JP2012133693A - State quantity display device, state quantity display method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow a state quantity display device for displaying the state quantity of an information processor to perform a display that enables intuitive grasp of the overall situation of the information processor.SOLUTION: In a state quantity display device 300, a communication unit 310 acquires a first state quantity, a second state quantity and a third state quantity from each of server devices. Then, a display unit 320 displays a three-dimensional figure having a height according to the first state quantity, a breadth according to the second state quantity and a depth according to the third state quantity. A user of the state quantity display device 300 can intuitively and collectively grasp each state quantity from the size and shape of the displayed three-dimensional figure.

Description

  The present invention relates to a state quantity display device, a state quantity display method, and a program for displaying a state quantity indicating a state of an information processing apparatus such as a computer.

As a method of displaying state quantities such as CPU (Central Processing Unit) usage rate in information processing devices such as computers, it is possible to display numerical values such as percentage display of state quantities and graph formats such as bar graphs. Display method is used.
FIG. 8 is a diagram showing an example of a display screen that displays the state quantities such as the CPU usage rate, the memory usage rate, and the disk I / O usage rate of each of the eight server devices in a bar graph. In the figure, each state quantity is displayed as a bar graph having a maximum length of 100 percent (%). For example, the disk I / O usage rate of the server 1104 is displayed by the length L1002 of the bar graph G1001 with the length L1001 as the maximum length, that is, by the ratio of the length L1002 to the maximum length L1001.
Patent Document 1 discloses a physical server that periodically collects the load state of resources such as CPU, memory, disk I / O, and network I / O of a virtual server.

JP 2010-33292 A

However, the method of displaying the state quantity of the information processing apparatus numerically or the method of displaying in a graph format cannot display the overall status of the information processing apparatus in an intuitively understandable manner. For example, in the state quantity display screen of FIG. 8, a user (for example, a computer system administrator) determines the CPU usage rate of the server 1104 from the bar graph displayed on the screen in order to grasp the overall status of the server 1104. The bar graph indicating the memory usage rate, the bar graph indicating the disk I / O usage rate, the CPU usage rate, the memory usage rate, and the disk I / O usage rate are read and read. It is necessary to evaluate the state quantity comprehensively. The process of reading and comprehensively evaluating each state quantity of the information processing apparatus is a burden on the user, and it takes time to grasp the overall status of the information processing apparatus. If the number of information processing devices that are state quantity display targets is increased and the number of information processing devices whose status is to be grasped is increased, the burden on the user and the required time increase.
Further, Patent Document 1 does not show a method for intuitively displaying the overall status of the information processing apparatus.

  An object of the present invention is to provide a state quantity display device, a state quantity display method, and a program that can solve the above-described problems.

  The present invention has been made to solve the above-described problem, and a state quantity display device according to an aspect of the present invention includes a first state quantity, a second state quantity, and a third state quantity indicating the state of the information processing apparatus. A state quantity acquisition unit for acquiring a state quantity, a height according to the first state quantity, a horizontal length according to the second state quantity, and according to the third state quantity. And a display unit for displaying a three-dimensional figure having a length of a depth.

  A state quantity display method according to an aspect of the present invention is a state quantity display method performed by a state quantity display device, and includes a first state quantity, a second state quantity, and a third state quantity of an information processing device. A state amount acquisition step of acquiring a height, a height corresponding to the first state amount, a horizontal length corresponding to the second state amount, and a depth corresponding to the third state amount. And a display step for displaying a three-dimensional figure having a length.

  A program according to an aspect of the present invention is a state quantity for acquiring a first state quantity, a second state quantity, and a third state quantity indicating a state of the information processing apparatus in a computer as a state quantity display device. A three-dimensional figure having an acquisition step, a height according to the first state quantity, a width according to the second state quantity, and a depth according to the third state quantity And a display step for displaying the program.

  According to the present invention, it is possible to perform display capable of intuitively grasping the overall state of the information processing apparatus.

