JP3776054B2 - Device monitoring system and device monitoring method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a device monitoring system, a device monitoring method, and a program for monitoring the operating state of devices such as servers and communication devices installed in a data center.
[0002]
[Prior art]
In recent years, the Internet has become widespread as ordinary people use the Internet widely. As described above, the Internet has spread to the general public, largely due to the Internet provider that provides a connection service to the Internet.
In order to provide Internet connection services, Internet providers need various servers such as mail servers, database servers, billing servers, and communication control devices. These devices are installed in data centers. 24 hours a day, all year round without stopping.
Therefore, these devices are required to monitor the operation state at a high level.
[0003]
[Problems to be solved by the invention]
However, in the data center, the conventional monitoring of various servers, communication control devices, and the like has only been performed by a dedicated person who monitors the operating status of the devices such as servers by human work. .
For this reason, there is a problem that labor costs for monitoring the apparatus are increased, the operating cost of the data center is increased, and it cannot be said that the monitoring method is efficient.
[0004]
In view of the above-described problems, an object of the present invention is to provide a device monitoring system, a device monitoring method, and a program capable of efficiently monitoring a facility device installed in a data center.
Another object of the present invention is to provide a device monitoring system, a device monitoring method, and a program that can reduce the cost required for operation management in a data center.
[0005]
[Means for Solving the Problems]
  In order to achieve the above object, an apparatus monitoring system according to the first aspect of the present invention provides:
  A distributed control device that controls an operation status detector that detects an operation status of a device accommodated in a rack by communication control according to the Rontalk protocol, and the operation of the device connected to the distributed control device via a network A device monitoring system comprising a monitoring device for monitoring the state,
  The distributed control device
  Monitoring information acquisition means for acquiring monitoring information indicating contents for monitoring the operating state of the device from the device to be controlled;
  Open / close detecting means for detecting opening / closing of the rack door;
  Monitoring information supply means for supplying the monitoring information acquired by the monitoring information acquisition means to the monitoring device via the network;
  Detection information supply means for supplying detection information indicating the detection content by the open / close detection means to the monitoring device via the network;
  Comprising
  The monitoring device
  Monitoring information acquisition means for acquiring the monitoring information supplied from the distributed control device via the network;
  Detection information acquisition means for acquiring the detection information supplied from the distributed control device via the network;
  Based on the monitoring information acquired by the monitoring information acquisition unit, an operating state detection unit that detects an operating state of the device;
  Be equippede,
  The distributed control device further includes an opening / closing control unit that controls opening / closing of the rack door based on an instruction from the monitoring device according to the detection information supplied by the detection information supply unit.
  It is characterized by that.
[0006]
According to such a configuration, it is possible to efficiently monitor devices installed in the data center. Further, it is possible to reduce the cost required for operation management required for the data center.
[0007]
The distributed control device
Threshold acquisition means for acquiring a threshold for outputting a warning for the operating state of the device, supplied from the monitoring device;
When the monitoring information acquired from the monitoring information acquisition unit is equal to or greater than or less than the threshold acquired by the threshold acquisition unit, warning information supply that supplies warning information indicating a warning about the operating state of the device to the monitoring device Means,
Comprising
The monitoring device
Threshold setting means for setting the threshold;
Threshold supply means for supplying the threshold set by the threshold setting means to the distributed control device;
Warning information acquisition means for acquiring the warning information supplied from the distributed control device;
When the warning information is acquired by the warning information acquisition means, warning display means for displaying information indicating a device that is the target of the warning;
You may make it prepare.
As a result, it is possible to immediately know the device that is considered to be in an abnormal operating state.
[0008]
The monitoring device
When the warning information is acquired by the warning information acquisition means, warning history data generation means for generating warning history data indicating a history of the warning based on the acquired warning information;
Warning history data writing means for writing the warning history data generated by the warning history data generating means into storage means;
You may make it provide.
As a result, it is possible to collect data for knowing the cause of an apparatus whose operating state shows an abnormality.
