JP5674398B2 - Power consumption estimation system, information processing apparatus, power consumption estimation method, program - Google Patents

Description

  The present invention relates to a power consumption estimation system, an information processing apparatus, a power consumption estimation method, and a program.

  In recent years, various measures for suppressing power consumption in companies have been taken from the viewpoint of energy saving policy. As an environmental measure, it is effective to make a personal computer PC visible, that is, to use a PC having a power consumption measuring function. However, it is difficult to provide all PCs with a power consumption measuring function from the viewpoint of cost.

  Therefore, minimum and maximum value of the power consumption and the like are measured in advance, to estimate the power consumption and the like load factor of the current CPU (Central Processing Unit), i.e., how much, if advance what circumstances power It is disclosed that a database of whether to consume power is created and how much power is consumed by each PC based on the database is estimated (see, for example, Patent Document 1).

JP 2009-159712 A

  However, in the technique described in Patent Document 1, there is no choice but to estimate from the actual load situation based on the range of power consumption unique to the PC and the correspondence table between the average load and power consumption for all PCs. It was. For this reason, when the correspondence between the load and the power consumption differs depending on the configuration of the PC, there is a problem that the estimation error of the power consumption is large.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a power consumption estimation system, an information processing apparatus, a power consumption estimation method, and a program with high power consumption estimation accuracy.

In order to solve the above-described problem, an invention according to claim 1 is a power consumption estimation system for estimating power consumption related to a plurality of information processing apparatuses, application monitoring means for monitoring a display status of an application on a display means, and system configuration System configuration acquisition means for acquiring power consumption, information processing apparatus with power consumption measurement function having power consumption measurement means for measuring power consumption, and system configuration and application display status of the information processing apparatus with power consumption measurement function Associating a server having power consumption storage means for storing power consumption in association with each other, application monitoring means for monitoring the display status of the application, system configuration acquisition means for acquiring the system configuration, and the system configuration and the display status of the application The closest system configuration stored in the power consumption storage means Characterized in that and a processing apparatus without consumption measuring function having the power consumption estimating means for estimating the power consumption based on the display status of the application with.

  ADVANTAGE OF THE INVENTION According to this invention, provision of the power consumption estimation system, information processing apparatus, power consumption estimation method, and program which raised the estimation precision of power consumption is realizable.

It is a block diagram which shows one Example of the power consumption estimation system which concerns on this invention. It is an example of the flowchart for demonstrating operation | movement of the information processing apparatus with the power consumption measurement function of the power consumption estimation system shown in FIG. It is an example of the flowchart for demonstrating operation | movement of the information processing apparatus without the power consumption measurement function of the power consumption estimation system shown in FIG. It is a block diagram which shows the other Example of the power consumption estimation system which concerns on this invention.

In recent years, some PCs have a function of measuring how much power is consumed by time. This type of PC is effective for energy saving when used in a company. For example, it is conceivable that the power consumption of all PCs used in the office can be reduced by competing with other departments for how many watts are used in total.
However, since a PC with a power consumption measurement function is more expensive than a PC without a power consumption measurement function, it is costly to replace all office PCs with PCs with a power consumption measurement function.

Therefore, the power consumption of all PCs is based on the premise that the number of PCs without power consumption measurement function among all PCs should have the same power consumption if used in the same way as PCs with power consumption measurement function. Can be estimated.
That is, the present application is characterized in that the power consumption is indirectly measured by estimating the power consumption of all the PCs including the PCs with the power consumption measurement function with the PCs without the power consumption measurement function.

  That is, the present application is similar or similar if the system configuration and usage status of each PC in the office are different, but if the number of PCs in the office is large, the system configuration and usage status of applications (hereinafter referred to as applications) match. This is based on the premise that a PC should exist.

  If the application and system configuration (manufacturer, memory and HDD (Hard Disk Drive) capacity, CPU clock number) are similar or identical, the performance is almost the same, even if the manufacturer is different, the same CPU clock number, If the same memory capacity and the same HDD capacity, the performance is almost the same and there is an estimation error, but the power consumption is almost the same, and if there is no PC with the same performance, there is an estimation error if you search for a PC with similar performance A close value is obtained. For example, when a company purchases a PC (for example, several to hundreds), it is often the same model.

