KR20150053675A - Method for intermediating cloud server - Google Patents

Abstract

The present invention relates to a method for intermediating a cloud server and, more particularly, to a method for intermediating a cloud server capable of processing the request data of a service requester with the cheapest costs using a public cloud server or a private cloud server. The method for intermediating the cloud server according to the present invention includes the steps of: receiving request data information; receiving the use information of the cloud server; and selecting the combination of the cloud server.

Description

Method for intermediating cloud server [

The present invention relates to a method of mediating a cloud server, and more particularly, to a mediating method of a cloud server that can process request data of a service requester at a lowest cost by using a private cloud server or an air cloud server.

Cloud computing is a computer environment in which information is permanently stored on servers on the Internet and is temporarily stored on clients such as desktop devices, laptop computers, netbooks, and smartphones. That is, all the information of the user is stored in the cloud server on the Internet, and the information can be used anytime and anywhere through various IT devices.

In other words, a computing service in which computing resources such as hardware and software existing in an intangible form, such as a cloud, is borrowed as much as necessary and a usage fee is paid for the computing resource, Technology that integrates and virtualizes resources. Cloud computing, an innovative computing technology that provides IT-related services such as data storage, processing, networking, and content usage at a time, is defined as an on-demand outsourcing service for IT resources using the Internet.

Such a cloud server can be divided into a private cloud server and a public cloud server. A private cloud server means a cloud server that private companies build and use in their own data center, and a public cloud server Cloud servers that are built by cloud server providers (vendors) and that provide and pay for the companies that need them.

With cloud computing, businesses or individuals can reduce the cost of maintaining, maintaining and managing computer systems, the cost of purchasing and installing servers, updating costs, purchasing software, and time and labor, Cloud servers are widely used in various fields. In particular, in the health care field, in order to collect and process a large amount of healthcare information of the user in association with the ubiquitous environment, and to freely inquire user's healthcare information anytime and anywhere, Is used.

These cloud servers are constructed by providers of various cloud servers and provided to the service requesters. The costs per unit data throughput provided by the providers of the respective cloud servers are different from each other. The service requester is a technology for using the cloud server at low cost .

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the conventional Klaus service, and it is an object of the present invention to provide a cloud server which can process request data of a service requester at the lowest cost using a private cloud server or an air cloud server Method.

Another object of the present invention is to provide a method and system for managing a cloud server that can utilize a cloud server at a low cost in the viewpoint of a service requestor by mediating an operator of the cloud server and a service requester to increase the efficiency of use of the cloud server from the perspective of the cloud server operator, And the like.

According to another aspect of the present invention, there is provided a method for mediating a cloud server, comprising the steps of: receiving information about request data requested from a service requester in a mediating server; the method comprising: receiving usage information of a private cloud server and an public cloud server from a cloud server; receiving information on request data from the intermediary server, usage information of the private cloud server and the public cloud server, And selecting a combination of cloud servers that process the requested data at a minimum cost of the cloud servers.

Here, the usage information of the private cloud server or the public cloud server is characterized by availability of the private cloud server or the public cloud server, cost per unit throughput, and amount of data that can be processed by the private cloud server or the public cloud server.

Herein, the information about the request data is a requested data amount requested by the service requestor.

Preferably, the step of selecting a combination of cloud servers according to an embodiment of the present invention includes selecting a currently available candidate private cloud server or a candidate public cloud server based on availability of a private cloud server or an public cloud server A candidate private cloud server or a candidate public cloud server in a descending order of cost per unit throughput, and a step of sorting the candidate private cloud server or the candidate public cloud server in a descending order of cost per unit throughput, Selecting a combination of cloud servers up to a candidate private cloud or a candidate public cloud in which the amount of sequential cumulative sum data exceeds the amount of requested data for the first time;