[0009]
The monitoring device
Trend display means for displaying a trend of monitoring information based on the monitoring information of the monitored apparatus detected by the operating state detection means,
You may make it provide.
As a result, it is possible to collect data for knowing the cause of an apparatus whose operating state shows an abnormality.
[0010]
The monitoring information may be a current value supplied to an apparatus accommodated in the rack, or a temperature in the rack.
[0011]
  An apparatus monitoring method according to the second aspect of the present invention includes:
  From the operating status detector that detects the operating status of the device provided in the rack, monitoring information indicating the content of monitoring the operating status of the device is acquired by communication control according to the Rontalk protocol,
  Information indicating opening and closing of the rack door is acquired as the monitoring information by communication control according to the Rontalk protocol,
  Based on the acquired monitoring information, the operating status of the device is detected.Shi,
  Based on the acquired monitoring information, the door of the rack is controlled to open and close.
  It is characterized by that.
[0012]
According to such a configuration, the equipment installed in the data center can be efficiently monitored. Further, it is possible to reduce the cost required for operation management required for the data center.
[0013]
Set a threshold for outputting a warning for the operating state of the device,
When the acquired monitoring information is greater than or less than the set threshold value, warning information indicating a warning for the operating state of the apparatus may be displayed.
As a result, it is possible to immediately know the device that is considered to be in an abnormal operating state.
[0014]
When the warning information is acquired, based on the acquired warning information, warning history data indicating a history of the warning is generated,
The generated warning history data may be written in the storage means.
As a result, it is possible to collect data for knowing the cause of an apparatus whose operating state shows an abnormality.
[0015]
A trend of monitoring information may be displayed based on the detected monitoring information of the monitored apparatus.
As a result, it is possible to collect data for knowing the cause of an apparatus whose operating state shows an abnormality.
[0016]
  A program according to the third aspect of the present invention is:
  A procedure for acquiring monitoring information indicating the content of monitoring the operating status of the device from the operating status detector for detecting the operating status of the device provided in the rack via the network;
  A procedure for obtaining information indicating opening / closing of the rack door as the monitoring information via the network,
  A procedure for detecting the operating state of the device based on the acquired monitoring information;
  A procedure for controlling opening and closing of the rack door based on the obtained monitoring information;
  Is executed on the computer.
[0017]
According to such a configuration, the equipment installed in the data center can be efficiently monitored. Further, it is possible to reduce the cost required for operation management required for the data center.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
A device monitoring system according to an embodiment of the present invention will be described below.
[0019]
FIG. 1 is a block diagram showing a configuration of a device monitoring system according to an embodiment of the present invention.
The apparatus monitoring system of this embodiment is a system that monitors the operating state of apparatuses composed of various servers, communication control devices, and the like housed in a plurality of racks installed in an Internet data center.
Items for monitoring the operating state of the apparatus include the value of current flowing through each rack, the temperature of each rack, and the open / closed state of the rack door.
[0020]
As shown in FIG. 1, the facility device monitoring system of this embodiment includes a monitoring device 10 and a distributed control device 11 accommodated in a plurality of racks 15 installed on each of the first to nth floors. It is composed of
In addition, i racks 15 are installed on the first floor, k racks 15 are installed on the second floor, and m racks 15 are installed on the nth floor.
[0021]
The monitoring device 10 and each distributed control device 11 are connected to a network 14.
[0022]
The monitoring device 10 and each distributed control device 11 transmit information by TCP / IP (Transmission Control Protocol / Internet Protocol) or Lon Talk Protocol.
[0023]
As shown in FIG. 2, the monitoring device 10 includes a control unit 101, a main storage unit 102, an input unit 103, a display unit 104, a communication control unit 105, a timer 106, and an external storage unit 107. Each part is connected to the internal bus 108.
[0024]
The control unit 101 includes a CPU (Central Processing Unit) and the like, and by executing a control program stored in the main storage unit 102, based on the control information input from the distributed control device 11, the control unit 101 Monitor.
