JP2017146679A - List creation device, processing unit, resource information acquisition system, dispersion processing system, list creation method, and dispersion processing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a system including a plurality of units for processing the information acquired from a device for acquiring information, in which each apparatus acquires the information related to the resource of another unit.SOLUTION: The list creation device includes: a resource information acquisition unit 203 for acquiring resource information as information related to resources of processing units for processing predetermined information acquired from a device for acquiring the predetermined information; and a list creation unit 204 for creating a list by classifying the information of the resources included in the acquired resource information by the processing units.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a technique for acquiring information related to resources of other devices.

  In recent years, IoT (Internet Of Things) has attracted attention. In IoT, a number of devices such as sensors are connected to a network, and information about the device can be acquired at a remote location. Since it is difficult to grasp the situation only with information such as numerical values obtained from the sensor, the image captured by the image capturing apparatus is also networked by using a technique for transmitting image data to a remote place (see, for example, Patent Document 1). May be obtained through.

JP 2012-114649 A

  However, a gateway (GW: GateWay) or the like that accommodates devices in IoT has few hardware resources for processing tasks. For this reason, if task processing in real time or processing of a task with a large amount of computation such as the above video is concentrated, processing takes time. Therefore, it is conceivable to distribute the task to other devices connected to the network, but there are cases where the task cannot be distributed because the resources of the other device are unknown. Such a problem is not limited to the GW apparatus but is a problem common to all apparatuses that perform processing on information acquired from a device that acquires information.

  In view of the above circumstances, the present invention provides a technique that allows each device to acquire information on resources of other devices in a system including a plurality of devices that process information acquired from a device that acquires information. It is an object.

  According to one aspect of the present invention, a resource information acquisition unit that acquires resource information that is information about a resource of a processing device that performs processing on the predetermined information acquired from a device that acquires predetermined information, A list creation device comprising: a list creation unit that creates a list by classifying resource information included in the resource information for each processing device.

  One aspect of the present invention is the list creation device described above, wherein the resource information acquisition unit acquires resource information of the processing device from the processing device that autonomously transmits the resource information.

  One aspect of the present invention is the above-described list creation device, wherein the resource information acquisition unit acquires resource information of a plurality of processing devices from a monitoring device that collects resource information of the plurality of processing devices.

  One aspect of the present invention is the above-described list creation device, wherein the resource information acquisition unit includes a plurality of monitoring devices that collect resource information of the processing device from a monitoring device to which the own device is connected. Resource information of the processing device connected to the monitoring device and resource information of the processing device connected to another monitoring device are acquired.

  One aspect of the present invention is a process including a distribution destination determination unit that determines a processing device that is a distribution destination of the processing based on the list created by the list creation device and the type of task to be processed. Device.

  One aspect of the present invention is the above-described processing device, wherein the distribution destination determination unit requests the processing to the processing device that is the distribution destination of the determined processing, and requests the request from another processing device. In the case where the request is made, it further includes a processing determination unit that determines whether or not to accept the request according to the resource of the own device.

  One aspect of the present invention is the processing device described above, wherein the distribution destination determination unit performs a task to be processed by the own device when the resource of the own device becomes equal to or greater than a threshold value by entrusting the request. The task distributed to the other processing devices is determined.

  One aspect of the present invention is a processing apparatus including a communication unit that transmits resource information of the own apparatus acquired at a predetermined timing to another processing apparatus.

  One aspect of the present invention includes a plurality of processing apparatuses that perform processing on the predetermined information acquired from a device that acquires predetermined information, and the processing apparatus is a resource that is information related to a resource of the processing apparatus A resource information acquisition system comprising: a resource information acquisition unit that acquires information; and a list creation unit that generates a list by classifying resource information included in the acquired resource information for each of other processing devices. is there.

  One aspect of the present invention includes a plurality of processing apparatuses that perform processing on the predetermined information acquired from a device that acquires predetermined information, and the processing apparatus is a resource that is information related to a resource of the processing apparatus A resource information acquisition unit that acquires information, a list creation unit that generates a list by classifying the resource information included in the acquired resource information for each other processing device, and the list to be processed The distributed processing system includes a distribution destination determination unit that determines a processing device as a distribution destination of the processing based on the type of task.

  According to one aspect of the present invention, a resource information acquisition step of acquiring resource information that is information related to a resource of a processing device that performs processing on the predetermined information acquired from a device that acquires the predetermined information, A list creation method comprising creating a list by classifying resource information included in the resource information for each processing device.

  According to one aspect of the present invention, a resource information acquisition step of acquiring resource information that is information related to a resource of a processing device that performs processing on the predetermined information acquired from a device that acquires the predetermined information, A list creation step of creating a list by classifying the resource information included in the resource information for each processing device, the list, and the distribution destination of the processing based on the type of task to be processed A distribution destination determination step for determining a processing apparatus to be distributed.

  According to the present invention, in a system including a plurality of apparatuses that perform processing on information acquired from a device that acquires information, each apparatus can acquire information related to resources of other apparatuses.

It is a system configuration figure showing an example of a system configuration of processing distribution system 100 in a first embodiment. It is a figure which shows the detail of a structure of the processing apparatus 200 in 1st embodiment. It is a figure which shows the specific example of a list. It is a figure which shows the specific example of an index value table. It is a figure which shows the specific example of a library table. It is a sequence chart which shows the flow of notification of resource information among operation | movement of the process distribution system 100 in 1st embodiment. It is a sequence chart which shows a flow of distributed processing of a task among operations of processing distributed system 100 in a first embodiment. FIG. 11 is a diagram for explaining an application example of the processing distribution system 100. It is a system configuration figure showing an example of a system configuration of processing distribution system 100a in a second embodiment. It is a figure which shows the detail of a structure of the processing apparatus 200a in 2nd embodiment. 2 is a diagram showing details of the configuration of a monitoring device 700. FIG. It is a sequence chart which shows the flow of the distributed process of a task among operation | movement of the process distribution system 100a in 2nd embodiment. It is a system configuration figure showing an example of a system configuration of processing distribution system 100b in a third embodiment. It is a figure which shows the detail of a structure of the monitoring apparatus 700b in 3rd embodiment.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[First embodiment]
FIG. 1 is a system configuration diagram illustrating an example of a system configuration of a processing distribution system 100 according to the first embodiment. The processing distribution system 100 includes a plurality of processing devices 200. The processing device 200 is communicably connected to another processing device 200 via the network 400. The network 400 may be constructed by any network. For example, the network 400 may be configured with the Internet. One processing apparatus 200 is connected with one or a plurality of devices 300.

  The device 300 acquires predetermined information and outputs the acquired predetermined information to the processing apparatus 200. The device 300 is, for example, a sensor or a photographing device. In the case where the device 300 is a sensor, the device 300 may be, for example, a sensor that measures temperature, a sensor that measures atmospheric pressure, a sensor that measures volume, or a wind speed. It may be a sensor to measure. In this case, the device 300 acquires information about the environment such as temperature, atmospheric pressure, volume, and wind speed as predetermined information. When the device 300 is a photographing device, the device 300 acquires the photographed image, video, and sound as predetermined information. The image is a still image. The video is a moving image. The sound is a voice or a machine sound.