On a PC, if there are three components: the operational status of a certain application, the system status (static), and the fluctuating power consumption (dynamic), even if there are no measured values, Can be estimated with the rest.
Of the three components, the power consumption value can be estimated from the remaining two elements for the device that cannot obtain the actual power consumption value. For this reason, it is possible to estimate the power consumption of the target terminal by using the measured value of the power consumption of the terminal having the two components closest to the terminal to be estimated from other terminals.

  As an effect, the cost can be reduced by using together a PC with a power consumption measurement function and a PC without a power consumption measurement function, as compared with the case where all the PCs are PCs with a power consumption measurement function.

<Configuration>
FIG. 1 is a block diagram showing an embodiment of a power consumption estimation system according to the present invention.
The power consumption estimation system shown in the figure includes a plurality of information processing apparatuses with power consumption measurement functions PCs 10-1 to 10-n (n is a natural number), server power consumption storage means 12, and no power consumption measurement function. PC 11 as an information processing apparatus (which is also a power consumption estimation apparatus). In the figure, the number of PCs 11 is one, but the present invention is not limited and may be two or more.

The PC 10-1 includes an application monitoring unit 10a, a system configuration acquisition unit 10b, and a power consumption measurement unit 10c.
The application monitoring unit 10a includes a list of applications running on the PC 10-1, the type of front application on the monitor screen, the elapsed time since the last operation / input for each application, and the window size of the application. Monitor usage history such as window position.

  The system configuration acquisition unit 10b includes a CPU of the PC 10-1, a chip set, a GPU (Graphics Processing Unit) model number, an LCD (Liquid Crystal Device) model number, an HDD configuration, an HDD capacity, a memory capacity, an OS (Operation System) type, Get the OS power plan.

  The power consumption measuring means 10c is a means for measuring the power consumption of the PC 10-1. For example, a method of calculating the product of the obtained current value and the power supply voltage value by providing a current sensor in the power supply line, or using the CPU A method for converting the rate and page file usage into power consumption can be mentioned.

  The power consumption storage unit 12 is a storage unit used in a server (not shown) that stores a power consumption measurement value in association with the system configuration / application usage status in the PC 10-1, and includes, for example, an HDD.

  Since the application monitoring unit 10a, the system configuration acquisition unit 10b, and the power consumption measurement unit 10c of the PCs 10-2 to 10-n have the same functions as the application monitoring unit, system configuration acquisition unit, and power consumption measurement unit of the PC 10-1, Description is omitted.

On the other hand, the PC 11 includes an application monitoring unit 11a, a system configuration acquisition unit 11b, and a power consumption estimation unit 11c.
The application monitoring unit 11a and the system configuration acquisition unit 11b have the same functions as the application monitoring unit 10a and the system configuration acquisition unit 11b of the PC 10-1, and thus description thereof is omitted.

  The power consumption estimation unit 11c searches for the PC 10 having the system configuration / application usage status closest to the PC 11 among the PCs 10-1 to 10-n stored in the power consumption storage unit 12, and consumes the PC 11 from the obtained value. Estimate the power value. By estimating the power consumption of the PC 11, it is possible to grasp the power consumption of the entire system by summing the power consumption of each of the PCs 10-1 to 10-n and the power consumption of the server having the power consumption storage unit 12. .

<Operation>
FIG. 2 is an example of a flowchart for explaining the operation of the information processing apparatus with the power consumption measuring function of the power consumption estimation system shown in FIG.
In FIG. 2, the subject of operation is a CPU (not shown) mounted in each of the PCs 10-1 to 10-n.
The CPU of the PC 10-1 monitors the usage status of each application by the application monitoring unit 10a, and periodically outputs the obtained data to the power consumption storage unit 12 of the server. Similarly, the other PCs 10-2 to 10-n periodically output the obtained data to the power consumption storage unit 12. The output timing of data from the PCs 10-1 to 10-n to the power consumption storage means 12 is, for example, all at a predetermined time (for example, 15 minutes) in synchronization with a radio or television time signal or JJY (registered trademark). May be sent to the power consumption storage means 12 (step S1).

  The CPU of the PC 10-1 periodically outputs the CPU and other system configuration data in the system configuration acquisition unit 10b. The data output timing is the same as described above (step S2).