The main storage unit 102 is configured by a RAM (Random Access Memory) or the like, stores the control program, and is used as a work area of the control unit 101.
The input unit 103 includes a keyboard, a mouse, and the like, and outputs a keyboard pressing signal and a mouse operation signal pressed by an operator's operation to the control unit 101.
The display unit 104 includes a CRT (Cathode Ray Tub), a liquid crystal display device, and the like, and displays display data and the like output from the control unit 101.
[0025]
The communication control unit 105 controls communication with each distributed control device 11 via the network 14.
The timer 106 outputs the time information to the control unit 101.
[0026]
The external storage unit 107 includes a hard disk device or the like, and includes a control data DB 107a, a warning log DB 107b, a threshold setting list 107c, a floor plan storage file 107d, and a display data storage file 107e.
[0027]
As shown in FIG. 3, the control data DB 107 a stores control data indicating the operating state of the devices accommodated in the rack 15.
The control data includes the rack No., the time when the control data is received, the current value received from the current sensor installed in the rack, the temperature input from the temperature sensor installed in the rack 15, and the opening / closing of the door It has data items consisting of states.
[0028]
As shown in FIG. 4, the warning log DB 107 b stores warning data indicating warning information received from each distributed control device 11.
The warning data includes data items including a rack number (rack No) accommodating the distributed control device 11 that issued the warning, a time when the warning data is received, a current value at that time, and a temperature in the rack 15.
[0029]
As shown in FIG. 5, the threshold setting list 107c stores data (hereinafter referred to as threshold data) for specifying a threshold for the distributed control apparatus 11 to output warning data.
The threshold data includes data items including a rack No. that accommodates the equipment, a current value threshold, and a temperature threshold.
[0030]
As shown in FIG. 6, the floor diagram storage file 107d stores a floor diagram showing the arrangement of the racks 15 installed on each floor.
[0031]
The display data storage file 107e stores display data displayed on the display unit 104 for generating a display screen described later.
[0032]
The distributed control apparatus 11 shown in FIG. 1 has an event-driven task scheduling and is installed in each rack 15.
As shown in FIG. 7, the distributed control device 11 includes a neuron chip 111, a RAM 112, a ROM (Read Only Memory) 113, an RTC (Real Time Clock) 114, a transceiver 115, an A / D converter 116, a relay control circuit 117, An input / output circuit 118, a current warning lighting LED 119, and a temperature warning lighting LED 120 are provided.
[0033]
The neuron chip 111 is a microcomputer dedicated to Lon Works, and executes processing to be described later in accordance with a control program described in the neuron C.
[0034]
The RAM 112 serves as a buffer when the neuron chip transmits / receives information, and stores network variables such as output variables and input variables necessary for transmitting information on the LAN.
A ROM (Read Only Memory) 113 stores the control program.
An RTC (Real Time Clock) 114 generates a signal having a fixed period in order to take circuit timing.
[0035]
The transceiver 115 extracts only the Rontalk packet transmitted on the Rontalk protocol, cuts the noise into a clean pulse, and amplifies the pulse.
[0036]
The A / D converter 116 changes an analog signal into a digital signal.
The relay control circuit 117 is a circuit that controls a relay that turns on and off the electromagnetic lock that opens and closes the rack door.
The input / output circuit 118 controls the input / output of the current value measured by the temperature sensor, the current value flowing through the apparatus, and the current flowing through the limit switch.
[0037]
The current warning lighting LED 119 is installed on the display panel on the front surface of the distributed control device 11, and is displayed when the current flows to a predetermined reference value or more.
The temperature warning lighting LED 120 is installed on the display panel on the front surface of the distributed control device 11 and is displayed when the temperature is equal to or higher than a predetermined reference value.
[0038]
Next, the operation of the apparatus monitoring system according to this embodiment is as follows: 1) an operation for setting a threshold value for current and temperature, 2) an operation for monitoring current or temperature, 3) the current or temperature exceeds a predetermined threshold value Operations that are sometimes processed, 4) electromagnetic lock that opens and closes the rack door, and operations that perform so-called general-purpose external device control that controls a limit switch that detects opening and closing of the rack door will be described.
