JP2010134633A - Rack mount system, rack apparatus, and method of controlling rack apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a rack mount system that facilitates design of a distribution board by implementing flexible power supply even if a required power value is exceeded in a structure using a plurality of rack apparatus, a rack apparatus for use therein, and a method of controlling a rack mount system. <P>SOLUTION: The power consumption of each rack apparatus 10 is controlled (capped) within power available to the rack apparatus 10. When the power consumption of each rack apparatus 10 exceeds the available power, the use of part of computer devices 100 is stopped. The stopped computer devices 100 are then powered up from other rack apparatus 10 having surplus power. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a rack mount system including a plurality of sets of rack apparatuses that accommodate a plurality of computer devices, a rack apparatus used therefor, and a rack apparatus control method.

  In departments using a large number of computer equipment such as data centers, a rack mount system is used in which various computer equipment are installed and installed in rack equipment for the purpose of improving the installation area efficiency and management efficiency. (For example, refer to Patent Document 1).

When a plurality of such rack devices are installed, power is distributed and supplied from the distribution board to the individual rack devices. The computer apparatus mounted on the rack apparatus is supplied with power by connecting the computer apparatus to a power distribution unit provided in the rack apparatus.
JP 2007-324427 A

  The design of the distribution board for connecting the rack devices is performed using the capacity required for the maximum configuration of the rack mount system. In recent years, as the required power capacity of computer equipment mounted on rack devices has increased, the influence on the distribution board has increased. That is, there is an increasing number of cases in which it is desired to design a distribution board with a power value corresponding to the configuration of computer equipment actually mounted on the rack device. In many cases, the upper limit of power that can be used per rack apparatus is determined in a data center. For this reason, measures are taken by using a tool for estimating the power value according to the actual configuration. However, in any case, the estimation of the power value according to the actual configuration and the design of the distribution board based on the estimation require a great deal of labor and cost.

  In addition, when the distribution panel is designed with the estimated value, an unexpected situation that could not have been predicted with the prior estimate occurs, and if the power value is exceeded, it cannot be guarded. The effect on the panel will occur.

  The present invention has been made in view of such circumstances, and in a configuration using a plurality of rack devices, even when an excess of a required power value or the like occurs, a power supply is flexibly performed, and a distribution board It is an object of the present invention to provide a rack mount system that can be easily designed, a rack apparatus used therefor, and a rack apparatus control method.

  The rack mount system of the present invention based on such an object is a rack mount system that includes a plurality of sets of rack devices that are equipped with a plurality of computer devices and supply power to the individual computer devices. The rack devices are respectively connected to a first power supply system that supplies power from a power supply source, and are connected to each other by a second power supply system for supplying power between a plurality of sets of rack devices. While the rack device is operating upon receiving power from the first power supply system, it detects the power used in each of the computer devices mounted on the rack device, and the total value of the detected power used is preset. When the power usage upper limit value is exceeded, power is supplied from another rack device through the second power supply system.

  The rack apparatus of the present invention is a rack apparatus that mounts a plurality of computer devices and supplies power to individual computer devices, and includes a plurality of power supply ports that supply power to each of the computer devices, and power supply in the power supply ports. A power meter that detects the amount, a first power supply system that receives power from an external power supply source, a second power supply system that receives power from other rack devices, and a power port, The power supply system selection means that is selectively connected to either the first power supply system or the second power supply system, and the total value of the power supply amount in all the power measuring devices provided in the rack device is calculated. To detect the total value of used power, and supply power to other rack devices when the detected total value of used power exceeds the preset upper limit value of used power A control unit for requesting, characterized in that it comprises a.

  A rack device control method according to the present invention is a rack device control method in a rack mount system in which a plurality of computer devices are mounted and a plurality of rack devices for supplying power to each computer device are provided. A step of detecting power usage in each of the computer devices mounted on the apparatus; a step of determining whether or not the total value of the detected power usage exceeds a preset power usage upper limit; and a total of power usage Receiving a power supply from another rack device when the value exceeds the power usage upper limit value.

  According to the present invention, when the power used in each of the computer devices mounted on the rack device is detected, and the total value of the detected power used exceeds the preset power usage upper limit value, the other rack device By receiving the power supply from the power supply, the power supply can be flexibly performed even when the required power value is exceeded, and the distribution board can be easily designed.