  The CPU of the PC 10-1 periodically outputs power consumption data measured by the power consumption measuring unit 10 c to the power consumption storage unit 12. The data output timing is the same as described above (step S3).

  The CPU of the server records the power consumption in the power consumption storage unit 12 in association with the application usage status and the system configuration information (step S4).

FIG. 3 is an example of a flowchart for explaining the operation of the information processing apparatus without the power consumption measurement function of the power consumption estimation system shown in FIG.
In FIG. 3, the subject of the operation is a CPU (not shown) mounted on the PC 11.
The CPU of the PC 11 monitors the usage status information of each application by the application monitoring unit 11a and periodically outputs it to the power consumption estimation unit 11c (step S11).
The CPU of the PC 11 uses the system configuration acquisition unit 11b to periodically output the CPU and other system configurations to the power consumption estimation unit 11c (step S12).
The CPU of the PC 11 searches the power consumption storage unit 12 of the server for the power usage in the state most similar to the usage status of the own application and the system configuration information.
Here, a plurality of similar samples may be searched and the estimated power may be calculated by averaging or the like (step S13).
The CPU of the PC 11 calculates the estimated power consumption by the power consumption estimation means 11c and outputs it to, for example, a monitor or a printer (not shown) (step S14).

  That is, the power consumption estimation system includes each system configuration of an information processing device with a power consumption measurement function and an information processing device without a power consumption measurement function, an application usage status and a system configuration of an information processing device with a power consumption measurement function, The power consumption can be reduced by comparing the power consumption according to the application usage status of the information processing device without the power consumption measurement function with the application usage status of the information processing device with the power consumption measurement function. It is to be predicted.

  With the above operation, according to the power consumption estimation system shown in FIG. 1, the power consumption estimation accuracy can be increased.

FIG. 4 is a block diagram showing another embodiment of the power consumption estimation system according to the present invention.
The difference between the embodiment shown in FIG. 4 and the embodiment shown in FIG. 1 is that an information processing apparatus without a power consumption measuring function has a built-in power consumption storage means 12.
In such a power consumption estimation system, the same effect as that of the embodiment shown in FIG. 1 can be obtained.
That is, the power consumption estimation system shown in FIG. 4 includes a plurality of PCs 10-1 to 10-n (n is a natural number) as information processing devices with power consumption measurement functions, and information processing devices without power consumption measurement functions (power consumption). PC 100 as an estimation device).

Since the PCs 10-1 to 10-n have already been described, description thereof will be omitted.
The PC 100 includes an application monitoring unit 11a, a system configuration acquisition unit 11b, a power consumption estimation unit 11c, and a power consumption storage unit 12.
An example of the power consumption storage unit 12 is an external HDD.

  About the operation | movement of the power consumption estimation system shown in FIG. 4, the operation | movement similar to the flowchart shown to FIG. 2, FIG. 3 is performed. However, since the power consumption storage means 12 is not a server storage means but an external HDD, the server CPU among the main operations is the CPU of the information processing apparatus without the power consumption measurement function.

Contrary to FIG. 4, an information processing apparatus having a power consumption measurement function may have a configuration in which the power consumption storage unit 12 is incorporated.
<Modification>

  Assuming that the total number of PCs is 100, (a) 99 PCs with power consumption measurement function and only one PC without power consumption measurement function, and (b) Power consumption measurement function provided. When there are 50 PCs and 50 PCs without power consumption measurement function, and (c) only 1 PC with power consumption measurement function and 99 PCs without power consumption measurement function, think of.

If the error in (a) is εa, the error in (b) is εb, and the error in (c) is εc, then εa <εb <εc.
However, when 50 servers are aggregated and calculated by the server, errors distributed in plus or minus with the true value as the center are offset each other, so that the error of the aggregate value decreases.

  Also, the first PC opens two Words (registered trademarks), the second PC opens two PowerPoint (registered trademarks), and the third PC is a word (registered trademark). Consider the case where PowerPoint (registered trademark) is open. When a PC with power consumption measurement function opens two Words (registered trademark), the power consumption when a PC without power consumption measurement function opens one word (registered trademark) is unknown. If a PC with power consumption measurement function opens two Words (registered trademark) and a PC with power consumption measurement function opens two PowerPoint (registered trademark), double the power consumption of both. Since the value is divided by 2, the power consumption for one word (registered trademark) can be calculated.