  The processing apparatus 200 performs processing on predetermined information output from the device 300 connected to itself. The processing device 200 is, for example, a GW device, a digital signage device, a video distribution device, a video encoding device, or the like. For example, when the device 300 is an imaging device, the processing device 200 performs processing such as encoding on the image, video, and sound output from the device 300. The processing device 200 transmits its own resource information to another processing device 200. The resource information is information relating to, for example, CPU resources, memory resources, HDD resources, network resources, arithmetic processing resources, graphics processing resources, and mounted library resources. Note that the resources included in the resource information need not be limited to the above-mentioned resources, and any resources may be included as long as the processing apparatus 200 can have them. The resource information will be described later.

  Further, the processing device 200 classifies the resource information (hereinafter referred to as “other resource information”) of the other processing device 200 transmitted from the other processing device 200 and holds it as a list. As a result, the processing device 200 acquires information regarding the resources of the other processing devices 200. For example, the processing device 200 acquires the usage rate of each resource of the other processing device 200, the library that the processing device 200 has, the library that can be used by the processing device 200, and the like. When a predetermined condition is satisfied, the processing device 200 distributes a part of the task to be processed by other processing devices 200. The predetermined condition is that the index value obtained according to the type of task to be processed by itself, the load status of the processing device 200 obtained from the execution data by the task processing, the remaining task processing capability, and the inter-device (for example, The evaluation value obtained by evaluating the throughput of the network between the processing devices 200) is equal to or higher than a predetermined threshold value. The index value is a value obtained by evaluating the load and time of resources used for processing for each task type from the statistical results obtained for how much resources and time are required for each task type. .

FIG. 2 is a diagram showing details of the configuration of the processing apparatus 200 in the first embodiment. Hereinafter, the configuration of the processing apparatus 200 will be described in detail with reference to FIG.
The processing device 200 includes a CPU (Central Processing Unit), a memory, an auxiliary storage device, and the like connected by a bus, and executes a processing distribution program. By executing the processing distribution program, the processing device 200 causes the first communication unit 201, the second communication unit 202, the resource information acquisition unit 203, the list creation unit 204, the list storage unit 205, the resource information notification unit 206, and the resource comparison unit 207. , Function as an apparatus including an index value storage unit 208, a buffer 209, a process execution unit 210, a library storage unit 211, a distribution destination determination unit 212, and a process determination unit 213. All or some of the functions of the processing apparatus 200 may be realized by using hardware such as an application specific integrated circuit (ASIC), a programmable logic device (PLD), or a field programmable gate array (FPGA). The processing distribution program may be recorded on a computer-readable recording medium. The computer-readable recording medium is, for example, a portable medium such as a flexible disk, a magneto-optical disk, a ROM, a CD-ROM, or a storage device such as a hard disk built in the computer system. Further, the processing distribution program may be transmitted / received via a telecommunication line.

  The first communication unit 201 is configured using a communication device such as a communication interface. The first communication unit 201 communicates with the device 300. The first communication unit 201 may perform wired communication or wireless communication. The first communication unit 201 receives, for example, predetermined information acquired by the device 300 from the device 300. The first communication unit 201 stores the received predetermined information in the buffer 209.

  The second communication unit 202 is configured using a communication device such as a communication interface. The second communication unit 202 communicates with another processing device 200 via the network 400. The second communication unit 202 may perform wired communication or wireless communication. For example, the second communication unit 202 transmits the resource information of the own device to another processing device 200 located within a range where the radio waves of the own device reach. Further, the second communication unit 202 receives, for example, other resource information from the other processing device 200.

The resource information acquisition unit 203 acquires other resource information from the information received by the second communication unit 202. The resource information acquisition unit 203 outputs the acquired other resource information to the list creation unit 204 and the resource comparison unit 207. Further, the resource information acquisition unit 203 acquires the resource information of the own device at a predetermined timing. The predetermined timing may be a periodic timing (for example, every minute, every 10 minutes, etc.), a timing at which predetermined information output from the device 300 is received, Other timings may be used. The resource information acquisition unit 203 outputs the acquired resource information of the own device to the resource information notification unit 206, the resource comparison unit 207, and the process determination unit 213.
The list creation unit 204 creates a list for each other processing apparatus 200 based on the other resource information output from the resource information acquisition unit 203.

  The list storage unit 205 is configured using a storage device such as a magnetic hard disk device or a semiconductor storage device. The list storage unit 205 stores the list created by the list creation unit 204. The list storage unit 205 stores, for example, a list in which information of each resource is represented by rows and columns. Note that the information stored in the list storage unit 205 need not have a list structure represented by rows and columns.

  The resource information notification unit 206 controls the second communication unit 202 to transmit the resource information of the own device output from the resource information acquisition unit 203 to the other processing device 200. Further, the resource information notifying unit 206 controls the second communication unit 202, and according to the comparison result of the resource comparison unit 207, only the resource information of the own device, or the resource information and other resource information of the own device is changed. To the processing device 200.

  The resource comparison unit 207 compares each resource of the own device with each resource of the other processing device 200 based on the resource information and other resource information of the own device acquired by the resource information acquisition unit 203. For example, the resource comparison unit 207 compares the usage rate of each resource of its own device with the usage rate of each resource of another processing device 200. Further, for example, the resource comparison unit 207 determines the type of each resource of its own device (for example, presence / absence of GPU (Graphics Processing Unit), type of GPU, presence / absence of graphic library, type of graphic library, presence / absence of library other than graphics, and The type of library other than graphics) and the type of each resource of another processing apparatus 200 may be compared. The resource comparison unit 207 outputs the comparison result to the resource information notification unit 206.

  The index value storage unit 208 is configured using a storage device such as a magnetic hard disk device or a semiconductor storage device. The index value storage unit 208 stores information indicating a correspondence relationship between a task type, a resource load, a time required for processing a task, and an index value. The index value storage unit 208 stores, for example, a table (hereinafter referred to as “index value table”) indicating the relationship among task types, resource loads, time, and index values. Note that the information stored in the index value storage unit 208 need not have a table structure represented by rows and columns.

  The buffer 209 stores predetermined information received by the first communication unit 201. In addition, the buffer 209 stores predetermined information that is a target of a task requested from another processing device 200.

  The process execution unit 210 processes a task for predetermined information accumulated in the buffer 209. The process execution unit 210 includes a task to be processed, an index value table stored in the index value storage unit 208, a load status of the processing device 200 obtained from execution data obtained by processing the task, and the remaining task processing capacity. It is determined whether a predetermined condition is satisfied based on the throughput of the network between the devices (for example, between the processing devices 200). Specifically, the task to be processed, the index value table stored in the index value storage unit 208, the load status of the processing device 200 obtained from the execution data by the task processing, the remaining task processing capacity, and the device When the evaluation value obtained by evaluating the network throughput between the processing devices 200 (for example, between the processing devices 200) is equal to or greater than the threshold value, the process execution unit 210 determines that a predetermined condition is satisfied. On the other hand, when the evaluation value is less than the threshold value, the process execution unit 210 determines that the predetermined condition has not been satisfied.

  When the predetermined condition is satisfied, the process execution unit 210 determines that a part of the task needs to be distributed to the other processing apparatuses 200. In this case, the process execution unit 210 requests the distribution destination determination unit 212 to determine another processing device 200 (hereinafter referred to as “distribution destination candidate device”) that is a candidate for the distribution destination of the task. On the other hand, when the predetermined condition is not satisfied, the process execution unit 210 performs a task process for the predetermined information stored in the buffer 209. The process execution unit 210 may store what process is performed as a process for the predetermined information output from the device 300. For example, the process execution unit 210 may store what encoding method is used for the process for predetermined information (for example, video) output from the device 300 (for example, a photographing apparatus).

