JPS6212333A - Power conservation system - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method for reducing the total amount of power used in a companion system equipped with a plurality of processing devices.

(Prior art) When constructing a system with a large number of information processing devices, etc., the number of information processing devices, etc. is sufficient to process the maximum traffic volume.
These devices are always powered regardless of the amount of traffic.

(Problem to be solved by the invention) As a result, when the amount of traffic decreases, power is supplied to equipment that does not operate, and at the same time, air conditioning equipment, lighting, etc. are also operated. Therefore, it had the disadvantage of wasting power.

The purpose of the present invention is to reduce the power consumption of a system consisting of a large number of processing devices by not supplying power to processing devices that are not in operation and by limiting the operation of related nine-adjustment equipment. The objective is to provide a power saving method that can save energy.

(Means for Solving the Problems) In order to achieve the above object, the power saving method according to the present invention constantly reduces the amount of traffic to be processed by the system in a system consisting of a plurality of processing devices equipped with air conditioners and lighting. Alternatively, a traffic monitoring device that monitors timely, a power supply control device that determines the number of processing devices that need to be operated based on the monitoring results of the traffic monitoring device, and a power supply control device that controls each of the processing devices according to a control signal from the power supply control device. An air conditioner control device that determines all the air conditioners necessary to cool the power supply device that supplies power and the processing device that processes the input based on control signals from the power supply control device and instructs their drive. and a lighting control device that instructs the driving of illuminators necessary for the operation of the processing devices that are operating according to the control signal from the power supply control device, and only the processing devices that require operation according to the amount of traffic are provided with In addition to supplying electricity, the system is configured to operate all air conditioners and provide lighting in accordance with the processing equipment that is in operation. is not provided, and the nine words and lighting are also limited.
Power savings can be realized and the objective of the invention is fully achieved.

(Example) Hereinafter, the present invention will be explained in more detail with reference to all the drawings.

FIG. 1 is a diagram illustrating an embodiment of the power saving scheme according to the present invention, and is a block diagram of a system comprising a number of processing devices.

In the figure, input 1 is the input to be processed by this system, and output 2 is the output processed by this system.

The processing bags [3a, 3b, 3C, .

The traffic monitoring device 4 constantly monitors the traffic fl- of the input 1 in this system, or monitors it from time to time. The power supply control device 5 for the processing device receives the current input l based on the control signal 8 from the traffic monitoring device 4.
Determine the number of processing devices sufficient to handle the total amount of traffic.

The power supply device 110 uses the control signal 9 from the power supply control device 5 to control the corresponding processing devices aa, ab, ac...
A staining force of 3nK is supplied to the power line 11.

The control signal 9 is also sent to the machine control unit 6 for determining the air conditioner required to cool the entire processing unit processing the input 1i at that time. The air conditioner full operation f6 instructs the air conditioner that needs to operate to p drive by the control signal 12.

Furthermore, the control signal 9 is sent to a lighting control device 7 which directs all the lighting required for the operation of the processing device currently operating. The lighting control device 7 sends a control signal 13 to the illuminator that needs to be turned on, and instructs all the illuminators to be turned on.

Figure 2 is a graph for explaining the control of the present invention, and shows how the traffic volume in this system increases over time.
When 0 changes, the relationship between the amount of traffic and the number of processing devices 21 that should be operated to process the traffic is shown.

Next, an outline of the operation of the embodiment of the present invention will be explained using FIGS. 1 and 2. Input 1 to be processed by the entire system is processed by processing devices 3a, 3b, 3c, . . . 3n, and becomes output 2. The maximum number N of processing devices to be operated at this time is a number sufficient to process the expected maximum traffic volume.

In Figure 2, input 1 in this system is time t
□, t2...The traffic volume shown by the solid line is 20 with respect to t8, and is constantly or timely monitored by the traffic monitoring device 4. Traffic f2 which is the result of this monitoring
0 is sent by the control signal 8 to the power supply device [5]. The power reception control device 5 determines the number of processing devices 21 to be operated based on the control signal 8, and sends a control signal to the power supply device 10 to supply power to the processing devices to be operated. In Fig. 2, the number of processing units is the operator for the traffic volume at to=tl, and the number of processing units is 2 between t1 and t2, and the following is 12-13, 13-t4 + t4-1.
6.1. ~t7 and t7 to t8, the number of processing devices is 3, 4, 5.4, and 2, respectively.

Therefore, N-n processing devices other than the number n of processing devices to be operated at each time point r do not need to be operated and do not need to be supplied with power.

As a result, the amount of heat generated in this system is limited to the number (n) of processing devices operating at each point in time, and the number of air conditioners that must cool them and the lighting required for operation are proportional to the number of processing devices n. can do. The air conditioner control device 6 and the lighting control device 7 each receive the control signal 6 from the power supply control device 5, determine the air conditioner to be operated and the lighting to be turned on, and issue instructions using control signals 12 and 13, respectively.

(Effects of the Invention) As described above in detail, the present invention has nine systems equipped with a plurality of processing devices, constantly or timely monitoring the amount of traffic to be processed by the system, and processing devices necessary to process the traffic amount. Since the total number of power supplies is determined and instructions are given to only the processing devices that should be operated, unnecessary power can be saved. ! In addition, as the power supply to the processing equipment is reduced, the amount of heat generated by the processing equipment is also reduced, and the operation of the air conditioner that cools the processing equipment can also be reduced. In addition, it is only necessary to turn on all the lights in only those parts of the processing device that are likely to be operated, and all other parts can be turned off, making it possible to further save power.

[Brief explanation of drawings]

l...Input 2...Output 3 a, 3
b, 3c, 3n---processing device 4...
・Traffic monitoring device 5...Power supply control bag f6...Air conditioner control device 7・
...Lighting control device 8.9, 12.13...Control signal 10...Power supply device 11...Power line 20...
・Traffic volume 21...Number of processing devices Patent applicant
NEC Corporation Representative Patent Attorney Jusai Inoro 1

Claims (1)

[Claims] In a system consisting of multiple processing devices equipped with air conditioners and lighting, a traffic monitoring device that constantly or timely monitors the amount of traffic to be processed by the system, and the number of processing devices that need to be activated based on the monitoring results of the traffic monitoring device. a power supply control device that supplies power to each of the processing devices according to a control signal from the power supply control device; and a power supply device that processes input according to the control signal from the power supply control device. An air conditioner control device that determines which air conditioner is necessary to cool the processing device and instructs its operation, and a lighting device that is necessary for the operation of the processing device that is operated by the control signal from the power supply control device. The system is equipped with a lighting control device that instructs the operation of the processing equipment, and supplies power only to the processing equipment that requires operation according to the amount of traffic, as well as operating air conditioners commensurate with the processing equipment in operation to provide lighting. A power saving method characterized by being configured as follows.