Preferably, the step of selecting a combination of cloud servers according to another embodiment of the present invention includes selecting a currently available candidate private cloud server or a candidate public cloud server based on availability of a private cloud server or an public cloud server Calculating a sequential cumulative data amount of a processable data amount of a candidate public cloud server arranged in order of lower cost per unit throughput, in the order of decreasing cost per unit throughput of the candidate public cloud server; And determines whether the amount of sequential cumulative data exceeds the amount of requested data. If the amount of requested data exceeds the amount of sequential cumulative data, the candidate private cloud server determines whether to process the difference data amount between the requested data amount and the sequential cumulative data amount. Cloud server And selecting a candidate public cloud and a final private cloud server as a combination of cloud servers.

Wherein the step of selecting a final private cloud server comprises the steps of: determining whether a sequential cumulative sum data amount exceeds a requested data amount; and if the requested data amount exceeds a sequential cumulative sum data amount, Calculating a second sequential cumulative sum data amount of a processable data amount of the candidate private cloud server; and calculating a second sequential cumulative sum data amount of the candidate private cloud server when the second sequential cumulative sum data amount exceeds the difference data amount for the first time Selecting a candidate private cloud up to the candidate private cloud to be the final private cloud.

Preferably, the method for selecting a cloud server according to the present invention further comprises providing information on a combination of cloud servers to the service requester.

Preferably, the request data requested from the service requester is healthcare related data.

In the meantime, the intermediary apparatus of the cloud server according to the present invention includes a transmitter / receiver for transmitting / receiving data to / from a service requestor terminal, a private cloud server or an air cloud server, and a private cloud A mediation unit for selecting a combination of a private cloud server or a cloud server that processes request data at a minimum cost among an air cloud server based on usage information of a private cloud server or an air cloud server received from a server or a plubic cloud server; And a providing unit for providing information on a combination of the selected cloud servers to the service requester terminal through the transmitting and receiving unit.

A mediation unit according to an exemplary embodiment of the present invention includes a candidate selection unit for selecting a candidate private cloud server or a candidate public cloud server that is currently available based on availability of a private cloud server or an air cloud server, A sorting unit for sorting the public cloud servers in a descending order of the cost per unit processing amount and a sequential cumulative sum data amount of the processable data amount of the candidate private cloud server or the candidate public cloud server arranged in the order of low cost per unit throughput And a combination selector for selecting a candidate private cloud or a candidate public cloud for which the amount of sequential cumulative sum data exceeds the amount of requested data for the first time as a combination of cloud servers.

The mediation unit according to another embodiment of the present invention includes a candidate selecting unit for selecting a candidate private cloud server or a candidate public cloud server that is currently available based on availability of a private cloud server or an air cloud server, A summation calculation unit for calculating sequential cumulative data amount of a processable data amount of a candidate public cloud server arranged in order of lower cost per unit throughput, If the requested data amount exceeds the sequential cumulative sum data amount, the candidate private cloud server selects the final private cloud server to process the difference data amount between the requested data amount and the sequential cumulative sum data amount Select private cloud And, a candidate public cloud and private cloud end server characterized in that it comprises a combination of selection for selecting a combination of the cloud server.

Here, the private cloud selection unit may include a determination unit for determining whether the sequential cumulative data amount exceeds the requested data amount, and a determination unit for determining whether the amount of requested data exceeds the amount of sequential cumulative data, A second summation calculation unit for calculating a second sequential cumulative summation data amount of a processable data amount of the candidate private cloud server; To a candidate private cloud exceeding a predetermined threshold value, as a final private cloud.

The method of mediating a cloud server according to the present invention selects a combination of cloud servers to process request data based on usage information provided by a private cloud server or an air cloud server, thereby processing the request data of the service requester at the lowest cost .

Also, the method of mediating the cloud server according to the present invention mediates between the operator of the cloud server and the service requester, thereby enhancing the utilization efficiency of the cloud server and at the same time using the cloud server at low cost.