It is a block diagram which shows the example of schematic structure of the computer system in one Embodiment of this invention. In the same embodiment, it is a figure which shows the example of the solid figure displayed when a display part displays the resource usage rate of an application server apparatus. In the same embodiment, it is a figure which shows the example of the solid figure displayed when a display part displays the resource usage rate of a database server apparatus. In the same embodiment, it is a figure which shows the example of the solid figure displayed when a display part displays the resource usage rate of a network server apparatus. It is a figure which shows the example of the whole display screen of the resource usage rate which the display part in the same embodiment displays. It is a figure which shows the example of the screen which the display part in the embodiment displayed the resource usage rate in detail. In the same embodiment, it is a flowchart which shows the process sequence in which the state quantity display apparatus displays the resource usage rate of a server apparatus. It is a figure which shows the example of a display screen which displays the CPU usage rate, memory usage rate, and disk I / O usage rate of each of eight server apparatuses by a bar graph.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a block diagram illustrating a schematic configuration example of a computer system 1 according to an embodiment of the present invention. In the figure, a computer system 1 includes application server devices 110-1 to 110-m (m is a positive integer), database server devices 120-1 to 120-n (n is a positive integer), and network server devices 130-1 to 130-1. Each server device of 130-k (k is a positive integer), the network 200, and the state quantity display device 300 are provided, and each server device and the state quantity display device 300 are connected to the network 200. The state quantity display device 300 includes a communication unit (state quantity acquisition unit) 310, a display unit 320, an operation input unit 330, and a control unit 340.

  In the following, the application server devices 110-1 to 110-m are collectively referred to as “application server device 110”, and the database server devices 120-1 to 120-n are collectively referred to as “database server device 120”. The server apparatuses 130-1 to 130-k are collectively referred to as “network server apparatus 130”, and the application server apparatus 110, the database server apparatus 120, and the network server apparatus 130 are collectively referred to as the server apparatus 100. The client terminal devices 140-1 to 140-j are collectively referred to as “client terminal device 140”.

The application server device 110 is a server device that provides an application. Upon receiving a service request from the client terminal device 140 transmitted via the network 200, the application server device 110 executes the application in accordance with the received service request, and displays an execution result. It transmits to the client terminal device 140.
The database server device 120 is a server device having a database. Upon receiving a data request from the client terminal device 140 transmitted via the network 200, the database server device 120 searches the database according to the received data request and acquires data. The acquired data is transmitted to the client terminal device 140.

The network server device 130 is a gateway server device that relays communication between the network 200 and an external network, and transmits a communication signal from the client terminal device 140 transmitted via the network 200 to the external network. A communication signal received from an external network is transmitted to the destination client terminal device 140.
The client terminal device 140 is a terminal device that requests various services from the server device 100 and receives services.
The network 200 is connected to the server device 100, the client terminal device 140, and the state quantity display device 300, and relays communication among these devices.

  Here, each of the server devices 100 is an example of an information processing device in the present invention, and the state quantity display device 300 displays each state quantity of the server device 100. However, the object whose state quantity display device 300 displays the state quantity is not limited to the server apparatus, but may be any apparatus that can measure a plurality of state quantities. For example, the state quantity display device 300 may display the state quantity of the information processing apparatus other than the server apparatus, such as displaying the state quantity of the client terminal device 140. Alternatively, the state quantity display device 300 may display the state quantities of other server devices such as the management server device.

The state quantity display device 300 constitutes a part of the management server device of the computer system 1, for example, and acquires the CPU usage rate, the memory usage rate, and the disk I / O usage rate as the state quantity from each of the server devices 100. To display.
The communication unit 310 is connected to the network 200 and performs communication with the server device 100 and the client terminal device 140 via the network 200. In particular, the communication unit 310 periodically receives a signal including information on the CPU usage rate, information on the memory usage rate, and information on the disk I / O usage rate from each of the server devices 100, so that these states are obtained. Get the quantity.

  Here, the CPU usage rate is an example of the first state quantity in the present invention, the memory usage rate is an example of the second state quantity in the present invention, and the disk I / O usage rate is in the present invention. It is an example of the 3rd state quantity. Hereinafter, the CPU usage rate, the memory usage rate, and the disk I / O usage rate are collectively referred to as a resource usage rate.