Embodiments according to the present invention will be described below with reference to the drawings.
As shown in FIG. 1, the rack mount system A includes a plurality of rack devices 10 (two in the example of FIG. 1).
Each rack apparatus 10 can be equipped with a plurality of computer devices 100. The rack apparatus 10 has, for example, a substantially square shape that is open front and rear, and support guide rails (not shown) for supporting the computer equipment 100 mounted on the rack apparatus 10 are provided on the side frames on both sides thereof. It is provided in a plurality of stages at predetermined intervals in the vertical direction.

  Each rack apparatus 10 includes a power distribution unit 20 that distributes power to the mounted computer apparatus 100 and a control apparatus 30 that controls power supply to each computer apparatus 100 mounted on the rack apparatus 10. Prepare.

As shown in FIG. 2, the power distribution unit 20 is mounted on each power receiving port 21 that receives power supplied from an external distribution board (power supply source: not shown) and each stage of the rack device 10. An outlet plug 101 of the computer device 100 is connected, and a power supply port 22 for supplying power to the computer device 100 is provided.
Further, as shown in FIG. 1, the power distribution unit 20 is connected to the power distribution unit 20 of the other rack apparatus 10 constituting the rack mount system A via the inter-rack connection line (second power supply system) 23. Are electrically connected. As shown in FIG. 3, in the power distribution unit 20, the power port 22 includes an inter-rack connection line 23 and a power receiving line (first power supply system) 24 from the power receiving port 21. It is connected via a switch (power supply system selection means) 25. By switching the power port switch 25 under the control of the control device 30, the system that receives power supply to the power port 22 can be switched between the inter-rack connection line 23 and the power receiving line 24. The power supply port switch 25 can turn off the power supply itself to the power supply port 22 by disconnecting both the inter-rack connection line 23 and the power receiving line 24.
Further, between the power supply port 22 and the power supply port switch 25, a power measuring device 26 for measuring the power supplied by the power supply port 22 is provided. The power measuring device 26 is connected to the control device 30 via the signal line 26s, and transfers the power value measured by the power measuring device 26 to the control device 30 at regular intervals.

  Further, in the vicinity of the power port 22, there are a detection switch 27 for detecting that the outlet plug 101 is inserted into the power port 22, an IC tag reading sensor 28, an LED indicating the state of the power port 22, and the like. A display lamp 29 is provided.

  The detection switch 27 is composed of, for example, a pressure switch, and is connected to the control device 30 via a signal line 27s. When the outlet plug 101 is connected to the power port 22, the detection switch 27 outputs a signal indicating that the outlet plug 101 is connected to the control device 30 via the signal line 27 s.

The outlet plug 101 of each computer device 100 is provided with an IC tag 102 assigned in advance for each computer device 100. The IC tag 102 includes, as information unique to the computer device 100, for example, an estimated power value that is an estimated amount of power value when the computer device 100 is operated, policy information indicating the priority order of the computer device 100, a computer Information indicating the IP address or the like of the device 100 is stored.
The reading sensor 28 is connected to the control device 30 via a signal line 28s. The reading sensor 28 detects the presence / absence of a signal output from the IC tag 102 within a surrounding communicable range, for example, at regular time intervals. When the signal from the IC tag 102 is detected, the reading sensor 28 reads the information from the IC tag 102 of the outlet plug 101 connected to the power supply port 22, and transfers the read information to the control device 30.

  The display lamp 29 displays information such as the state of the power supply port 22, for example, whether or not power is being supplied from the power supply port 22, depending on whether the lamp is lit or not, and the color of the lit lamp. The display lamp 29 is connected to the control device 30 by a signal line 29 s and outputs a signal indicating the display state of the display lamp 29 to the control device 30.

The control device 30 executes predetermined processing in cooperation with an arithmetic processing unit, a memory, and the like (not shown) according to a signal input from the outside by a predetermined computer program. As shown in FIG. 2, the control device 30 is generated by a database (priority information storage unit, power usage estimated value storage unit) 31 for storing various types of information in a predetermined process and a predetermined process. And a status display unit 32 including a lamp, a monitor and the like for displaying (outputting) information indicating the power supply status in the rack apparatus 10 to the outside.
The control device 30 is connected to each computer device 100 via a control LAN (Local Area Network) 33 provided in the rack device 10, and can control the shutdown of each computer device 100.
Furthermore, the control devices 30 mounted on each rack device 10 are connected by an inter-rack communication LAN 34 so that communication with the control devices 30 of the other rack devices 10 is possible.
Such a control apparatus 30 maintains the operation which observes the setting upper limit of electric power in each rack apparatus 10 unit. In addition, when a shortage of power occurs in each rack device 10, the power path is switched, and the other rack devices 10 having surplus power are not involved without physical movement of the device 100. The control which receives supply of is executed.
This will be described in detail below.