1 is a view for explaining a mediation system of a cloud server according to the present invention.
2 is a functional block diagram illustrating an intermediary apparatus of a cloud server according to an embodiment of the present invention.
3 is a diagram for explaining an example of a database according to the present invention.
FIG. 4 is a functional block diagram for explaining an example of a mediation unit according to the present invention.
5 is a functional block diagram for explaining another example of the mediator according to the present invention.
6 is a diagram for explaining the private cloud selector according to the present invention in more detail.
7 is a flowchart illustrating a method of mediating a cloud server according to the present invention.
FIG. 8 shows an example of usage information received from a private cloud server or an air cloud server according to the present invention.
9 is a flowchart for explaining an example of a step of selecting a combination of cloud servers according to the present invention.
10 is a diagram for explaining another example of a step of selecting a combination of cloud servers according to the present invention.
FIG. 11 shows an example in which the utilization information of the cloud server received in the present invention is arranged in the order of lower cost per unit throughput.

Hereinafter, a method of mediating a cloud server according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view for explaining a mediation system of a cloud server according to the present invention.

1, a plurality of service requestor terminals 10 are connected to a network 20 and a plurality of cloud servers 30 and a cloud server intermediary apparatus 100 are connected to the network 20 Respectively. The network 20 may be a variety of wired / wireless networks capable of transmitting and receiving data between the service requester terminal 10, the cloud server 30, and the cloud server mediation apparatus 100.

Here, the service requester terminal 10 is a terminal possessed by a service requester for processing request data through the cloud server 30. The service requester manages a plurality of request data such as a large amount of health care data, a large amount of financial data, The cloud server 30 is used. Here, the cloud server 30 is a server constructed by a cloud server operator, and stores an application program, a storage space, and the like to store and manage request data of the service requester. The cloud server 30 is largely comprised of a public cloud server and a private cloud server.

The service requester terminal 10 transmits information on request data to the cloud server intermediary apparatus 100 via the network 20 when the request data to be processed exists, and the cloud server 30 transmits the request data to the cloud server 30 To the cloud server mediation server 100 via the network 20. [ Here, the information on the request data is the requested data amount, and the utilization information on the cloud server is the availability of the cloud server, the cost per unit data processing amount, and the total amount of data that can be processed by each cloud server.

The cloud server mediation server 100 transmits the request data at the minimum cost among the cloud servers 30 based on the usage information received from the cloud server 30 when receiving the information about the request data from the service requestor terminal 10 And provides the service requester terminal 10 with information on the combination of the selected cloud servers.

2 is a functional block diagram illustrating an intermediary apparatus of a cloud server according to an embodiment of the present invention.

2, the transceiver unit 110 is connected to the network 20 and transmits / receives data to / from the service requester terminal 10, a private cloud server, or an public cloud server. That is, the transceiver unit 110 receives information on request data from the service requester terminal 10 via the network 20 or transmits information on the cloud server combination to the service requester terminal 10 via the network 20 do. In addition, the transceiver unit 110 receives utilization information about the cloud server from the cloud server 30. The utilization information for the received cloud server is stored in the database 130. [

When receiving the information on the request data from the service requestor terminal, the intermediary unit 120 transmits the request data with the minimum cost among the private cloud server or the public cloud server based on the utilization information for the cloud server stored in the database 130 A combination of cloud servers that processes the cloud server is selected.

The providing unit 140 transmits and receives information on the combination of the cloud servers selected by the intermediary unit 120 to the service requester terminal 10 through the transmitting and receiving unit 110. [

3 is a diagram for explaining an example of a database according to the present invention.

Referring to FIG. 3, the database includes a service requester database, a cloud server database, and a usage information database. The service requester database stores information such as the name of the service requester, personal information such as resident registration number, ID, password, and usage status of the cloud server mediator. The cloud server database stores information on the registered public cloud server or private cloud server, information on whether the cloud server is an public cloud server or a private cloud server, a connection address of the cloud server, and maximum processing capacity have. The usage information database stores real-time information on the cost per unit data throughput received from the cloud server, availability of the private cloud server or the public cloud server, and the total amount of data that can be processed by the private cloud server or the public cloud server.