  Also, for example, in the office, if the power consumption is higher than that of the next department, it is necessary to calculate the power consumption one by one to determine who should be careful, but one unit is to be compared for each department. The average power consumption per hit may be calculated. To do this, the overall power consumption is first estimated, and then the individual power consumption is calculated. In this case, the error value of the PC alone should be acceptable.

  Since the number of applications is limited, the combination pattern of applications is also limited, and the variations of the table in the power consumption storage unit 12 are also limited. Since the table is filled with the number of measurements, if there is a hole in the table, it can be adjusted with a close one.

  The position of the power consumption storage unit 12 may be a dedicated device such as a server, or may be held by a PC without a power consumption measurement function. That is, in contrast to the example shown in FIG. 4, an information processing apparatus having a power consumption measurement function may have a configuration in which the power consumption storage unit 12 is incorporated.

There are three patterns of locations for the power consumption storage means 12; a server (Embodiment 1), a PC without a power consumption measurement function (Embodiment 2), and a PC with a power consumption measurement function (Modification). Can be mentioned.
For example, if the number of PCs is 100, the data for 50 units are stored in the server, the remaining 50 units go to the server, and 50 PCs with power consumption measurement function store the data. If so, a pattern in which the data of the own device is stored as an actual measurement value and the PC without the power consumption measuring function is asked whether there is a PC close to the application or system configuration of the own device.

<Program>
The power consumption estimation system according to the present invention described above is realized by a program that causes a computer to execute processing. Examples of the computer include general-purpose computers such as personal computers and workstations, but the present invention is not limited to this. Therefore, as an example, a case where the present invention is realized by a program will be described below.

For example,
A server connected to an information processing device with a power consumption measurement function and an information processing device without a power consumption measurement function,
A procedure for acquiring the system configuration of each information processing apparatus;
A procedure for the monitoring means to monitor the usage status of an application running on each information processing apparatus;
A procedure for recording power consumption in association with a system configuration of an information processing apparatus with a power consumption measurement function and a usage status of an application;
A procedure in which the predicting means predicts power consumption based on the closest system configuration and application usage status recorded in the recording means in association with the system configuration and application usage status of the information processing apparatus without the power consumption measurement function. ,
A program that executes

Also,
In a computer of an information processing device without a power consumption measurement function of a power consumption estimation system that estimates power consumption of a plurality of information processing devices,
A procedure for storing power consumption in association with a system configuration of an information processing apparatus with a power consumption measurement function and an application usage state, by a power consumption storage unit of the information processing apparatus without a power consumption measurement function;
A procedure for monitoring the usage status of the application of the information processing apparatus without the power consumption measurement function, by the application monitoring means of the information processing apparatus without the power consumption measurement function;
A procedure for acquiring the system configuration of the information processing apparatus without the power consumption measurement function by the system configuration acquisition means of the information processing apparatus without the power consumption measurement function,
The power consumption estimation means of the information processing apparatus without the power consumption measurement function is the closest stored in the power consumption storage means in association with the system configuration of the information processing apparatus with the power consumption measurement function and the usage status of the application. A procedure to estimate power consumption based on system configuration and application usage,
A program that executes

Thus, the power consumption estimation system according to the present invention can be realized anywhere as long as there is a computer environment in which the program can be executed.
Such a program may be stored in a computer-readable storage medium.

<Storage medium>
Here, examples of the storage medium include a computer-readable storage medium such as a CD-ROM (Compact Disc Read Only Memory), a flexible disk (FD), and a CD-R (CD Recordable), a flash memory, and a RAM (Random). Examples thereof include semiconductor memories such as Access Memory (ROM), Read Only Memory (ROM), and FeRAM (ferroelectric memory), and HDDs.

  The above-described examples and embodiments show examples of preferred embodiments of the present invention, and the present invention is not limited thereto, and various modifications may be made without departing from the scope of the invention. Is possible.