Next, the operation of this embodiment will be described using the control flow shown in FIG.
In the database 31 of the control device 30, the maximum power value (target value) in the rack device 10 can be registered from the outside, and the maximum power value is set in advance and stored in the database 31 before the use of the rack device 10 is started. Has been.
When the outlet plug 101 of each computer device 100 mounted on the rack apparatus 10 is inserted into each power supply port 22 of the power distribution unit 20 (step S101), the detection switch 27 in the power supply port 22 is turned on (step S102). . Then, the power port 22 of the rack apparatus 10 is turned on, and power is supplied from the power port 22 to the computer apparatus 100 (step S103).
At this time, as the detection switch 27 is turned on, the reading sensor 28 of the power supply port 22 operates, and the information of the IC tag 102 of the outlet plug 101 is read. The IC tag 102 stores an IP address of the computer device 100, a policy (priority order) of the computer device 100, and an estimated value of power used by the computer device 100. In the reading sensor 28, these pieces of information are read from the IC tag 102 and transmitted to the control device 30. Upon receiving these pieces of information, the control device 30 registers the information in the database (DB) 31 and constructs configuration database information in association with information (for example, power supply port No.) identifying each power supply port 22 as shown in FIG. (Step S104). Then, from the configuration database information, a total value of estimated power values in the computer equipment 100 connected to each power supply port 22, that is, a total power consumption estimated value α in the entire rack apparatus 10 is calculated. The calculated total power consumption estimated value α is stored in the database 31 and displayed on the state display unit 32 provided in the control device 30.

Thereafter, during the operation of the computer device 100, the power measuring device 26 of each power port 22 that is turned on measures the power actually supplied from the power port 22 to the computer device 100 at regular intervals. By carrying out, the actual power consumption of the computer device 100 is detected, and the measured value information is notified to the control device 30 (step S105).
The control device 30 compares the measured value of each power supply port 22 with the estimated value of power used by the computer device 100 read from the IC tag 102 (step S106). As a result, when the measured value is smaller than the estimated value, the process returns to step S104 to update the configuration database information. On the other hand, when the measured value is larger than the estimated value, the power as the computer equipment 100 is over, so the total amount of power used by the entire rack apparatus 10 is registered in the rack apparatus 10. Check if the maximum power value (target value) is exceeded. For this reason, the control device 30 multiplies the target value registered in the rack device 10 by a threshold value (for example, 90%) and all computer equipment 100 mounted on the rack device 10 that can be acquired from the configuration database information. Is compared with the total value β of the measured values (step S107). At this time, if the total value β of the measured values is below the target value, the process returns to step S104, the contents of the configuration database information are updated, and the state is maintained. On the other hand, when the total value β of the measured values exceeds the target value, the control for preventing the used power from exceeding the target value, that is, the power ceiling control process is performed as follows.

In the power ceiling control, in the comparison in the previous step S107, in order to lower the total value β of the measured values that are higher than the target value registered in the rack device 10 multiplied by the threshold value, This is done by cutting off the power supply to the computer device 100. For this purpose, a combination of computer devices 100 is searched for such that the total value β of actual power consumption values is lower than the product of the target value and the threshold value.
Therefore, first, it is confirmed whether or not the policy (priority order) of the computer device 100 is set (step S108). When the policy (priority order) of the computer device 100 is not set, the computer device 100 that has previously exceeded power is identified as a target to stop power supply. Then, a stop (shutdown) instruction is issued from the control device 30 to the IP address corresponding to the computer device 100 identified as the target to stop power supply via the control LAN 33 (step S109). As a result, the computer device 100 identified as the target whose power supply is to be stopped stops.
Thereafter, the control device 30 stops the power supply to the computer device 100 by turning off the power port switch 25 of the power port 22 to which the computer device 100 identified as the target to stop the power supply is connected. (Step S110). At the same time, the display lamp 29 of the power port 22 with the power port switch 25 turned off is switched to a lighting state indicating that the power supply is stopped (step S111).