  The library storage unit 211 is configured using a storage device such as a magnetic hard disk device or a semiconductor storage device. The library storage unit 211 stores information indicating the correspondence between special instructions and library information necessary for executing the special instructions. The library storage unit 211 stores, for example, a table (hereinafter referred to as “library table”) indicating the relationship between special instructions and library information. Note that the information stored in the library storage unit 211 need not have a table structure represented by rows and columns.

In accordance with the request output from the process execution unit 210, the distribution destination determination unit 212 is based on the list stored in the list storage unit 205 and the library table stored in the library storage unit 211, To decide.
The process determination unit 213 determines whether or not to accept the request in response to a request for distributed processing of tasks from another processing apparatus 200.

  FIG. 3 is a diagram illustrating a specific example of a list. As shown in FIG. 3, one list 10 includes CPU resources, memory resources, HDD resources, network resources, arithmetic processing resources, graphics processing resources, and mounted library resources in association with the identification information of the processing device 200. Is recorded. The information of each resource will be specifically described. The CPU resource includes information on the CPU name, model number, executable special instructions, and CPU usage rate. The memory resource includes information on the memory type, capacity, and memory usage rate. The HDD resource includes information on the rotation speed, capacity, and HDD usage rate. The network resource includes information on a communication band, a NIC (Network Interface Card) driver, a chip type, and a network resource usage rate. The arithmetic processing resource includes information on the presence / absence of a GPU, the type of GPU, and the usage rate of the arithmetic processing resource. The graphics processing resource includes information on the presence / absence of the graphics library, the type of the graphics library, and the usage rate of the graphics processing resource. The installed library resource includes information on the presence / absence of a library other than graphics (for example, audio), the type of library other than graphics, and the usage rate of the installed library resource. In the present embodiment, a library is a program that provides predetermined processing. The list shown in FIG. 3 is an example, and the list may be any list as long as the information of each resource is collected into one.

  FIG. 4 is a diagram illustrating a specific example of the index value table. The index value table has a plurality of index value records 20. The index value record 20 includes a task, a resource load, time, and an index value. The task represents a process executed by the processing device 200. The resource load represents the resource load generated to process the task. Time represents the time required to process a task. The index value represents the value obtained by evaluating the load and time of resources used for processing for each task type from the statistical results obtained for how much resources and time are required for each task type. . The index value may be periodically updated or may be updated irregularly (arbitrary timing).

  FIG. 5 is a diagram showing a specific example of the library table. The library table has a plurality of library records 30. The library record 30 has special instructions and a library. The special instruction represents an instruction for processing a task that can be executed by the processing device 200. The library represents information related to the library for executing the special instruction.

  FIG. 6 is a sequence chart showing a flow of resource information notification in the operation of the processing distribution system 100 according to the first embodiment. In addition, in FIG. 6, it demonstrates using the three processing apparatuses 200 (processing apparatus 200-1, 200-2, and 200-3). Further, as an example, in FIG. 6, the processing device 200-2 is located within the range where the radio waves of the processing device 200-1 reach, and the processing device 200-3 is located within the range where the radio waves of the processing device 200-2 reach. It shall be.

  First, the resource information acquisition unit 203 of the processing device 200-1 acquires the resource information of its own device at a predetermined timing (step S101). The resource information acquisition unit 203 outputs the acquired resource information to the resource information notification unit 206. The resource information notifying unit 206 of the processing device 200-1 controls the second communication unit 202 so that the resource information output from the resource information acquiring unit 203 is within the range where the radio waves of the own device reach. 2 to send. The second communication unit 202 transmits the resource information to the processing device 200-2 according to the control of the resource information notification unit 206 (Step S102).

  The second communication unit 202 of the processing device 200-2 receives the resource information (other resource information) transmitted from the processing device 200-1. The resource information acquisition unit 203 of the processing device 200-2 acquires other resource information received by the second communication unit 202. The resource information acquisition unit 203 outputs the acquired other resource information to the list creation unit 204 and the resource comparison unit 207. In addition, the resource information acquisition unit 203 of the processing device 200-2 acquires the resource information of the own device and outputs the acquired resource information to the resource comparison unit 207. The list creation unit 204 of the processing device 200-2 creates a list corresponding to the processing device 200-1 based on the other resource information output from the resource information acquisition unit 203. Specifically, the list creation unit 204 creates a list corresponding to the processing device 200-1 by listing other resource information corresponding to the processing device 200-1. Thereafter, the list creation unit 204 stores the created list in the list storage unit 205 (step S103).

  Further, the resource comparison unit 207 of the processing device 200-2 uses the resource information of the own device output from the resource information acquisition unit 203 and the other resource information to compare the availability of resources (step S104). As a result of the comparison, the resource comparison unit 207 determines whether or not the resources of the own device are more than the resources of the other processing devices 200 (step S105). When it is determined that the resource of the own device is large (YES in step S105), the resource comparison unit 207 outputs a notification indicating that the resource of the own device is large to the resource information notification unit 206. In this case, the resource information notification unit 206 of the processing device 200-2 controls the second communication unit 202 to process the notification output from the resource comparison unit 207, indicating that the resource of the own device is large. The device 200-1 is caused to transmit the resource information of its own device. The 2nd communication part 202 transmits the resource information of an own apparatus to the processing apparatus 200-1 according to control of the resource information notification part 206 (step S106).

  The second communication unit 202 of the processing device 200-1 receives the resource information (other resource information) transmitted from the processing device 200-2. The resource information acquisition unit 203 of the processing device 200-1 acquires other resource information received by the second communication unit 202. The resource information acquisition unit 203 outputs the acquired other resource information to the list creation unit 204. The list creation unit 204 of the processing device 200-1 creates a list corresponding to the processing device 200-2 based on the other resource information output from the resource information acquisition unit 203. Thereafter, the list creation unit 204 stores the created list in the list storage unit 205 (step S107).

  In the process of step S105, when it is determined that there are not many free resources in the own device (NO in step S105), the resource comparison unit 207 sends a notification indicating that there are not enough free resources in the own device to the resource information notification unit 206. Output to. In this case, the resource information notification unit 206 of the processing device 200-2 controls the second communication unit 202 in order that the notification output from the resource comparison unit 207 indicates that there are not many free resources in the own device, The resource information of the own device and the resource information of the processing device 200-1 are transmitted to the processing device 200-3 located within a range where the radio waves of the own device reach. The second communication unit 202 transmits the resource information of the own device and the resource information of the processing device 200-1 to the processing device 200-3 according to the control of the resource information notification unit 206 (step S108).

  The second communication unit 202 of the processing device 200-3 receives the resource information (other resource information) transmitted from the processing device 200-2. The resource information acquisition unit 203 of the processing device 200-3 acquires the other resource information received by the second communication unit 202. The resource information acquisition unit 203 outputs the acquired other resource information to the list creation unit 204. The list creation unit 204 of the processing device 200-3 creates a list corresponding to each of the processing device 200-1 and the processing device 200-2 based on the other resource information output from the resource information acquisition unit 203. Thereafter, the list creation unit 204 stores the created list in the list storage unit 205 (step S109).

  FIG. 7 is a sequence chart showing the flow of task distribution processing among the operations of the processing distribution system 100 in the first embodiment. In FIG. 7, a description will be given using one device 300 and two processing apparatuses 200 (processing apparatuses 200-1 and 200-2).