FIG. 4 is a functional block diagram for explaining an example of a mediation unit according to the present invention.

4, the candidate selecting unit 121 selects a currently available cloud server as a candidate cloud server based on the information on the availability received from each of the cloud servers 30. Candidate cloud servers may be mixed with candidate private cloud servers and candidate public cloud servers.

The sorting unit 122 sorts the candidate private cloud server or the candidate public cloud server in the order of lower cost per unit throughput based on the information on the cost per unit throughput of the selected candidate private cloud server or the candidate public cloud server.

The summation calculation unit 123 calculates the sum of the amounts of data that can be processed by the candidate private cloud server or the candidate public cloud servers arranged in descending order of cost per unit throughput in the order of the candidate private cloud server or the candidate public cloud server The sequential cumulative data amount is calculated by sequentially summing up the amount of processable data.

The combination selection unit 124 selects a candidate private cloud or a candidate public cloud in which the amount of sequential cumulative sum data exceeds the amount of requested data for the first time as a combination of cloud servers.

5 is a functional block diagram for explaining another example of the mediator according to the present invention.

5, the candidate selecting unit 125 selects a currently available cloud server as a candidate cloud server based on the information on the availability received from each of the cloud servers 30. Candidate cloud servers may be mixed with candidate private cloud servers and candidate public cloud servers.

The sorting unit 126 sorts the candidate public cloud servers in the order of lower cost per unit throughput based on information on the cost per unit throughput of the selected candidate public cloud server.

The summation processing unit 127 computes the sequential cumulative data amount of the processable data amount of the candidate public cloud server arranged in the order of lower cost per unit processing amount, If the requested data amount exceeds the sequential cumulative sum data amount, the candidate private cloud server selects the final private cloud server to process the difference data amount between the requested data amount and the sequential cumulative sum data amount.

The combination selection unit 129 selects a candidate public cloud and a final private cloud server as a combination of a cloud server.

6 is a diagram for explaining the private cloud selector according to the present invention in more detail.

Referring to FIG. 6, the determining unit 210 determines whether the sequential cumulative sum data amount exceeds the requested data amount. The difference calculator 220 calculates a difference data amount between the requested data amount and the sequential cumulative summed data amount when the requested data amount exceeds the sequential cumulative summed data amount.

The second sorting unit 230 arranges the candidate private cloud servers in the order of lower cost per unit throughput of the candidate private cloud server when the amount of requested data exceeds the accumulated cumulative data amount. The second summation calculation unit 240 sequentially sums the processable data amount of the candidate private cloud server in the sorting order based on the processable data amount of the candidate private cloud server arranged in the order of lower cost per unit processing amount, The sequential cumulative summation data amount is calculated.

The final selection unit 250 selects the final private cloud server up to the candidate private cloud server in which the second sequential cumulative sum data amount exceeds the difference data amount for the first time. Select the candidate public cloud and final private cloud server as the combination of cloud servers.

7 is a flowchart illustrating a method of mediating a cloud server according to the present invention.

7, when the cloud server mediation apparatus receives a request message including information on request data to be processed, that is, information about the capacity of request data, from the service requestor terminal (S110) And requests usage information from the registered public cloud server or private cloud server. The public cloud server or the private cloud server transmits real-time utilization information of the public cloud server or the private cloud server to the cloud intermediary server in response to the request of the cloud server intermediary apparatus (S120).

The intermediate apparatus of the cloud server selects a combination of cloud servers that process the request data at a minimum cost among the private cloud server or the public cloud server based on the information on the received request data and the usage information of the private cloud server and the public cloud server (S130). The intermediary apparatus of the cloud server transmits information on the combination of the selected cloud servers to the service requestor terminal (S140).