10, 10-1, 10-2, ..., 10-n PC with power consumption measurement function
10a, 11a Application monitoring means 10b, 11b System configuration acquisition means 10c Power consumption measuring means 11, 100 PC without power consumption measuring function
11c Power consumption estimation means 12 Power consumption storage means

Claims (6)

A power consumption estimation system for estimating power consumption of a plurality of information processing devices,
An information processing apparatus with a power consumption measuring function, which includes an application monitoring means for monitoring the display status of an application on the display means, a system configuration obtaining means for obtaining a system configuration, and a power consumption measuring means for measuring power consumption
A server having power consumption storage means for storing power consumption in association with the system configuration of the information processing apparatus with the power consumption measurement function and the display status of the application;
Application monitoring means for monitoring the display status of the application, system configuration acquisition means for acquiring the system configuration, and the closest system configuration and application stored in the power consumption storage means in association with the system configuration and the display status of the application An information processing apparatus without a power consumption measurement function having a power consumption estimation means for estimating power consumption based on a display status; and
A power consumption estimation system comprising: A power consumption estimation system for estimating power consumption of a plurality of information processing devices,
An information processing apparatus with a power consumption measurement function, which includes an application monitoring means for monitoring the display status of an application on the display means, a system configuration acquisition means for acquiring a system configuration, and a power consumption measurement means for measuring power consumption;
Power consumption storage means for storing power consumption in association with the system configuration of the information processing apparatus with the power consumption measurement function and the application display status, application monitoring means for monitoring the display status of the application, and system configuration for acquiring the system configuration acquisition means, and consumption with power consumption estimating means for estimating the power consumption based on the display status of the closest system configuration and applications stored in said power storage means in association with the display status of the system configuration and application An information processing device without a power measurement function;
A power consumption estimation system comprising: An information processing apparatus that is used in a power consumption estimation system that estimates power consumption of an information processing apparatus group and has no power consumption measurement function,
The system configuration of an information processing apparatus with a power consumption measuring function having an application monitoring unit that monitors a display status of an application on a display unit, a system configuration acquiring unit that acquires a system configuration, and a power consumption measuring unit that measures power consumption a power storage means for storing the power consumption in conjunction with display status of the application, the application monitoring means for monitoring the display status of its application, the system configuration acquisition means for acquiring system configuration of its own, its system Characterized by comprising power consumption estimating means for estimating the power consumption based on the closest system configuration and the application display status stored in the power consumption storage means in association with the display status of the application itself. Information processing apparatus. Each system configuration of an information processing device with a power consumption measurement function and an information processing device without a power consumption measurement function, and the relationship between the application display status and the system configuration in the display means of the information processing device with the power consumption measurement function The power consumption is predicted by recording in advance and comparing the power consumption according to the application display status of the information processing apparatus without the power consumption measurement function with the application display status of the information processing apparatus with the power consumption measurement function. A power consumption prediction method characterized by the above. A server connected to an information processing device with a power consumption measurement function and an information processing device without a power consumption measurement function,
A procedure for acquiring the system configuration of each information processing apparatus;
A procedure in which the monitoring means monitors the display status of the application in the display means operating in each information processing apparatus;
A procedure for recording power consumption in association with a system configuration of an information processing apparatus with a power consumption measurement function and a display state of an application;
Procedure predicts prediction means, the power consumption based on the display status of the system configuration and application power consumption measurement function without the information processing apparatus to display status related to allowed closest system configuration and applications recorded on said recording means ,
A program characterized by having executed. In a computer of an information processing device without a power consumption measurement function of a power consumption estimation system that estimates power consumption of a plurality of information processing devices,
A procedure for storing power consumption in association with a system configuration of an information processing apparatus with a power consumption measurement function and a display status of an application in a display means, in a power consumption storage unit of the information processing apparatus without a power consumption measurement function,
A procedure for the application monitoring means of the information processing apparatus without the power consumption measuring function to monitor the display status of the application of the information processing apparatus without the power consumption measuring function,
A procedure for acquiring the system configuration of the information processing apparatus without the power consumption measurement function by the system configuration acquisition means of the information processing apparatus without the power consumption measurement function,
The power consumption estimation means of the information processing apparatus without the power consumption measurement function is the closest stored in the power consumption storage means in association with the system configuration of the information processing apparatus with the power consumption measurement function and the display status of the application. Procedure to estimate power consumption based on system configuration and application display status,
A program characterized by having executed.

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