal agent 615 executes the same operation as the above inquiry, thereby making necessary information available. Obtain QOS table information. The terminal service information conversion table is updated based on the obtained QOS table information, and the terminal service information conversion table is returned to the personal agent 616. As described above, the construction of the service access environment of the end user 618 in the information processing device D613 is realized.
[0084]
Next, the operation of the information processing device E619 of the client will be described with reference to FIGS. The information processing device E619 is different from the information processing device D613 in that a terminal agent 621 and a personal agent 622 are arranged in parallel. This allows the end user 624 to switch agents as needed. When the information processing device E619 is activated, the terminal agent 621 is activated. The terminal agent 621 has a QOS table 620 and a terminal service information conversion table 633 for converting terminal services. The end user activates his / her personal agent 622 via the terminal agent 621 and realizes login to the information processing device E619. Upon login, the process is switched from the terminal agent 621 to the personal agent 622. The switched personal agent 622 has the personal agent service information conversion table 634 and the user environment information 635 similarly to the information processing apparatus D613, and displays the service menu 623 based on the user environment information 635. FIG. 27 shows an example of the displayed service menu. FIG. 27 shows a menu for saving data. Here, the RAID 604 of the information processing apparatus A 601 is displayed as a file with a highly reliable backup function, and the high-speed disk of the information processing apparatus B 605 can be saved in a short time. In the display of the service menu 636, both the terminal agent and the personal agent are made into a graphic at the upper left, indicating that the agent can respond to the service request. When the user 624 instructs the service menu 623 and the I / O access is required, the personal agent 622 searches the personal agent service information conversion table 634, and executes the I / O access if there is necessary information. . If there is no necessary information, the information processing apparatus C609 is requested to search the required terminal service information conversion table 633. The terminal agent 611 of the information processing device C609 returns the information of the terminal service information conversion table 633 to the requesting personal agent 622 if the requested information has been registered, and if there is no request information, the same operation as the above inquiry , The required QOS table information is finally obtained. The terminal service information conversion table 633 is updated based on the obtained QOS table information, and the information of the terminal service information conversion table 634 is returned to the personal agent 622 of the information processing device E619. As described above, the construction of the service access environment of the end user 624 in the information processing device E619 is realized.
[0085]
In FIG. 25 and FIG. 27, the selection of the service is realized in a menu format. However, as in the display of the terminal agent or the personal agent, the service is provided, that is, the disk is iconified and the service is visually displayed. It is also possible.
[0086]
Finally, FIG. 28 shows a schematic diagram of an embodiment for realizing the present invention. In this embodiment, information regarding the RAS function of the information processing apparatus is handled as service information. In FIG. 28, 181 is a CPU, 182 is a main storage device, 183 is a host bus, 184 is a bridge for converting between the host bus 183 and the I / O bus 186, 187 is connected to the I / O bus, and connects to the network line 190. The network interface module 188 that performs the data conversion includes information about the power supply (whether or not power is supplied for 24 hours, whether or not a backup power supply is provided, whether or not the power supply is duplicated, etc.), and information about the file system ( Whether or not it is duplicated, whether or not it is a disk array configuration, what kind of file system is represented by NFS, etc., and information on other system devices (whether or not it has a failure monitoring, detection, notification, and recovery function, Or information about the reliability of the system, such as what functions it has, etc. The RAS information storage unit 189 which holds the RAS information) observes signals on the network line 190 and, when detecting a signal or a message requesting information related to reliability, performs processing of the system unit. A multi-protocol translator that reads information from the RAS information storage unit 188 independently of the state and outputs the information to the network line 190.
[0087]
In the embodiment of FIG. 28, it is assumed that EITHERNET in which information conforming to three communication protocols of TCP / IP, IPX / SPX, and Apple Talk is transferred on the network line 190, and the multi-protocol translator 189 performs the above-described TCP / IP. It is assumed that it can support three communication protocols of IP, IPX / SPX, and Apple Talk.
[0088]
FIG. 29 is a diagram showing a processing flow of the multi-protocol translator 189 of FIG. In FIG. 28, the multi-protocol translator 189 observes a signal on the network line 190 (detects a signal requesting RAS information conforming to any one of three communication protocols, STEP1, TCP / IP, IPX / SPX, and Apple Talk). In this case, the process proceeds to STEP 2 to read out the RAS information from the RAS information storage unit 188. From STEP 2, the process proceeds to STEP 3, and proceeds to any one of STEP 4, STEP 5, and STEP 6 according to the communication protocol of the signal detected in STEP 1.