FIG. 8 shows an example of usage information received from a private cloud server or an air cloud server according to the present invention.

As shown in FIG. 8, the usage information received from the private cloud server or the public cloud server includes an identifier indicating whether it is a private cloud server or an air cloud server, information on whether a private cloud server or an air cloud server is currently available, The cost per unit current throughput of the private cloud server or the public cloud server, and the total amount of data that can be currently processed by the private cloud server or the public cloud server.

9 is a flowchart for explaining an example of a step of selecting a combination of cloud servers according to the present invention.

Referring to FIG. 9, a currently available candidate private cloud server or a candidate public cloud server is selected as a candidate cloud server based on availability of a private cloud server or an public cloud server (S131). The candidate private cloud server or the candidate public cloud server is arranged in the order of lower cost per unit throughput regardless of the candidate private cloud server or the candidate public cloud server at step S133. A sequential cumulative sum data amount of a processable data amount of a candidate private cloud server or a candidate public cloud server arranged in descending order of cost per unit throughput is calculated (S135), and when the sequential cumulative sum data amount exceeds the requested data amount for the first time A candidate private cloud server or a candidate public cloud server is selected as a combination of cloud servers (S137). For example, candidate cloud servers arranged in the order of the requested data amount of 500 MB and the available cost per unit of throughput of the cloud server are sequentially ranked as cloud server 1, cloud server 2, cloud server 3, cloud server 4 and cloud server 5 Cloud servers 1, 2 and 5 are public cloud servers, cloud servers 3 and 4 are private cloud servers, and the current data amount of cloud servers 1, 2, 3, 4 and 5 is 100MB, 200MB, 150MB, The cloud server 1, 2, 3, 4 is selected as the cloud server combination from the first to the cumulative cumulative data amount of the requested data amount from the beginning to the cloud server.

10 is a diagram for explaining another example of a step of selecting a combination of cloud servers according to the present invention.

Referring to FIG. 10, a candidate private cloud server or a candidate public cloud server is selected as a candidate cloud server based on availability of a private cloud server or an public cloud server (S231).

First, the candidate cloud servers are sorted in order of lower cost per unit throughput of the candidate public cloud servers (S233), and the sequential cumulative summation data of the processable data amount of the candidate public cloud servers arranged in descending order of cost per unit throughput (S235).

If the sequential cumulative sum data amount exceeds the requested data amount (S236), and if the sequential cumulative sum data amount exceeds the requested data amount, the candidate cumulative sum data amount in the candidate public cloud server exceeds the requested data amount for the first time in the candidate public cloud Server to the combination of cloud servers.

However, if the sequential cumulative sum data amount does not exceed the requested data amount, the final private cloud server to process the difference data amount between the requested data amount and the sequential cumulative sum data amount is selected (S239). The candidate public cloud server and the final private cloud server are selected as a combination of cloud servers.

More specifically, a method of selecting a final private cloud server determines whether a sequential cumulative sum data amount exceeds a requested data amount, and calculates a difference data amount between a requested data amount and a sequential cumulative sum data amount. When the requested data amount exceeds the sequential cumulative sum data amount, the candidate private cloud servers are sorted in descending order of cost per unit processing amount, and the amount of the processable data amount of the candidate private cloud server arranged in descending order of cost per unit throughput 2 Calculate the cumulative cumulative data amount. The second private cloud server is selected as the final private cloud server for which the second sequential cumulative data amount exceeds the difference data amount for the first time.

 For example, candidate cloud servers arranged in the order of 500 MB of requested data amount and low cost per unit throughput are sequentially assigned to cloud server 1, cloud server 2, cloud server 3, cloud server 4, cloud server 5, and cloud servers 1 and 2 , 3 is an air cloud server, and cloud servers 4 and 5 are private cloud servers. If cloud servers 1, 2, 3, 4, and 5 currently handle data amounts of 100MB, 200MB, 150MB, 100MB, and 200MB, The sequential cumulative summation data amount of the server is calculated and it is judged whether the cumulative sum data amount exceeds the requested data amount. If the accumulated amount of data exceeds the amount of requested data, the combination is selected by the public cloud server.