  However, the first state quantity, the second state quantity, and the third state quantity acquired by the communication unit 310 are not limited to the above-described CPU usage rate, memory usage rate, and disk I / O usage rate, respectively. Any amount may be used as long as it can be expressed quantitatively. For example, the communication unit 310 may acquire a state quantity other than the resource usage rate of the information processing apparatus, such as acquiring a cache hit rate as one of the state quantities. Alternatively, the communication unit 310 obtains an IRQ (Interrupt ReQuest) channel usage rate as one of the state quantities, such as CPU usage rate, memory usage rate, and disk I / O usage rate. You may make it acquire. Alternatively, the communication unit 310 may acquire the usage rate of each CPU as the first to third state quantities from a server device having three CPUs.

  Alternatively, the communication unit 310 acquires the CPU usage rate of the application server apparatus 110-1 as the first state quantity, acquires the CPU usage rate of the application server apparatus 110-2 as the second state quantity, and You may make it handle the state quantity acquired from several information processing apparatus as a 1st-3rd state quantity, such as acquiring the CPU usage rate of the application server apparatus 110-3 as a state quantity. As a result, when the display unit 320 displays the state quantity as a three-dimensional figure as will be described later, it is possible to perform display in which the state of each information processing apparatus can be easily compared with the size and shape of the figure.

The display unit 320 includes a display screen such as a liquid crystal display, and displays a moving image, a still image, text, or the like according to the control of the control unit 340. In particular, as will be described later, the display unit 320 displays each resource usage rate of the server device 100 acquired by the communication unit 310 in a three-dimensional graphic display.
The operation input unit 330 includes an input device such as a mouse or a keyboard, and accepts an input operation by a user of the state quantity display device 300 (hereinafter simply referred to as “user”). In particular, the operation input unit 330 accepts a selection operation for a three-dimensional figure displayed on the display unit 320.

  The control unit 340 controls each unit of the state quantity display device 300. In particular, as will be described later, the control unit 340 generates a three-dimensional graphic image representing the resource usage rate of each server device based on the resource usage rate that the communication unit 310 acquires from each of the server devices 100, and the display unit 320. To display. Further, as will be described later, when any server device is selected by an operation received by the operation input unit 330, the state quantity display device 300 displays an individual display screen that displays details of the resource usage rate of the selected server device. Is generated and displayed on the display unit 320.

Next, the display of the resource usage rate by the display unit 320 will be described with reference to FIGS.
FIG. 2 is a diagram illustrating an example of a solid figure displayed when the display unit 320 displays the resource usage rate of the application server apparatus 110. In the figure, a rectangular parallelepiped F21 is a solid figure indicating the resource usage rate of the application server device 110-i (i is an integer of 1 ≦ i ≦ m), and the cube F22 is the resource usage of the application server device 110-i. It is a three-dimensional figure which shows the maximum value (a rectangular parallelepiped F21 when the total resource usage rate is 100%). In the figure, the H axis is set in the height direction, the W axis is set in the horizontal direction, and the D axis is set in the depth direction.

Then, the display unit 320 displays the CPU usage rate of the application server apparatus 110-i by the ratio H21 / H22 of the height H21 of the rectangular parallelepiped F21 with respect to the height H22 of the cube F22. Further, the display unit 320 displays the memory usage rate of the application server apparatus 110-i by the ratio W21 / W22 of the horizontal width W21 of the rectangular parallelepiped F21 to the horizontal width W22 of the cube F22. In addition, the display unit 320 displays the disk I / O usage rate of the application server apparatus 110-i by the ratio D21 / D22 of the depth D21 of the rectangular parallelepiped F21 to the depth D22 of the cube F22.
Furthermore, as will be described later, the display unit 320 displays the CPU usage rate, the memory usage rate, and the disk I / O usage rate of the application server apparatus 110-i also by the color of the rectangular parallelepiped F21.