The device 300 acquires predetermined information, and outputs the acquired predetermined information to the processing device 200-1 to which the device 300 is connected (step S201).
The first communication unit 201 of the processing device 200-1 receives the predetermined information output from the device 300. The first communication unit 201 stores the received predetermined information in the buffer 209. The process execution unit 210 includes a task to be processed, an index value table stored in the index value storage unit 208, a load status of the processing device 200 obtained from execution data obtained by processing the task, and the remaining task processing capacity. An evaluation value is acquired based on the network throughput between devices (for example, between processing devices 200) (step S202). Specifically, first, the process execution unit 210 refers to an index value table and acquires an index value associated with a task for predetermined information stored in the buffer 209. Then, the process execution unit 210 acquires the evaluation value by evaluating the acquired index value, the load status and remaining task processing capability of the processing device 200 obtained from the execution data, and the network throughput between the devices. . The process execution unit 210 determines whether a predetermined condition is satisfied based on the acquired evaluation value (step S203).

  If the predetermined condition is satisfied (step S203—YES), the process execution unit 210 instructs the distribution destination determination unit 212 to determine a distribution destination candidate device. The distribution destination determination unit 212 determines a distribution destination candidate device according to the instruction from the process execution unit 210 (step S204). Specifically, the distribution destination determination unit 212 includes a total of the following five parameters based on the list stored in the list storage unit 205, the library table stored in the library storage unit 211, and the task. The distribution destination candidate device is determined by calculating the evaluation. For example, the distribution destination determination unit 212 may determine another processing device 200 having the highest overall evaluation value calculated based on the following five parameters as a distribution destination candidate device.

1. 1. Empty task processing capacity 2. Evaluation value of network Types of tasks that can be processed by other processing devices 200 (for example, priority is given if there is a library that can be processed by the task to be assigned)
4). 4. Presence or absence of reserved future tasks Presence / absence and amount of forecasting tasks that are not reserved but are calculated from the forecasting function

  Here, it is assumed that the processing device 200-2 is determined as a distribution destination candidate device. The distribution destination determination unit 212 controls the second communication unit 202 to transmit a task processing request to the determined processing device 200-2. The second communication unit 202 transmits a task processing request to the processing device 200-2 in accordance with an instruction from the distribution destination determination unit 212 (step S205). The processing request includes information indicating the type of task.

  The second communication unit 202 of the processing device 200-2 receives the processing request transmitted from the processing device 200-1. The second communication unit 202 outputs the received processing request to the processing determination unit 213. The process determination unit 213 determines whether to accept the process request based on the process request output from the second communication unit 202. For example, the process determination unit 213 may determine that the process request is entrusted by entrusting the process request when the resource usage rate of the own apparatus does not exceed a threshold. Then, the process determination part 213 controls the 2nd communication part 202, and transmits the response containing the determination result which shows whether it entrusts with respect to the processing apparatus 200-1. The 2nd communication part 202 transmits a response with respect to the processing apparatus 200-1 according to the instruction | indication of the process determination part 213 (step S206).

  The second communication unit 202 of the processing device 200-1 receives the response transmitted from the processing device 200-2. The second communication unit 202 outputs the received response to the distribution destination determination unit 212. The distribution destination determination unit 212 determines whether the processing request is permitted based on the output response (step S207). When the processing request is permitted (step S207—YES), the distribution destination determination unit 212 transmits predetermined information to be processed as a task target to the processing device 200-2 via the second communication unit 202 (step S208).

  The second communication unit 202 of the processing device 200-2 receives the predetermined information transmitted from the processing device 200-1. The second communication unit 202 stores the received predetermined information in the buffer 209 via the process determination unit 213. The process execution unit 210 processes predetermined information stored in the buffer 209 (step S209). Thereafter, the process execution unit 210 transmits the processed predetermined information to the request source processing apparatus 200-1 via the second communication unit 202.

  If the predetermined condition is not satisfied in the process of step S203 (step S203—NO), the process execution unit 210 of the processing device 200-1 processes the predetermined information stored in the buffer 209 (step S210). .

  Further, when the request is not permitted in the process of step S207 (step S207—NO), the distribution destination determination unit 212 is selected from other processing apparatuses 200 different from the processing apparatus 200 once determined as a distribution destination candidate apparatus. The distribution destination candidate device is determined again (step S204). For example, the distribution destination determination unit 212 determines a distribution destination candidate device from among the other processing devices 200 in descending order of the comprehensive evaluation value calculated in the process of step S204. Thereafter, the processing after step S205 is executed.

  In the processing distribution system 100 configured as described above, each processing device 200 transmits its own resource information to another processing device 200 that can be connected via the network 400. When the processing device 200 that has received the resource information transmitted from another processing device 200 compares the resource of its own device with the resource included in the received resource information, The resource information of the own device is transmitted to the processing device 200 of the transmission source. On the other hand, when there are many resources of the other party, the resource information of the own apparatus and the received resource information are transmitted to another processing apparatus 200 located in the vicinity of the own apparatus. By repeatedly executing such processing, the resource information of the other processing devices 200 is notified to each processing device 200. Therefore, in a system including a plurality of processing devices 200 that perform processing on predetermined information acquired from the device 300, each processing device 200 can acquire information on resources of other processing devices 200.

  Further, in the processing distribution system 100 configured as described above, each processing device 200 has its own device when it is difficult for the device to process a task (when the evaluation value in the embodiment is equal to or greater than a threshold value). A part of the task to be processed is distributed to other processing devices 200. Therefore, it becomes possible to complete the processing as soon as possible. In addition, since the processing is distributed to the other processing devices 200, the processing load on one processing device 200 can be reduced.

  Further, in the processing distribution system 100 configured as described above, the resource information of the processing device 200 is listed for each processing device 200. Therefore, the processing device 200 can easily acquire information regarding the resources of each processing device 200.

<Modification>
Each processing apparatus 200 may be the same apparatus or a different apparatus. Further, each processing device 200 may have the same specifications or different specifications.
In the present embodiment, an example is shown in which resource information includes information on a plurality of resources, but the resource information may include information on one resource.
Part of the functional units included in the processing device 200 may be mounted on another device. For example, the resource information acquisition unit 203, the list creation unit 204, and the list storage unit 205 may be implemented as a list creation device that is a separate device from the processing device 200.

  The processing device 200 is configured to distribute any of the tasks to be processed by the own device to the other processing devices 200 when the resource of the own device becomes equal to or greater than the threshold by entrusting the task. Also good. In such a configuration, the distribution destination determination unit 212 determines a task to be distributed to other processing devices 200 and tasks to be distributed to among the tasks to be processed by the own device. For example, the distribution destination determination unit 212 may distribute the commissioned task to other processing devices 200, may distribute a task that requires real-time processing to other processing devices 200, or may be another processing device. A task having a library 200 may be distributed to other processing devices 200, a randomly determined task may be distributed to other processing devices 200, or tasks determined by other methods may be distributed. You may distribute to the other processing apparatus 200. FIG. As a method for determining the distribution destination candidate device, a method similar to the method described in the present embodiment may be used.

  By being configured in this way, it is possible to distribute resources even when the resources exceed a threshold due to the task being commissioned. Therefore, it is possible to reduce a decrease in processing speed due to the resource exceeding the threshold.