[0089]
If the communication protocol detected in STEP 1 is TCP / IP, the process proceeds to STEP 4 and converts the read RAS information into the TCP / IP protocol. Similarly, if the communication protocol detected in STEP 1 is IPX / SPX, the process proceeds to STEP 5 and converts the read RAS information into IPX / SPX. Similarly, when the communication protocol detected in STEP1 is AppleTalk, the process proceeds to STEP6, and the read RAS information is converted into AppleTalk. When the processing of STEP4, STEP5, and STEP6 is completed, the process proceeds to STEP7, and the RAS information converted into each communication protocol is output to the network line.
[0090]
After the processing in STEP 7 is completed, the processing proceeds to STEP 1 and the same processing flow is repeated. FIG. 30 is a diagram showing a format example of the RAS information data held in the RAS information storage unit of FIG. In FIG. 30, a character code of "RAS_INFO" is stored as a header representing the head of the RAS information data at the head of the data, that is, eight bytes from the offset address 0H. RAS information of the system device such as whether or not the system has a failure monitoring, detection, notification, and recovery function, or what kind of function the system has, is stored in a byte area following the header.
[0091]
A code indicating the type of the RAS information is written in the first byte of this data area (here, type 0 meaning system information). Information about the power supply, such as whether or not power is supplied for 24 hours, whether or not a backup power supply is provided, and whether or not the power supply is duplicated, is stored in the next n-byte area.
[0092]
Similarly, a code indicating the type of RAS information is written in the first byte of this data area (here, type 1 meaning power supply information). Information about the file system, such as whether the file is duplicated, whether it is a disk array configuration, and the type of file system (for example, NFS) is stored in the next p-byte area. I do. Similarly, a code indicating the type of RAS information is written in the first byte of this data area (here, type 2 meaning file information).
[0093]
As described above, in the present embodiment, when information regarding reliability is requested from another information processing device on the network, the RAS information of the device can be transmitted regardless of the operation state of the terminal device. .
[0094]
Further, the multi-protocol translator 189 in this embodiment may be controlled by the DCE support 156 and the network I / F 155 in FIG.
[0095]
【The invention's effect】
According to the present invention, since the information relating to the functions and performances of the information processing devices connected to each other via the network is converted into service information for the user and provided to the user, the user needs the information more directly. The service can be received.
[0096]
In addition, since the service information is provided to the user through the agent, the user only needs to interface with the agent and does not need to be aware of the configuration of the device connected to the network.
[0097]
Further, since the common service is provided to each user by the terminal agent, the provision of the service to all the users can be changed at once by changing the function of the terminal agent.
[0098]
In addition, the personal agent changes the content of service information provided through the user interface according to each user's usage mode, such as the operation method of each user and the frequency of use of a specific service. Therefore, the user interface optimized for each user Can be provided.
[0099]
Further, since the agent converts information about the functions and performance of each device on the network into service information for the user according to the registered contents of the service information conversion table, by changing the contents of the service information conversion table, The contents of the service information to be provided to the user can be changed without changing the contents of the QOS table of the device.
[0100]
Further, according to the present invention, even when a new information processing device is connected to the network, registration of information relating to functions and performances of each device to the system is automatically performed. This makes it possible to obtain information on necessary services without being conscious of the configuration of the device and changes in the configuration.
[0101]
Furthermore, since the broadcast is used as a means for registering the information on the function / performance in the information system, even when a new device is connected, the information on the function / performance can be stored without being aware of the network configuration. You can register.
[0102]
Further, according to the present invention, a predetermined benchmark test is executed for each device having no QOS table, and a QOS table is created based on the result. It is possible to register information on functions and performances in the system.
[0103]
A service that changes the contents of the above benchmark test, executes the changed benchmark test on each device on the network, and registers the result in a QOS table, thereby changing the QOS standard of the entire system and providing it to the user. The content of the information can be changed.
[0104]
Furthermore, by supplying the benchmark test created by the user to the system, executing the benchmark test on each device, and registering the result in the service information conversion table, the function and performance of any item of each device in the system can be checked. There is an effect that information can be added as service information.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a system configuration according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating an embodiment of a local directory.
FIG. 3 is a diagram illustrating a configuration of an embodiment of a service information conversion unit.
FIG. 4 is a diagram illustrating a registration flow of a QOS table.
FIG. 5 is a diagram illustrating an embodiment of a global directory.
FIG. 6 is a diagram illustrating automatic generation of a QOS table.
FIG. 7 is a diagram illustrating another embodiment of the service information conversion unit.
FIG. 8 is a diagram illustrating a configuration of an embodiment of an agent.
FIG. 9 is a diagram illustrating another configuration of the agent.
FIG. 10 is a diagram showing a service menu.
FIG. 11 is a diagram showing a QOS menu.
FIG. 12 is a diagram showing a login screen.
FIG. 13 is a diagram illustrating an initial service menu.
FIG. 14 is a diagram illustrating a display example of a personal agent.
FIG. 15 is a diagram showing a service menu of an individual agent.
FIG. 16 is a diagram showing a QOS menu of a personal agent.