However, if the sequential cumulative data amount does not exceed the requested data amount, the second cumulative data amount is sequentially calculated in the order of lower cost per unit processing amount of the private cloud server, and the second cumulative data amount exceeds the difference data for the first time That is, the cloud servers 1, 2, 3, and 4 are selected as the cloud server combination.

The method of combining cloud servers described with reference to FIG. 10 is based on the fact that the cost per unit throughput of the public cloud server is generally lower than the cost per unit throughput of the private cloud server, And only when the requested data can not be processed using the public cloud server, the private cloud server is used to process the remaining request data, thereby mediating the cloud server processing the request data at the lowest cost.

FIG. 11 shows an example in which the utilization information of the cloud server received in the present invention is arranged in the order of lower cost per unit throughput.

The above-described embodiments of the present invention can be embodied in a general-purpose digital computer that can be embodied as a program that can be executed by a computer and operates the program using a computer-readable recording medium.

The computer-readable recording medium may be an electrically or magnetic storage medium such as a ROM, a floppy disk, a hard disk, etc., an optical reading medium such as a CD-ROM or a DVD and a carrier wave, , Transmission over the Internet).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: Service requester terminal
20: Network
30: Cloud server
100: Cloud server mediation device
110: Transmitting /
120:
130: Database
140: Offering

Claims (15)