On the other hand, when the policy (priority order) of the computer device 100 is set, the power supply to some of the computer devices 100 among the computer devices 100 whose information is registered in the configuration database information is stopped. The measured values in the remaining computer equipment 100 are added together (step S112). The total of the measured values is performed in the same manner by sequentially changing the computer devices 100 that stop power supply from the low priority to the high priority. Further, the computer device 100 that stops the power supply is not limited to one, and a plurality of computers can be combined. Also in that case, in each combination, the measured values in the remaining computer devices 100 other than the computer device 100 that stops power supply are summed.
Next, it is determined whether or not there is a condition that the sum of the measured values obtained in step S112 is lower than the target value (step S113). When there are a plurality of conditions in which the total value of the measured values is lower than the target value, the condition including the computer device 100 having the lowest priority is selected.
Then, the selected computer device 100 (one to a plurality of computers) is identified as the computer device 100 that is a target to stop power supply. A stop (shutdown) instruction is issued from the control device 30 to the IP addresses corresponding to all the computer devices 100 identified as the power supply stop target via the control LAN 33 (step S114). As a result, all of the computer devices 100 identified as the targets for stopping the power supply are stopped.
Then, the power port switch 25 of the power port 22 to which the computer device 100 that is the target of stopping the power supply is connected is turned OFF to stop the power supply to the computer device 100 (step S115). At the same time, the display lamp 29 of the power port 22 with the power port switch 25 turned OFF is switched to a lighting state indicating that the power supply is stopped (step S116).

    In this way, for each rack apparatus 10, an operation for keeping the upper limit of the power consumption is maintained.

    In addition, when the above steps S111 and S116 are performed, the control device 30 detects that a forced power stop has occurred (step S117).

Further, in the rack apparatus 10, when the power supply to some computer equipment 100 is stopped because the upper limit of the power consumption is exceeded, the power supply path is switched, and the surplus is performed without the physical movement of the equipment 100. The processing for receiving the supply from the other rack apparatus 10 having the electric power to be performed is performed.
That is, first, subsequent to step S117, in the rack apparatus 10 that has stopped supplying power to the computer apparatus 100, the power information (of the IC tag 102) of the computer apparatus 100 whose power supply is to be stopped in steps S109 and S114. The total value of (estimated value information) is calculated.
Then, the inter-rack communication LAN 34 determines whether or not it is possible to supply power to the computer device 100 that is the target of stopping power supply in steps S109 and S114 to the control device 30 mounted on the other rack device 10. (Step S120). The control device 30 of the other rack device 10 that has received the inquiry receives the computer device 100 that is the target of stopping power supply in addition to the power state of the own rack device 10 at that time, and the rack device It is compared whether or not the target value of 10 is satisfied (step S121).
If it does not satisfy the target value, it is unacceptable (cannot be migrated), and if it satisfies the target value, it is acceptable (can be migrated) to the control device 30 of the rack apparatus 10 as the inquiry source. (Steps S122 and S123). The control device 30 that has received the reply cannot accept it, and if another rack device 10 exists, the control device 30 is again inquired (steps S124 and S120).
On the other hand, if the acceptance is possible, the configuration database information reflects that the computer apparatus 100 that is the target of stopping power supply is transferred to power supply from another rack apparatus 10.

Thereafter, in the rack apparatus 10 having the receiving control apparatus 30, the power port switch 25 is switched so that power is supplied from the power receiving line 24 side to the inter-rack connection line 23. On the other hand, in the rack apparatus 10 equipped with the computer equipment 100 that is the target of stopping power supply, the power port switch 25 is switched so that power is supplied from the inter-rack connection line 23 to the computer equipment 100.
Then, by turning on the power port switch 25, the computer apparatus 100 that is the target of stopping the power supply is put into an operating state again. As a result, the computer apparatus 100 that is the target of stopping the power supply operates by receiving the power supply from the other rack apparatus 10.
Furthermore, it is reflected in the configuration database information that the computer apparatus 100 that is the target of stopping power supply has been transferred to power supply from another rack apparatus 10 (step S125).

As described above, the present invention has the following effects.
First, since the power used (ceiling control) is controlled for each rack device 10 so that the power that the rack device 10 does not exceed is allowable, the influence on the distribution board (not shown) should be minimized. Can do.
Further, in each rack device 10, when the power used exceeds the allowable power, the surplus power in the other rack devices 10 can be supplied. Therefore, in the configuration using the plurality of rack devices 10, even when the required power value is exceeded, the power supply is flexibly performed without the physical movement of the computer apparatus 100, thereby stabilizing the power supply. Can be done. As a result, a distribution board (not shown) can be easily designed.

  In each of the above-described embodiments, only two rack apparatuses 10 are provided. However, any number of rack apparatuses 10 may be used as long as the number of rack apparatuses 10 is plural.