[0039]
1) Regarding the operation of setting a predetermined threshold for current and temperature,
FIG. 8 is a flowchart showing an operation of setting threshold values for current and temperature in each distributed control device 11 constituting the device monitoring system according to this embodiment.
[0040]
An administrator of the Internet data center (hereinafter referred to as an administrator) displays the process selection screen 500 on the display unit 104 and inputs an instruction to the input unit 103. Then, the monitoring apparatus 10 reads display data for displaying the process selection screen 500 stored in the display data storage file 107e of the external storage unit 107, and outputs the read display data to the display unit 104.
[0041]
As shown in FIG. 9A, the process selection screen 500 includes the selection content display field 501 and an “OK” button 502.
The selection content display field 501 includes 1) a threshold value setting process display field for setting a threshold value, and 2) a trend process display for trending a current value flowing through a device accommodated in the rack 15 or a temperature in the rack 15. Columns, 3) a warning processing display column for performing warning processing when the current flowing in the device accommodated in the rack 15 or the temperature in the rack is abnormal, and 4) detecting the opening / closing of the door of each rack 15 The door opening / closing detection process display column is provided.
[0042]
Upon receiving the display data, the display unit 104 displays a process selection screen 500 (step S1). Thereafter, when the “threshold setting process” displayed in the process selection content display field 501 in the process selection screen 500 is clicked by the operation of the administrator and then the “OK” button 502 is clicked, the monitoring device 10 The input unit 103 outputs to the control unit 101 that the “threshold setting processing field” has been clicked (step S2).
[0043]
When the control unit 101 inputs that the “threshold setting processing field” is clicked, the threshold setting processing display screen 550 shown in FIG. 9B is displayed from the display data storage file 107e of the external storage unit 107 stored in advance. The display data for displaying is read, and the read display data is output to the display unit 104. Then, the display unit 104 displays a threshold setting process display screen 550 (step S3).
[0044]
The threshold setting process display screen 550 shown in FIG. 9B includes 1) a floor NO input field 551 for inputting a floor number, 2) a rack number input field 552 for inputting a rack number, and 3) a predetermined current or more. A threshold current value input field 553 for inputting a threshold current value when the distributed control device 11 outputs a warning signal when current flows; and 4) a warning signal when the temperature rises above a predetermined temperature. Threshold value input field 554 for inputting a threshold temperature value for outputting “5”, and 5) “OK” button 555.
[0045]
Thereafter, the floor NO input field 551, the rack number input field 552, the threshold current value input field 553, and the threshold temperature value input field 554 in the threshold value setting process display screen 550 displayed on the display unit 104 by the operation of the administrator. When the floor number, the rack number, the threshold current value, and the threshold temperature value are input to each, and the “OK” button 555 is clicked, the display unit 104 displays the input floor number, rack number, threshold current value, and The threshold temperature is output to the control unit 101.
[0046]
Upon receiving the floor number, rack number, threshold current value, and threshold temperature value from the display unit 104, the control unit 101 registers them in the threshold setting list 107c shown in FIG. 5 (step S4).
Thereafter, the control unit 101 outputs the threshold current value and the threshold temperature value to the distributed control device 11 installed in the rack having the corresponding floor number and the corresponding rack number (step S5).
[0047]
When the threshold current value and the threshold temperature value are input via the transceiver 115 to the neuron chip 111 of the distributed control device 11 specified by the floor number and the rack number, the input threshold current value and threshold value are input. The temperature value is stored in the RAM 112 (step S6). Thereafter, the neuron chip 111 transmits the received threshold current value and threshold temperature value to the monitoring apparatus 10 via the transceiver 115 (step S7), and ends the process.
[0048]
2) For operations that trend current and temperature,
FIG. 10 is a flowchart showing an operation in which the apparatus monitoring system according to this embodiment trends the current and temperature flowing through the rack 15.