In this embodiment, the distribution destination determination unit 212 has been configured to determine one processing device 200 as a distribution destination candidate device. However, the distribution destination determination unit 212 determines a plurality of processing devices 200 as distribution destination candidate devices. May be configured. When configured in this way, the distribution destination determination unit 212 may determine each of the plurality of processing devices 200 as a distribution destination candidate device in descending order of the overall evaluation value.
The distribution destination determination unit 212 may operate as follows. Specifically, first, the distribution destination determination unit 212 includes a plurality of items in descending order of the total evaluation value obtained based on the list stored in the list storage unit 205 and the library table stored in the library storage unit 211. Priorities are assigned to the respective processing devices 200. Next, the distribution destination determination unit 212 holds information regarding the assigned priority order as a request target list. Then, the distribution destination determination unit 212 requests task processing in descending order of priority until the distribution destination candidate device is determined based on the request target list. For example, when the processing apparatus 200 with the highest priority is not entrusted to, the distribution destination determination unit 212 requests the processing apparatus 200 with the next highest priority to process the task. As described above, the distribution destination determination unit 212 repeatedly executes processing until a distribution destination candidate device is determined. By being configured in this way, it is not necessary to recalculate the evaluation value or the like when not entrusted. Therefore, the processing load can be reduced. Furthermore, the time until the next request is issued can be shortened, and the task processing time can be shortened. The priorities need not be assigned in the order of the highest overall evaluation values, and the priorities may be determined in advance, or the priorities are determined by weighting the overall evaluation values for each processing device 200. Alternatively, it may be determined by other methods.

  The processing distribution system 100 may be configured to include a library distribution device. The library distribution device distributes a library (hereinafter referred to as “processing library”) necessary for processing a task in response to a request from the processing device 200. In the case of such a configuration, the following operation is performed.

  First, when the processing device 200 determined as the distribution destination candidate device does not have a processing library, the distribution destination determination unit 212 receives an instruction for processing a task from the CPU resource information recorded in the list. It is determined whether or not execution is possible. For example, the distribution destination determination unit 212 determines that the processing apparatus 200 determined as the distribution destination candidate apparatus is one of the H.264 compression standards. If the library for encoding processing conforming to the H.265 standard is not provided, the CPU resource information recorded in the list is used to determine the H.264 standard. It is determined whether or not an instruction for performing the process 265 is executable. Whether or not an instruction for processing a task can be executed is determined based on an executable special instruction included in the CPU resource. For example, the distribution destination determination unit 212 determines that an instruction for processing a task is executable when an instruction for processing the task is recorded in an executable special instruction included in the CPU resource. . On the other hand, the distribution destination determination unit 212 determines that the instruction for processing the task is not executable when the instruction for processing the task is not recorded in the executable special instruction included in the CPU resource. .

  When an instruction for processing a task can be executed, the distribution destination determination unit 212 refers to the library table stored in the library storage unit 211 and obtains information on the library corresponding to the special instruction for processing the task. get. Thereafter, the distribution destination determination unit 212 transmits the acquired information on the library and a distribution request for requesting distribution of the library to the distribution destination candidate device to the library distribution device via the second communication unit 202. In response to the distribution request transmitted from the processing device 200, the library distribution device distributes the corresponding library to the designated distribution destination candidate device. The distribution destination candidate device receives the library distributed from the library distribution device, and arranges the received library so that it can be executed by the own device. Thereafter, the distribution destination candidate device processes a task for the predetermined information transmitted from the processing device 200.

Next, application examples of the processing distribution system 100 will be described with specific examples. FIG. 8 is a diagram for explaining an application example of the processing distribution system 100.
In FIG. 8, the device 300 is a photographing device, and the processing devices 200-1 to 200-3 perform encoding processing on images, videos, and sounds (predetermined information) photographed by the photographing device. And In this case, the processing device 200-1 determines the status of the following parameters, changes the encoding processing method on its own device, and distributes the task processing to the other processing devices 200. Examples of parameters include content type (many movements, large video size, etc.), content encoding parameters (image quality, video size, bit rate, etc.), available network bandwidth with other processing devices 200, and usage prediction information. The distance of the network, the availability of resources of other processing devices 200, the usage reservation status, the usage prediction information, and the types of encoding libraries that can be selected (for example, H.263, H.264, H.265, VP8, VP9, MP3 (MPEG Audio Layer-3), etc.).

  In FIG. 8, the processing distribution system 100 is newly provided with a video conversion apparatus 500. The video conversion device 500 converts predetermined information processed by the processing device 200 into a file format that can be output by the output device. For example, when the output device cannot output the encoded predetermined information, the video conversion device 500 converts the encoded predetermined information into a file format (for example, FLV (Flash Video)) that can be output by the output device. . In FIG. 8, the result of performing the encoding process on the predetermined information in each of the processing devices 200-1 and 200-2 within the designated time is transmitted to the processing device 200-3. 200-3 receives the predetermined information encoded from each of the processing devices 200-1 and 200-2, performs final processing on the received predetermined information as necessary, and sends it to the video conversion device 500. The case of outputting the data will be described.

  The processing device 200-1 stores an index value table. In this index value table, the resource load, time, and evaluation value for each task type are registered as described above. For this reason, the processing device 200-1 performs H.264 processing for a video having a certain video size. How much time will it take for the calculation process in H.265? H.264 to H.C. An evaluation value relating to how much time is required for the conversion processing to H.265 can be acquired. Moreover, since the processing apparatuses 200-1 to 200-3 exchange resource information with each other, the processing apparatuses 200-1 to 200-3 acquire information on the state of the resources. Here, the processing device 200-1 is H.264. 265 is possible, and the processing device 200-2 is H.264. H.264 can be processed, and the processing device 200-3 is H.264. Assume that the processing of H.265 is possible. The processing device 200-1 refers to the index value table and acquires an evaluation value for each task to be processed by the own device. For example, the processing device 200-1 is H.264. H.264 has an evaluation value of “3”, H.264. H.264 to H.C. H.265 is an evaluation value “1”, H.265. In the calculation process 265, an evaluation value such as an evaluation value “5” is acquired.

  Based on the acquired evaluation value, the processing device 200-1 sends the H.264 to the processing device 200-2. H.264 is executed, and the processing device 200-3 is caused to execute H.264. H.264 to H.C. It is determined that the completion of the processing is faster when the conversion processing to H.265 is executed. Then, the processing device 200-1 distributes a part of the tasks to the processing device 200-2. The processing device 200-1 determines the H.264 processing for the task to be processed by its own device. The predetermined information obtained by performing the arithmetic processing of 265 and performing the arithmetic processing is transmitted to the processing device 200-3. In response to a request from the processing device 200-1, the processing device 200-2 performs H.264 processing on the requested task. 264 arithmetic processing is performed, and the predetermined information subjected to the arithmetic processing is transmitted to the processing device 200-3. The processing device 200-3 receives the predetermined information transmitted from the processing devices 200-1 and 200-2. The processing apparatus 200-3 is configured to execute the H.264 processing on the predetermined information transmitted from the processing apparatus 200-2. 265 arithmetic processing is performed. And the processing apparatus 200-3 is H.264. The predetermined information subjected to the processing of H.265 is collectively transmitted to the video conversion apparatus 500. The video conversion device 500 converts the file format of the predetermined information transmitted from the processing device 200-3 into a file format that can be output by the output device, and outputs the file format to the output device.

  As described above, by performing distributed processing, processing can be completed within a predetermined time.

[Second Embodiment]
FIG. 9 is a system configuration diagram illustrating an example of a system configuration of the processing distribution system 100a according to the second embodiment. The processing distribution system 100a is different from the processing distribution system 100 in the first embodiment in that a processing device 200a is provided instead of the processing device 200 and a monitoring device 700 is provided. Regarding the device 300, the processing distribution system 100a and the processing distribution system 100 are the same. The processing device 200a is communicably connected to the monitoring device 700 and another processing device 200 via the network 400a. The network 400a may be constructed by any network. For example, the network 400a may be configured by the Internet. Hereinafter, the processing distribution system 100a will be described with respect to differences from the processing distribution system 100 in the first embodiment.