FIG. 17 is a diagram showing a service menu of an individual agent.
FIG. 18 is a diagram showing an embodiment of a file service of the present invention.
FIG. 19 is a diagram illustrating a flow of QOS information of a file service.
FIG. 20 is a configuration diagram of a network-related embodiment.
FIG. 21 is a configuration diagram illustrating an embodiment of a QOS table.
FIG. 22 is a diagram illustrating an embodiment of a service information conversion table.
FIG. 23 is a diagram illustrating an example of a user environment information table.
FIG. 24 is a diagram showing details of an information processing apparatus D.
FIG. 25 is a diagram illustrating an example of a service menu of the information processing apparatus D.
FIG. 26 is a diagram showing details of an information processing apparatus E.
FIG. 27 is a diagram illustrating an example of a service menu of the information processing apparatus E.
FIG. 28 is a block diagram illustrating a service example of RAS information.
FIG. 29 is a diagram showing a flow of RAS information transmission.
FIG. 30 is a diagram showing a format of RAS information.
[Explanation of symbols]
101: Information processing device A (processor), 102: QOS table
103: terminal agent 107: information processing device C (server)
108: Local directory 110: LAN
111: Information processing device D (client)
117 ... Information processing device E (communication server)
120: Information processing device F (server)
121: Global Directory
123: WAN, 150: Agent
151 ... shell, 152 ... user interface
153 ・ ・ ・ Application interface
154: kernel, 155: network I / F
156: DCE support, 157: File system
159: hardware virtualization layer 160: information processing device
161: CPU, 162: Main memory
169: ROM, 170: Flash memory
172... Personal service conversion table
173: General service conversion table
174 ・ ・ ・ Personal agent
175 ・ ・ ・ Terminal agent
187 ... Network interface module
188... RAS information storage unit
189 ・ ・ ・ Multi-protocol translator
201: Local area 202: Global area
203: Local QOS server 204: Global QOS server
205: gateway, 208: file service device
210: User client 301: QOS table registration table
304 Network address registration unit
307: General service conversion table
310 ・ ・ ・ Personal service conversion table
313: Local directory registration unit
316: Resource registration unit
319: General service conversion table (calculation accuracy)
324: Personal service conversion table (calculation accuracy)
601 Information processing apparatus A (server)
602: QOS table, 603: Terminal agent
604: Backup file device
605: Information processing apparatus B (server)
606: QOS table, 608: High-speed file
610: Local directory, 612: LAN
616: Personal agent 617: Service menu
618: user, 622: personal agent
626: Global directory 632: Service menu
633: terminal service information conversion table
634... Personal agent service information conversion table
635: user environment information

Claims (8)

A plurality of information processing devices to which a plurality of storage devices are connected and which have a table for registering functions and performances;
A network connecting the plurality of information processing devices,
An information processing device connected to the network and having a directory for managing the table,
A first information processing device among the plurality of information processing devices,
Means for receiving information registered in the table that the second information processing device different from the first information processing device of the plurality of information processing devices from the information processing device having the directory,
Means for converting the received information into service information representing the quality of service and providing it to the user,
Wherein the table of the second information processing device has registered therein information on transfer performance, storage capacity and access time of a storage device connected to the second information processing device. system. The information processing system according to claim 1, wherein the storage device is a RAID. The information processing system according to claim 2, wherein the table includes information indicating whether the storage device is an online storage or a backup storage. An information processing device connected to a network to which a plurality of information processing devices are connected,
A directory for managing information on functions and performances of the plurality of information processing apparatuses,
Agent means for referring to information managed in the directory,
The information on the function and performance includes information on transfer performance, storage capacity, and access performance of a storage device connected to any of the plurality of information processing devices,
The agent means, based on a request from a first information processing device of the plurality of information processing devices, the first information processing device of the plurality of information processing devices designated by the request An information processing apparatus characterized in that information managed in the directory regarding a different second information processing apparatus is searched from the directory and transferred to the first information processing apparatus. When a storage device is newly connected to a third information processing device of the plurality of information processing devices, the agent means transmits the third information processing device connected to the storage device to the third information processing device. 5. The information processing apparatus according to claim 4, wherein information on the function and performance of the information processing apparatus and the storage device is acquired and registered in the directory. A storage device is connected to the second information processing device, and information about the function and performance of the storage device is registered in the directory, and the storage device is disconnected from the second information processing device. 6. The information processing apparatus according to claim 5, wherein said agent means detects that said storage device has been removed, and deletes information relating to the function and performance of said storage device from said directory. 7. The information processing apparatus according to claim 6, wherein information indicating that the storage device is a high-performance RAID is registered in the directory. The information processing apparatus according to claim 7, wherein the directory includes information indicating whether the storage device is an online storage or a backup storage.

Images