The administrator displays the process selection screen 500 on the display unit 104 and inputs an instruction to the input unit 103. Then, the monitoring apparatus 10 reads display data for displaying the process selection screen 500 stored in the external storage unit 107 on the display unit 104, and outputs the read display data to the display unit 104.
[0049]
Upon receiving the display data, the display unit 104 displays a process selection screen 500 (step S11). Thereafter, when an “OK” button 502 is clicked after the “trend processing column” displayed in the selection content display column 501 in the processing selection screen 500 is clicked by the operation of the administrator, the monitoring device 10 The input unit 103 outputs that the “trend processing column” has been clicked to the control unit 101 (step S12).
[0050]
The control unit 101 reads display data for displaying the trend processing display screen 600 from the display data storage file 107 e in the external storage unit 107 in advance, and outputs the read display data to the display unit 104. Then, the display part 104 displays the trend process display screen 600 shown in FIG. 11 (step S13).
[0051]
The trend processing display screen 600 includes 1) a floor NO input field 601 for inputting a floor number, 2) a rack NO input field 602 for inputting a rack number, and 3) a “Yes” button 603 that is clicked when trending current. 4) “No” button 604 to be clicked if not, 5) Trend period input fields 605, 606, 6 for inputting a period for trending current 6) “Yes” buttons 607, 7 to be clicked for trending temperature ) “No” button 608 to be clicked when it is not, 8) Trend period input fields 609, 610, and 9) “OK” button 611 for inputting a period during which the temperature is trended.
[0052]
Necessary portions such as the input fields 601 and 602 displayed on the trend processing display screen 600 are input by the operation of the administrator, and the corresponding portions of the “Yes” buttons 603 and 607 and “No” buttons 604 and 608 are displayed. After clicking, when the “OK” button 611 is clicked, the display unit 104 outputs the input content to the control unit 101.
[0053]
When the control unit 101 inputs the input content from the display unit 104, the control unit 101 sets the current or temperature as a trend target to the distributed control device 11 installed in the rack of the rack number at the floor number for a predetermined period. The trend instruction data for outputting is output (step S14).
[0054]
When the neuron chip 111 of the distributed control device 11 receives the floor number, the rack number, the current or temperature as a trend target, and trend instruction data (not shown) indicating the trending period, the trend instruction data is stored in the RAM 112. Store (step S15).
[0055]
Thereafter, the neuron chip 111 acquires the current value flowing from the current sensor (CT sensor) to the rack via the A / D converter 116 and the temperature in the rack from the temperature sensor (step S16).
The A / D converter 116 converts the analog signal indicating the current input from the current sensor and the analog signal indicating the temperature input from the temperature sensor into a digital signal, and converts the converted digital signal of the current and temperature. Output to the neuron chip 111.
[0056]
When the neuron chip 111 acquires the acquired digital signal of current and temperature, the neuron chip 111 generates trend data (not shown) indicating the current and temperature via the transceiver 115 and transmits the generated trend data to the monitoring device 10. (Step S17).
[0057]
Upon receiving the received trend data, the monitoring device 10 generates trend display data for current and trend display data for temperature based on the trend data, and the generated display data is displayed on the display unit 104. Output.
[0058]
The display unit 104 develops the trend display data for the received current or the trend display data for the temperature on the trend display screen 650 for the current or temperature shown in FIG.
[0059]
Thereafter, the monitoring device 10 acquires trend data from the distributed control device 11 until the lend period elapses, and displays a trend display screen for the current and temperature on the display unit 104 based on the acquired trend data. (Step S18), the process ends.
[0060]
3) Regarding the operation to be performed when the current and temperature exceed a predetermined threshold,
FIG. 13 is a flowchart showing an operation performed by the apparatus monitoring system according to this embodiment when a certain rack 15 has a current and temperature exceeding a predetermined threshold.