Receiving information on request data requested from a service requester in a mediation server;
Receiving usage information of the private cloud server and the public cloud server from a private cloud server or a plubic cloud server in the intermediary server; And
A combination of the private cloud server or the cloud server processing the request data with the least cost among the private cloud server or the public cloud server based on the information on the request data, the private cloud server, and the usage information of the public cloud server, The method comprising the steps of: The method of claim 1, wherein the usage information of the private cloud server or the public cloud server is
The method comprising: determining whether the private cloud server or the public cloud server is available, the cost per unit throughput, and the amount of data that can be processed by the private cloud server or the public cloud server. 3. The method of claim 2, wherein the information about the request data is
And a request data amount requested by a service requester. 4. The method of claim 3, wherein selecting the combination of cloud servers comprises:
Selecting a currently available candidate private cloud server or a candidate public cloud server based on availability of the private cloud server or the public cloud server;
Arranging the candidate private cloud server or the candidate public cloud server in the order of lower cost per unit throughput;
Calculating a cumulative cumulative data amount of a processable data amount of the candidate private cloud server or the candidate public cloud server arranged in the order of lower cost per unit processing amount; And
Selecting a candidate private cloud server or a candidate public cloud server that has the amount of the sequential cumulative sum data for the first time exceeding the amount of requested data as a combination of the cloud servers. 4. The method of claim 3, wherein selecting the combination of cloud servers comprises:
Selecting a currently available candidate private cloud server or a candidate public cloud server based on availability of the private cloud server or the public cloud server;
Sorting the candidate public cloud servers in order of lower cost per unit throughput;
Calculating an amount of sequential cumulative data amount of a processable data amount of the candidate public cloud server arranged in order of decreasing cost per unit processing amount; And
When the amount of requested data exceeds the amount of the sequential cumulative data amount by determining whether the amount of the sequential cumulative data amount exceeds the amount of the requested data and if the difference between the amount of requested data and the amount of the sequential cumulative data amount in the candidate private cloud server Selecting a final private cloud server to process the amount of data; And
And selecting the candidate public cloud server and the final private cloud server as a combination of the cloud server and the cloud server. 6. The method of claim 5, wherein selecting the final private cloud server comprises:
Determining whether the sequential cumulative sum data amount exceeds the requested data amount;
Calculating a difference data amount between the requested data amount and the sequential cumulative sum data amount;
Sorting the candidate private cloud servers in a descending order of the cost per unit throughput when the amount of requested data exceeds the amount of sequential cumulative sum data;
Calculating a second sequential cumulative sum data amount of a processable data amount of the candidate private cloud server arranged in order of lower cost per unit processing amount; And
Selecting as a final private cloud server the second sequential cumulative sum data amount up to a candidate private cloud server for which the difference data amount first exceeds the difference data amount. 7. The method according to any one of claims 1 to 6, wherein the brokerage method of the cloud server
And providing information on a combination of the cloud servers to the service requester. 8. The method of claim 7,
Wherein the request data requested from the service requester is healthcare related data. A service requestor terminal, a private cloud server, or a public cloud server;
And a public cloud server that receives information on request data from the service requester terminal, wherein the private cloud server or the public cloud server receives usage information of the private cloud server or the public cloud server received from the public cloud server, A mediator for selecting a combination of cloud servers that process the request data at a minimum cost among the cloud server or the public cloud server; And
And a providing unit for providing information on a combination of the selected cloud servers to the service requestor through the transceiver unit. 10. The method of claim 9, wherein the usage information of the private cloud server or the public cloud server
Wherein the private cloud server or the public cloud server is usable, the cost per unit throughput, and the amount of data that can be processed by the private cloud server or the public cloud server. 11. The method of claim 10, wherein the information about the request data includes
And a request data amount requested by a service requester. 12. The system according to claim 11,
A candidate selecting unit for selecting a currently available candidate private cloud server or a candidate public cloud server based on availability of the private cloud server or the public cloud server;
A sorting unit arranged to sort the candidate private cloud servers or the candidate public cloud servers in order of cost per unit throughput;
A summation calculation unit for calculating sequential cumulative data amount of the processable data amount of the candidate private cloud server or the candidate public cloud server arranged in order of lower cost per unit processing amount; And
A candidate private cloud or a candidate public cloud in which the amount of the sequential cumulative sum data exceeds the amount of requested data for the first time, as a combination of cloud servers. 12. The system according to claim 11,
A candidate selecting unit for selecting a currently available candidate private cloud server or a candidate public cloud server based on availability of the private cloud server or the public cloud server;
A sorting unit arranged to sort the candidate public cloud servers in order of cost per unit throughput;
A summation calculation unit for calculating a sequential cumulative sum data amount of a processable data amount of the candidate public cloud server arranged in the order of lower cost per unit processing amount;
When the amount of requested data exceeds the amount of the sequential cumulative data amount by determining whether the amount of the sequential cumulative data amount exceeds the amount of the requested data and if the difference between the amount of requested data and the amount of the sequential cumulative data amount in the candidate private cloud server A private cloud selector for selecting a final private cloud server to process the data amount; And
And a combination selection unit for selecting the candidate public cloud and the final private cloud server as a combination of the cloud server and the cloud server. 14. The method of claim 13, wherein the private cloud selector
A determination unit for determining whether the sequential cumulative sum data amount exceeds the requested data amount;
A difference calculation unit for calculating a difference data amount between the requested data amount and the sequential cumulative sum data amount when the requested data amount exceeds the sequentially accumulated accumulated data amount;
When the amount of the requested data exceeds the amount of the sequential cumulative sum data, the second sorting unit arranges the cost per unit throughput of the candidate private cloud server in descending order,
A second summing calculation unit for calculating a second sequential cumulative sum data amount of a processable data amount of the candidate private cloud server arranged in order of lower cost per unit processing amount;
And a final selection unit for selecting, as a final private cloud, up to the candidate private cloud in which the second sequential cumulative sum data amount exceeds the difference data amount for the first time. 15. The method according to any one of claims 9 to 14,
Wherein the request data requested from the service requester is healthcare related data.

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