The processing device 200a transmits the resource information to the monitoring device 700. When the predetermined condition is satisfied, the processing device 200a requests the monitoring device 700 to distribute tasks.
The monitoring device 700 is configured using an information processing device such as a personal computer. The monitoring device 700 acquires resource information from each processing device 200a. The monitoring device 700 determines a distribution destination candidate device in response to a request from the processing device 200a.

FIG. 10 is a diagram showing details of the configuration of the processing apparatus 200a in the second embodiment. Hereinafter, the configuration of the processing apparatus 200a will be described in detail with reference to FIG.
The processing device 200a includes a CPU, a memory, an auxiliary storage device, and the like connected by a bus, and executes a processing distribution program. By executing the processing distribution program, the processing device 200a includes a first communication unit 201, a second communication unit 202a, a resource information acquisition unit 203, a resource information notification unit 206a, an index value storage unit 208, a buffer 209, a processing execution unit 210a, It functions as an apparatus provided with the process determination part 213. Note that all or some of the functions of the processing device 200a may be realized using hardware such as an ASIC, PLD, or FPGA. The processing distribution program may be recorded on a computer-readable recording medium. The computer-readable recording medium is, for example, a portable medium such as a flexible disk, a magneto-optical disk, a ROM, a CD-ROM, or a storage device such as a hard disk built in the computer system. Further, the processing distribution program may be transmitted / received via a telecommunication line.

  The processing device 200a does not include the list creation unit 204, the list storage unit 205, the resource comparison unit 207, the library storage unit 211, and the distribution destination determination unit 212, and includes a second communication unit 202a instead of the second communication unit 202. The configuration differs from the processing apparatus 200 in that a resource information notification unit 206a is provided instead of the resource information notification unit 206, and a process execution unit 210a is provided instead of the process execution unit 210. The processing device 200a is the same as the processing device 200 in other configurations. Therefore, description of the whole processing apparatus 200a is abbreviate | omitted, and demonstrates the 2nd communication part 202a, the resource information notification part 206a, and the process execution part 210a.

The second communication unit 202a is configured using a communication device such as a communication interface. The second communication unit 202a communicates with the monitoring device 700 via the network 400. The second communication unit 202a may perform wired communication or wireless communication. For example, the second communication unit 202a transmits the resource information of the own device to the monitoring device 700.
The resource information notification unit 206a controls the second communication unit 202a to transmit the resource information of the own device output from the resource information acquisition unit 203 to the monitoring device 700.

  The process execution unit 210a processes a task for predetermined information stored in the buffer 209. The process execution unit 210 includes a task to be processed, an index value table stored in the index value storage unit 208, a load status of the processing device 200a obtained from execution data obtained by processing the task, and the remaining task processing capacity. It is determined whether a predetermined condition is satisfied based on the throughput of the network between the devices (for example, between the processing devices 200). When the predetermined condition is satisfied, the process execution unit 210a determines that a part of the task needs to be distributed to the other processing apparatus 200a. In this case, the process execution unit 210a requests the monitoring apparatus 700 to determine a task distribution destination candidate apparatus. At this time, the process execution unit 210a includes information on the types of tasks to be distributed and predetermined information corresponding to the tasks in the request. On the other hand, when the predetermined condition is not satisfied, the process execution unit 210a performs a task process for the predetermined information stored in the buffer 209.

FIG. 11 is a diagram illustrating details of the configuration of the monitoring apparatus 700. Hereinafter, the configuration of the monitoring apparatus 700 will be described in detail with reference to FIG.
The monitoring device 700 includes a CPU, a memory, an auxiliary storage device, and the like connected by a bus, and executes a monitoring program. By executing the monitoring program, the monitoring device 700 functions as a device including a communication unit 701, a resource information acquisition unit 702, a list creation unit 703, a list storage unit 704, a library storage unit 705, and a distribution destination determination unit 706. Note that all or some of the functions of the monitoring apparatus 700 may be realized using hardware such as an ASIC, PLD, or FPGA. The monitoring program may be recorded on a computer-readable recording medium. The computer-readable recording medium is, for example, a portable medium such as a flexible disk, a magneto-optical disk, a ROM, a CD-ROM, or a storage device such as a hard disk built in the computer system. The monitoring program may be transmitted / received via a telecommunication line.

  The communication unit 701 is configured using a communication device such as a communication interface. The communication unit 701 communicates with the processing device 200a via the network 400a. The communication unit 701 may perform wired communication or wireless communication. For example, the communication unit 701 transmits a task processing request to the distribution destination candidate device determined by the distribution destination determination unit 706. Further, the communication unit 701 receives, for example, resource information of the processing device 200a from the processing device 200a.

  The resource information acquisition unit 702 acquires the resource information of the processing device 200a transmitted from the processing device 200a from the information received by the communication unit 701. The resource information acquisition unit 702 outputs the acquired resource information to the list creation unit 703.

The list creation unit 703 creates a list for each processing device 200a based on the resource information output from the resource information acquisition unit 702.
The list storage unit 704 is configured using a storage device such as a magnetic hard disk device or a semiconductor storage device. The list storage unit 704 stores the list created by the list creation unit 703. The list storage unit 704 stores, for example, a list in which information of each resource is represented by rows and columns. Note that the information stored in the list storage unit 704 need not have a list structure represented by rows and columns.

  The library storage unit 705 is configured using a storage device such as a magnetic hard disk device or a semiconductor storage device. The library storage unit 705 stores information indicating a correspondence relationship between special instructions and library information necessary for executing the special instructions. The library storage unit 705 stores, for example, a library table. Note that the information stored in the library storage unit 705 need not have a table structure represented by rows and columns.

  The distribution destination determination unit 706 determines a distribution destination candidate device based on the list stored in the list storage unit 704 and the library table stored in the library storage unit 705 in accordance with a request from the processing device 200a. .

  FIG. 12 is a sequence chart showing the flow of task distribution processing among the operations of the processing distribution system 100a in the second embodiment. In FIG. 12, a description will be given using one device 300, two processing apparatuses 200a (processing apparatuses 200a-1 and 300a-2), and one monitoring apparatus 700. Further, the processing similar to that in FIG. 7 is denoted by the same reference numerals as those in FIG. 7 in FIG.

  After the processing from step S201 to step S203 is executed, when the evaluation value is equal to or greater than the threshold value in the processing of step S203 (step S203—YES), the processing execution unit 210a uses the monitoring device 700 via the second communication unit 202a. Is requested to distribute tasks (step S301).

  The communication unit 701 receives a request transmitted from the processing device 200a. The communication unit 701 outputs the received request to the distribution destination determination unit 706. The distribution destination determination unit 706 determines a distribution destination candidate device in response to the request output from the communication unit 701 (step S302). The method for determining the distribution destination candidate device is the same as in the first embodiment. Here, it is assumed that the processing device 200a-2 is determined as a distribution destination candidate device. The distribution destination determination unit 706 controls the communication unit 701 to transmit a task processing request to the determined processing device 200a-2. The communication unit 701 transmits a task processing request to the processing device 200a-2 in accordance with an instruction from the distribution destination determination unit 706 (step S303). The processing request includes information indicating the type of task to be distributed.