[0061]
The neuron chip 111 of the distributed control device 11 acquires a current value or temperature from the current sensor or temperature sensor installed in each rack via the A / D converter 116 at predetermined time intervals (step S21).
[0062]
The neuron chip 111 of the control unit 101 determines whether the acquired current value or temperature value exceeds the threshold current value or threshold temperature value stored in the RAM 112 (step S22). When the neuron chip 111 determines that the acquired current value or temperature value is equal to or less than the threshold current value or threshold temperature value stored in the RAM 112 (step S22; NO), the neuron chip 111 proceeds to step S31, and Continue the same process as you did.
On the other hand, if the neuron chip 111 determines that the acquired current value or temperature value exceeds the threshold current value or threshold temperature value stored in the RAM 112 (step S22; YES), the floor number, The rack number, the measured current value, or temperature value is transmitted to the monitoring apparatus 10 via the transceiver 115 (step S23).
[0063]
When receiving the floor number, the rack number, the current value or the temperature value, the control unit 101 of the monitoring apparatus 10 generates warning log data including the information and the received time, and generates the generated warning log data. It memorize | stores in warning log DB107b in the external memory | storage part 107 (step S24).
[0064]
Next, the control unit 101 reads display data for displaying the warning display screen 700 shown in FIG. 14A from the display data storage file 107 e of the external storage unit 107, and outputs the read display data to the display unit 104.
Thereafter, upon receiving the display data, the display unit 104 displays a warning display screen 700 (step S25).
[0065]
The warning display screen 700 includes a warning display field 701 for displaying a warning and a rack position display input field 702 for inputting the position of a rack to be warned.
[0066]
When the rack position display input field 702 in the warning display screen 700 displayed on the display unit 104 is clicked by the operation of the operator, the control unit 101 of the monitoring apparatus 10 stores the display data stored in the external storage unit 106. Display data for displaying the rack position display screen 750 indicating the rack that issued the warning shown in FIG. 14B is read from the file 106, and the read display data is output to the display unit 104.
[0067]
Upon receiving the display data from the control unit 101, the display unit 104 displays a rack position display screen (step S26) and ends the process.
[0068]
As shown in FIG. 14B, the position display screen shows display fields 751 and 752 for displaying information on racks that have issued warnings, a warning target display field 753 for displaying warning targets, and warning targets. Warning value display fields 754 and 755 for displaying values are provided.
[0069]
When the distributed control device 11 issues a warning, the current warning lighting LED 119 or the temperature warning lighting LED 120 indicating the warning target provided on the panel (not shown) emits light and an alarm sounds.
Further, the distributed control device 11 outputs a signal for operating a fan provided in the rack 15.
[0070]
4) Regarding operations that indicate control of general-purpose external devices
FIG. 15 is a flowchart showing the operation of the general equipment for controlling the equipment monitoring system according to this embodiment.
Here, in order to specifically explain the operation of controlling the general-purpose external device, when the limit switch detects the opening / closing of the rack door and detects that the door is open, the electromagnetic lock is activated to close the door. The operation will be described.
[0071]
When the current indicating that the door of the rack 15 is closed from the limit switch stops, the input / output circuit 118 outputs a message to that effect to the neuron chip 111 (step S31).
Then, the neuron chip 111 transmits to the monitoring apparatus 10 via the transceiver 115 that the rack number and the rack door of the rack number are open (step S32).
[0072]
When the control unit 101 of the monitoring apparatus 10 receives via the communication control unit 105 that the rack number and the rack door of the rack number are open, the display unit 104 displays an open rack display screen 800 shown in FIG. (Step S33).
[0073]
The administrator sees the open rack display screen 800, determines that the rack needs to be closed, and inputs the rack number and an instruction to close the door to the input unit 103 in order to close the rack 15. .
Then, the control unit 101 of the monitoring device 10 transmits the rack number and an instruction to close the door to the distributed control device 11 via the communication control unit 105 (step S34).