1 is a diagram showing a schematic configuration of a rack mount system according to an embodiment of the present invention. It is a figure which shows the structure of a rack apparatus. It is a figure which shows the structure of the electric power distribution part of a rack apparatus. It is a figure which shows the flow of the electric power supply control in a rack apparatus. It is a figure which shows an example of structure database information.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Rack apparatus 20 Power distribution part 21 Power receiving port 22 Power supply port 23 Connection line between racks (2nd power supply system)
24 Power receiving line (first power supply system)
25 Power port switch (Power supply system selection means)
26 power measuring instrument 27 detection switch 28 sensor 30 control device 31 database (priority information storage unit, power consumption estimated value storage unit),
32 Status display section 33 Control LAN
34 LAN for inter-rack communication
100 Computer Equipment 101 Outlet Plug 102 IC Tag A Rack Mount System

Claims (9)

A rack mounting system comprising a plurality of sets of rack devices that are equipped with a plurality of computer devices and supply power to each of the computer devices,
The plurality of sets of rack devices are respectively connected to a first power supply system that supplies power from a power supply source, and a second power supply system for supplying power between the plurality of sets of rack devices Connected to each other by
The rack device detects power used in each of the computer devices mounted on the rack device during operation in response to the supply of power from the first power supply system,
A rack that receives power supply from another rack device via the second power supply system when the total value of the detected power usage exceeds a preset power consumption upper limit value. Mount system. The rack device is
A plurality of power supply ports for supplying power to each of the computer devices mounted in the rack device;
A power meter for detecting the amount of power supplied at the power port;
Power supply system selection means for selectively connecting the power port to either the first power supply system or the second power supply system;
The total value of the used power is detected by calculating the total value of the power supply amount in all the power measuring devices provided in the rack device, and the detected total value of the used power is preset. A control unit that requests power supply to the other rack device when the power usage upper limit is exceeded;
The rack mount system according to claim 1, further comprising:   The said control part connects the said power supply port to said 2nd electric power supply system in the said electric power supply selection means, when receiving electric power supply from the said other rack apparatus. Rack mount system.   The control unit supplies power to some of the computer devices among the plurality of computer devices mounted on the rack device when a total value of the power usage exceeds the power usage upper limit value. The rack mounting system according to any one of claims 1 to 3, wherein the rack mounting system is stopped. For each of the computer devices mounted on the rack device, further comprising a priority information storage unit for storing information indicating a preset priority.
The control unit refers to the priority order information storage unit when the total value of the power usage exceeds the power usage upper limit value, and among the plurality of computer devices mounted on the rack device, The rack mount system according to any one of claims 1 to 4, wherein power supply to the computer device having a low priority is stopped. For each of the computer devices mounted in the rack device, the computer device further includes a power usage estimated value storage unit that stores a preset power consumption estimated value.
When the total value of the used power exceeds the used power upper limit value, the control unit refers to the measured values of the used power estimated value storage unit and the power measuring device, and the measured value is used as the used value. The rack mounting system according to any one of claims 1 to 4, wherein the computer device that exceeds an estimated power value is specified, and power supply to the specified computer device is stopped.   When the control unit is requested to supply power from another rack device, the total value of the power used in the rack device provided with the control unit is less than the power usage upper limit value, The rack mounting system according to any one of claims 1 to 6, wherein power is supplied to the other rack device. A rack apparatus equipped with a plurality of computer devices and supplying power to each of the computer devices,
A plurality of power ports for supplying power to each of the computer devices;
A power meter for detecting the amount of power supplied at the power port;
A first power supply system that receives power from an external power supply;
A second power supply system that receives power from other rack devices;
Power supply system selection means for selectively connecting the power port to either the first power supply system or the second power supply system;
The total value of the used power is detected by calculating the total value of the power supply amount in all the power measuring devices provided in the rack device, and the detected total value of the used power is preset. A rack device, comprising: a control unit that requests power supply to the other rack device when an upper limit value of power usage is exceeded. A method of controlling the rack device in a rack mount system, which is equipped with a plurality of rack devices that are equipped with a plurality of computer devices and supply power to the individual computer devices,
Detecting power used in each of the computer devices mounted on the rack device;
Determining whether or not the total value of the detected power used exceeds a preset power usage upper limit;
Receiving a power supply from another rack device when the total value of the power usage exceeds the power usage upper limit;
A method for controlling a rack apparatus, comprising:

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