  The second communication unit 202a of the processing device 200a-2 receives the processing request transmitted from the monitoring device 700. The second communication unit 202a outputs the received processing request to the processing determination unit 213. The process determination unit 213 determines whether to accept the process request based on the process request output from the second communication unit 202a. Thereafter, the process determination unit 213 controls the second communication unit 202a to cause the monitoring device 700 to transmit a response including a determination result indicating whether or not to entrust. The second communication unit 202a transmits a response to the monitoring device 700 in accordance with the instruction from the process determination unit 213 (step S304).

  The communication unit 701 of the monitoring device 700 receives the response transmitted from the processing device 200a-2. The communication unit 701 outputs the received response to the distribution destination determination unit 706. The distribution destination determination unit 706 determines whether the processing request is permitted based on the output response (step S305). When the processing request is permitted (YES in step S305), the distribution destination determining unit 706 transmits predetermined information to the processing device 200a-2 via the communication unit 701 (step S306).

  The second communication unit 202a of the processing device 200a-2 receives the predetermined information transmitted from the monitoring device 700. The second communication unit 202a accumulates the received predetermined information in the buffer 209 via the process determination unit 213. The process execution unit 210a processes predetermined information stored in the buffer 209 (step S307). Thereafter, the process execution unit 210a transmits the processed predetermined information to the requesting processor 200a-1 via the second communication unit 202a. If the request is not permitted in the process of step S305 (NO in step S305), the distribution destination determination unit 706 of the monitoring apparatus 700 selects from other processing apparatuses 200a different from the processing apparatus 200a once determined. The distribution destination candidate device is determined again. Thereafter, the processing after step S303 is executed.

  In the processing distribution system 100a configured as described above, the resource information of each processing device 200a is collected by the monitoring device 700 that monitors each processing device 200a. Thereby, the monitoring apparatus 700 can acquire the information regarding the resource of each processing apparatus 200a.

  Further, in the processing distribution system 100a configured as described above, a monitoring device 700 that acquires information about the resources of each processing device 200a is provided. Then, the monitoring device 700 determines an optimal processing device 200a to which a task is allocated by evaluating the resource status of each processing device 200a, the network status, and the like in response to a task distribution request from the processing device 200a. can do. Therefore, each processing device 200a does not have to acquire information related to the resource state of the other processing device 200a and determine a distribution destination candidate device. As a result, the cost for one processing apparatus 200a can be reduced.

  Further, in the processing distribution system 100a configured as described above, each processing device 200a has its own device when it is difficult for the processing device to process the task (when the evaluation value in the embodiment is equal to or greater than the threshold). A part of the task to be processed is distributed to other processing devices 200a. Therefore, it becomes possible to complete the processing as soon as possible. In addition, since the processing is distributed to the other processing devices 200a, the processing load on one processing device 200a can be reduced.

  In the processing distribution system 100a configured as described above, the resource information of the processing device 200a is listed for each processing device 200a. Therefore, the monitoring apparatus 700 can easily acquire information regarding the resources of each processing apparatus 200a.

<Modification>
The second embodiment may be modified similarly to the first embodiment.
A part of the functional unit included in the monitoring device 700 may be mounted on another device. For example, the resource information acquisition unit 702, the list creation unit 703, and the list storage unit 704 may be implemented as a list creation device that is a separate device from the monitoring device 700.
In the present embodiment, the monitoring apparatus 700 collects resource information of each processing apparatus 200a, and the monitoring apparatus 700 determines a distribution destination candidate apparatus in response to a distribution request. However, the present invention is not limited thereto. There is no need to be done. For example, the monitoring device 700 may be configured to transmit the created list for each processing device 200a to each processing device 200a and determine the distribution destination candidate device in each processing device 200a. When configured in this way, the monitoring apparatus 700 does not include the library storage unit 705 and the distribution destination determination unit 706. In this case, the processing device 200a includes a library storage unit 705, a distribution destination determination unit 706, and a list storage unit. The library storage unit 705 and the distribution destination determination unit 706 perform the same processing as the library storage unit 211 and the distribution destination determination unit 212 of the processing device 200 of the first embodiment.

  With this configuration, each processing device 200a can easily acquire information on the resources of the other processing devices 200a by receiving the list transmitted from the monitoring device 700. Furthermore, the processing device 200a can determine a distribution destination candidate device based on the received list and distribute the task.

  In the present embodiment, the processing apparatus 200a is configured to transmit information to the monitoring apparatus 700a including information on the type of task to be distributed and predetermined information corresponding to the task, but the processing apparatus 200a is distributed. Only the task type information may be included in the request. In such a configuration, when the request is entrusted, the monitoring device 700a acquires the predetermined information corresponding to the task from the processing device 200a of the request source, and the acquired predetermined information is distributed to the distribution destination that has entrusted the request. Send to candidate device.

[Third embodiment]
FIG. 13 is a system configuration diagram illustrating an example of a system configuration of the processing distribution system 100b according to the third embodiment. The processing distribution system 100b is different from the processing distribution system 100a in that a processing device 200b is provided instead of the processing device 200a, a plurality of monitoring devices 700b are provided instead of the monitoring device 700, and a management device 800 is provided. The configuration of the device 300 is the same between the processing distribution system 100b and the processing distribution system 100a. The processing device 200b is communicably connected to the monitoring device 700b and the other processing device 200b via the first network 401. The monitoring device 700b is communicably connected to the management device 800 via the second network 402. The first network 401 and the second network 402 may be constructed by any network. For example, the first network 401 and the second network 402 may be configured by the Internet. Hereinafter, the processing distribution system 100b will be described with respect to differences from the processing distribution system 100a.

The processing device 200b has the same functions as the processing device 200a except that it communicates with the monitoring device 700b and other processing devices 200b via the first network 401.
The monitoring device 700b is configured using an information processing device such as a personal computer. The monitoring device 700b acquires resource information from each processing device 200b connected to the monitoring device 700b. In addition, the monitoring device 700b acquires resource information of the processing device 200b connected to the other monitoring device 700b from the management device 800. The monitoring apparatus 700b determines a distribution destination candidate apparatus in response to a request for distributed processing of tasks from the processing apparatus 200b connected to the monitoring apparatus 700b.

  The management apparatus 800 acquires the resource information of each processing apparatus 200b from each monitoring apparatus 700b. The management device 800 transmits the acquired resource information of each processing device 200b to each monitoring device 700b. For example, the management device 800 transmits the resource information of the processing device 200b connected to the other monitoring device 700b to a certain monitoring device 700b.

FIG. 14 is a diagram illustrating details of the configuration of the monitoring apparatus 700b according to the third embodiment. Hereinafter, the configuration of the monitoring apparatus 700b will be described in detail with reference to FIG.
The monitoring device 700b includes a CPU, a memory, an auxiliary storage device, and the like connected by a bus, and executes a monitoring program. By executing the monitoring program, the monitoring apparatus 700b causes the resource information acquisition unit 702b, the list creation unit 703, the list storage unit 704, the library storage unit 705, the distribution destination determination unit 706b, the first communication unit 707, and the second communication unit 708. It functions as a device provided. Note that all or some of the functions of the monitoring device 700b may be realized using hardware such as an ASIC, PLD, or FPGA. The monitoring program may be recorded on a computer-readable recording medium. The computer-readable recording medium is, for example, a portable medium such as a flexible disk, a magneto-optical disk, a ROM, a CD-ROM, or a storage device such as a hard disk built in the computer system. The monitoring program may be transmitted / received via a telecommunication line.