[0074]
When the neuron chip 111 of the distributed control device 11 receives the rack number to close and the instruction to close the door via the transceiver 115, the neuron chip 111 operates the electromagnetic lock provided in the rack 15 to be closed to the relay control circuit 117. An instruction to output is output (step S35).
[0075]
Next, the relay control circuit 117 outputs an instruction to operate the electromagnetic lock. Thereafter, the electromagnetic lock electromagnetically closes the door of the rack 15 (step S36).
Then, the limit switch outputs a current indicating that the door is closed to the input / output circuit 118 (step S37). Then, the input / output circuit 118 outputs to the neuron chip 111 that the door of the rack 15 has been closed. The neuron chip 111 transmits to the monitoring device 10 that the rack 15 has been closed (step S38).
[0076]
When the monitoring device 10 receives the fact that the rack 15 is closed via the distributed control device 11, the monitoring device 10 displays the fact on the display unit 104 (step S39) and ends the processing.
[0077]
According to the apparatus monitoring system of this embodiment, since the monitoring apparatus 10 detects the operating state of the apparatus based on the monitoring information acquired from the distributed control apparatus 11 via the network 14, it is installed in the data center. It is possible to efficiently monitor the installed devices and to reduce the cost required for operation management required for the data center.
[0078]
Further, according to this system, the monitoring device 10 displays warning information indicating a warning for the operating state of the device when the acquired monitoring information is greater than or less than the set threshold value. Can immediately know the device that seems to be abnormal.
[0079]
Further, in this system, when the warning information is monitored and acquired from the distributed control device 11, the monitoring device 10 stores warning history data indicating a warning history based on the acquired warning information. It is possible to collect data for knowing the cause of the device indicated by.
[0080]
In this system, the control device controls the communication of the current sensor, temperature sensor, limit switch as an external general-purpose device, and electromagnetic lock that detect the operating state of the device, thereby increasing the degree of freedom of wiring. be able to.
[0081]
In the apparatus monitoring system of this embodiment, the current flowing through the rack and the temperature in the rack are subject to warning, but in addition to this, a configuration in which a voltage applied to the rack is further applied may be used.
The apparatus monitoring system of this embodiment is a system used in an Internet data center, but in addition to this, it is a system that monitors the operation of apparatuses such as computers housed in racks installed in a computer center. There may be.
[0082]
【The invention's effect】
As mentioned above, according to this invention, the apparatus installed in the data center can be monitored efficiently.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a device monitoring system according to an embodiment of the present invention.
FIG. 2 is a diagram showing a configuration of a monitoring device in FIG.
FIG. 3 is a diagram showing a configuration of a control data DB in FIG. 2;
4 is a diagram showing a configuration of a warning log DB in FIG. 2. FIG.
FIG. 5 is a diagram showing a configuration of a threshold setting list in FIG. 2;
6 is a diagram showing a configuration of a floor plan storage file in FIG. 2. FIG.
7 is a diagram showing a configuration of a distributed control device in FIG. 1. FIG.
FIG. 8 is a flowchart showing an operation of setting threshold values for current and temperature in each distributed control device constituting the device monitoring system according to the embodiment.
FIG. 9A is a diagram illustrating a process selection screen.
(B) It is a figure explaining a threshold value setting process display screen.
FIG. 10 is a flowchart showing an operation in which the apparatus monitoring system according to the embodiment trends the current or temperature flowing in the rack.
FIG. 11 is a diagram illustrating a trend processing display screen.
FIG. 12 is a diagram illustrating a trend display screen.
FIG. 13 is a flowchart showing an operation performed by the apparatus monitoring system according to the embodiment when a certain rack has a current and temperature exceeding a predetermined threshold.
FIG. 14A is a diagram illustrating a warning display screen.
(B) It is a figure explaining a rack position display screen.
FIG. 15 is a flowchart illustrating an operation of controlling a general-purpose external device by the apparatus monitoring system according to the embodiment.
FIG. 16 is a diagram illustrating an opening rack display screen.
[Explanation of symbols]
10 Monitoring device
101 Control unit
102 Main memory
103 Input section
104 Display section
105 Communication control unit
106 timer
107 External storage
11 Distributed control device
111 neuron chip
112 RAM
113 ROM
114 RTC
115 transceiver
116 A / D converter
117 Relay control circuit
118 I / O circuit
119 Current warning LED
120 Temperature warning LED

Claims (9)

A distributed control device that controls an operation status detector that detects an operation status of a device accommodated in a rack by communication control according to the Rontalk protocol, and the operation of the device connected to the distributed control device via a network A device monitoring system comprising a monitoring device for monitoring the state,
The distributed control device
Monitoring information acquisition means for acquiring monitoring information indicating contents for monitoring the operating state of the device from the device to be controlled;
Open / close detecting means for detecting opening / closing of the rack door;
Monitoring information supply means for supplying the monitoring information acquired by the monitoring information acquisition means to the monitoring device via the network;
Detection information supply means for supplying detection information indicating detection contents by the open / close detection means to the monitoring device via the network;
Comprising
The monitoring device
Monitoring information acquisition means for acquiring the monitoring information supplied from the distributed control device via the network;
Detection information acquisition means for acquiring the detection information supplied from the distributed control device via the network;
Based on the monitoring information acquired by the monitoring information acquisition unit, an operating state detection unit that detects an operating state of the device;
With
The distributed control device further includes an opening / closing control unit that controls opening / closing of the rack door based on an instruction from the monitoring device according to the detection information supplied by the detection information supply unit.
A device monitoring system characterized by that. The distributed control device
Threshold acquisition means for acquiring a threshold for outputting a warning for the operating state of the device, supplied from the monitoring device;
When the monitoring information acquired from the monitoring information acquisition unit is greater than or less than the threshold acquired by the threshold acquisition unit, warning information supply that supplies warning information indicating a warning about the operating state of the device to the monitoring device Means,
Comprising
The monitoring device
Threshold setting means for setting the threshold;
Threshold supply means for supplying the threshold set by the threshold setting means to the distributed control device;
Warning information acquisition means for acquiring the warning information supplied from the distributed control device;
When the warning information is acquired by the warning information acquisition means, warning display means for displaying information indicating a device that is a warning target;
Prepare
The apparatus monitoring system according to claim 1. The monitoring device
When the warning information is acquired by the warning information acquisition means, warning history data generation means for generating warning history data indicating a history of the warning based on the acquired warning information;
Warning history data writing means for writing the warning history data generated by the warning history data generating means into storage means;
Comprising
The apparatus monitoring system according to claim 2. The monitoring device
Trend display means for displaying a trend of monitoring information based on the monitoring information of the monitored apparatus detected by the operating state detection means,
Comprising
The apparatus monitoring system according to any one of claims 1 to 3. The monitoring information is a current value supplied to a device accommodated in the rack, or a temperature in the rack.
The apparatus monitoring system according to any one of claims 1 to 4, wherein the apparatus monitoring system is characterized in that: From the operating status detector that detects the operating status of the device provided in the rack, monitoring information indicating the content to monitor the operating status of the device is acquired by communication control according to the Rontalk protocol,
Information indicating opening and closing of the rack door is acquired as the monitoring information by communication control according to the Rontalk protocol,
Based on the acquired monitoring information, the operation status of the device is detected,
Based on the acquired monitoring information, the door of the rack is controlled to open / close,
An apparatus monitoring method. Set a threshold for outputting a warning for the operating state of the device,
If the acquired monitoring information is greater than or less than the set threshold value, warning information indicating a warning for the operating state of the device is displayed.
The apparatus monitoring method according to claim 6. When the warning information is acquired, based on the acquired warning information, warning history data indicating the history of the warning is generated,
Writing the generated warning history data in a storage means;
The apparatus monitoring method according to claim 7. Based on the monitoring information of the detected monitored device, the trend of the monitoring information is displayed.
The apparatus monitoring method according to claim 6, wherein:

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