  The monitoring apparatus 700b does not include the communication unit 701, includes a resource information acquisition unit 702a instead of the resource information acquisition unit 702, includes a distribution destination determination unit 706b instead of the distribution destination determination unit 706, and first communication The configuration differs from that of the monitoring device 700 in that the unit 707 and the second communication unit 708 are provided. The monitoring device 700b is the same as the monitoring device 700 in other configurations. Therefore, description of the whole monitoring apparatus 700b is abbreviate | omitted, and the resource information acquisition part 702b, the distribution destination determination part 706b, the 1st communication part 707, and the 2nd communication part 708 are demonstrated.

  The first communication unit 707 is configured using a communication device such as a communication interface. The first communication unit 707 communicates with the processing device 200b via the first network 401. The first communication unit 707 may perform wired communication or wireless communication. For example, the first communication unit 707 transmits a task processing request to the distribution destination candidate apparatus determined by the distribution destination determination unit 706b. Further, the communication unit 701 receives, for example, resource information of the processing device 200b from the processing device 200b.

  The second communication unit 708 is configured using a communication device such as a communication interface. The second communication unit 708 communicates with the management device 800 via the second network 402. The second communication unit 708 may perform wired communication or wireless communication. For example, the second communication unit 708 transmits the resource information of the processing device 200b connected to the own device acquired by the resource information acquisition unit 702b to the management device 800. The second communication unit 708 transmits a task processing request to the distribution destination candidate device determined by the distribution destination determination unit 706b, for example. Further, the second communication unit 708 receives, for example, the resource information of the processing device 200b connected to the other monitoring device 700b acquired by the other monitoring device 700b from the management device 800.

  The resource information acquisition unit 702b acquires the resource information transmitted from the processing device 200b from the information received by the communication unit 701. Further, the resource information acquisition unit 702b acquires the resource information of the processing device 200b connected to the other monitoring device 700b transmitted from the management device 800 from the information received by the second communication unit 708. The resource information acquisition unit 702b outputs the acquired resource information to the list creation unit 703.

  The distribution destination determination unit 706b determines a distribution destination candidate device based on the list stored in the list storage unit 704 and the library table stored in the library storage unit 705 in accordance with a request from the processing device 200b. . Then, when the determined distribution destination candidate device is the processing device 200b connected to the own device, the distribution destination determination unit 706b controls the first communication unit 707 to transmit a processing request to the distribution destination candidate device. . On the other hand, when the determined distribution destination candidate device is the processing device 200b connected to the other monitoring device 700b, the distribution destination determination unit 706b controls the second communication unit 708 to request a processing request from the distribution destination candidate device. To send.

In the processing distribution system 100b configured as described above, the same effects as those of the second embodiment can be obtained.
Further, in the processing distribution system 100b configured as described above, one monitoring device 700 is not only the resource information of the processing device 200b connected to the own device, but also the processing device 200b connected to another monitoring device 700b. Resource information can also be collected. Thereby, the monitoring apparatus 700 can acquire information regarding resources of the processing apparatus 200b in a wider range than in the first embodiment.

  In the processing distribution system 100b configured as described above, the resource information of the processing device 200b is listed for each processing device 200b. Therefore, the monitoring apparatus 700 can easily acquire information regarding the resources of each processing apparatus 200b.

<Modification>
The third embodiment may be modified similarly to the first embodiment and the second embodiment.
The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes designs and the like that do not depart from the gist of the present invention.
<Others>
The processing device 200 may be configured as follows.
Based on the resource information of the own device and the resource information acquired from another processing device, the communication device further includes a resource comparison unit that compares the resource of the own device and the resource of the other processing device. The two communication units 202) transmit only the resource of the own device or the resource information of the own device and the resource information of the other processing device to the other processing device according to the comparison result.

200, 200a, 200b ... processing device, 201, 707 ... first communication unit, 202, 202a, 708 ... second communication unit, 203, 702, 702b ... resource information acquisition unit, 204, 703 ... list creation unit, 205, 704 ... List storage unit, 206, 206a ... Resource information notification unit, 207 ... Resource comparison unit, 208 ... Index value storage unit, 209 ... Buffer, 210, 210a ... Processing execution unit, 211,705 ... Library storage unit, 212, 706, 706b: distribution destination determination unit, 213 ... processing determination unit, 300 ... device, 400, 400a ... network, 401 ... first network, 402 ... second network, 500 ... video conversion device, 600 ... library distribution device, 700 , 700b ... monitoring device, 701 ... communication unit, 80 ... management device

Claims (12)

A resource information acquisition unit that acquires resource information that is information about resources of a processing apparatus that performs processing on the predetermined information acquired from a device that acquires predetermined information;
A list creation unit that creates a list by classifying the resource information included in the acquired resource information for each processing device;
A list creation device comprising:   The list creation device according to claim 1, wherein the resource information acquisition unit acquires resource information of the processing device from the processing device that autonomously transmits the resource information.   The list creation device according to claim 1, wherein the resource information acquisition unit acquires resource information of the plurality of processing devices from a monitoring device that collects resource information of the plurality of processing devices.   The resource information acquisition unit is configured to monitor the resource information of the processing device connected to the monitoring device from the monitoring device to which the own device is connected and the other monitoring information among the plurality of monitoring devices that collect the resource information of the processing device. The list creation apparatus according to claim 1, wherein resource information of the processing apparatus connected to the apparatus is acquired.   A distribution destination determination that determines a processing device to which the processing is to be distributed based on the list created by the list creation device according to claim 1 and the type of task to be processed. A processing apparatus comprising a unit. The distribution destination determination unit makes a request for the processing to the processing device that is the distribution destination of the determined processing,
The processing apparatus according to claim 5, further comprising: a process determination unit that determines whether to accept the request according to a resource of the own apparatus when the request is made from another processing apparatus.   The distribution destination determination unit determines a task to be distributed to the other processing device among tasks to be processed by the own device when the resource of the own device becomes equal to or greater than a threshold by entrusting the request. The processing apparatus according to claim 6.   A processing apparatus including a communication unit that transmits resource information of the own apparatus acquired at a predetermined timing to another processing apparatus. A plurality of processing devices that perform processing on the predetermined information acquired from a device that acquires the predetermined information;
The processor is
A resource information acquisition unit that acquires resource information that is information about resources of the processing device;
A list creation unit that creates a list by classifying the resource information included in the acquired resource information for each of the other processing devices;
A resource information acquisition system comprising: A plurality of processing devices that perform processing on the predetermined information acquired from a device that acquires the predetermined information;
The processor is
A resource information acquisition unit that acquires resource information that is information about resources of the processing device;
A list creation unit that creates a list by classifying the resource information included in the acquired resource information for each of the other processing devices;
A distribution destination determination unit that determines a processing device as a distribution destination of the processing based on the list and the type of task to be processed;
A distributed processing system. A resource information acquisition step of acquiring resource information, which is information relating to resources of a processing apparatus that performs processing on the predetermined information acquired from a device that acquires predetermined information;
A list creation step of creating a list by classifying resource information included in the acquired resource information for each processing device;
A method for creating a list. A resource information acquisition step of acquiring resource information, which is information relating to resources of a processing apparatus that performs processing on the predetermined information acquired from a device that acquires predetermined information;
A list creation step of creating a list by classifying resource information included in the acquired resource information for each processing device;
A distribution destination determination step for determining a processing device as a distribution destination of the processing based on the list and the type of task to be processed;
A distributed processing method.

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