  FIG. 3 is a diagram illustrating an example of a three-dimensional figure displayed when the display unit 320 displays the resource usage rate of the database server device 120. In the figure, an elliptic cylinder F31 is a solid figure indicating the resource usage rate of the database server device 120-i (i is an integer satisfying 1 ≦ i ≦ n), and a cylinder F32 is a resource of the application server device 110-i. It is a three-dimensional figure which shows the maximum value (the elliptical column F31 when the total resource usage rate is 100%). As in FIG. 2, the H axis in the figure is set in the height direction, the W axis in the horizontal direction, and the D axis in the depth direction.

Then, the display unit 320 displays the CPU usage rate of the database server device 120-i by the ratio H31 / H32 of the height H31 of the elliptical column F31 to the height H32 of the column F32. Further, the display unit 320 displays the memory usage rate of the database server device 120-i by the ratio W31 / W32 of the horizontal width W31 of the elliptical column F31 to the horizontal width W32 of the column F32. Further, the display unit 320 displays the disk I / O usage rate of the database server device 120-i by the ratio D31 / D32 of the depth D31 of the elliptical column F31 to the depth D32 of the column F32.
Further, as will be described later, the display unit 320 displays the CPU usage rate, the memory usage rate, and the disk I / O usage rate of the database server device 120-i also by the color of the elliptical column F31.

  FIG. 4 is a diagram illustrating an example of a three-dimensional figure displayed when the display unit 320 displays the resource usage rate of the network server device 130. In the figure, a quadrangular pyramid F41 is a solid figure indicating the resource usage rate of the network server device 130-i (i is an integer of 1 ≦ i ≦ k), and the quadrangular pyramid F42 is the network server device 130-i. It is a solid figure which shows the maximum value of resource usage rate (square pyramid F41 when the total resource usage rate is 100%). As in FIG. 2, the H axis in the figure is set in the height direction, the W axis in the horizontal direction, and the D axis in the depth direction.

Then, the display unit 320 displays the CPU usage rate of the network server device 130-i by the ratio H41 / H42 of the height H41 of the quadrangular pyramid F41 to the height H42 of the quadrangular pyramid F42. Further, the display unit 320 displays the memory usage rate of the network server device 130-i by the ratio W41 / W42 of the lateral width W41 of the quadrangular pyramid F41 to the lateral width W42 of the quadrangular pyramid F42. Further, the display unit 320 displays the disk I / O usage rate of the network server device 130-i by the ratio D41 / D42 of the depth D41 of the quadrangular pyramid F41 to the depth D42 of the quadrangular pyramid F42.
Furthermore, as will be described later, the display unit 320 displays the CPU usage rate, the memory usage rate, and the disk I / O usage rate of the network server device 130-i also by the color of the quadrangular pyramid F41.

  FIG. 5 is a diagram illustrating an example of an entire resource usage rate display screen displayed by the display unit 320. As described in FIGS. 2 to 4, the display unit 320 displays the CPU usage rate, the memory usage rate, and the disk I / O usage rate of the application server apparatuses 110-1 to 110-5 in a rectangular parallelepiped. The CPU usage rate, the memory usage rate, and the disk I / O usage rate of the server devices 120-1 to 120-3 are displayed in elliptical columns, and the CPU usage rate and the memory usage of the network server devices 130-1 to 130-2 are displayed. The rate and the disk I / O usage rate are displayed with a quadrangular pyramid.

Further, the display unit 320 displays a three-dimensional figure with a color corresponding to each resource usage rate of the server device 100.
Specifically, the display unit 320 synthesizes a color with a red strength corresponding to the CPU usage rate, a green strength corresponding to the memory usage rate, and a blue strength corresponding to the disk I / O usage rate. , Display the three-dimensional figure of the synthesized color. For example, when the display unit 320 displays a three-dimensional figure on the liquid crystal display included in the display unit 320, the ratio (per unit area) of each pixel of red, green, and blue is determined according to the strength of each color. The number of pixels) is turned on.

  For example, when the CPU usage rate, the memory usage rate, and the disk I / O usage rate are all small, the display unit 320 displays a small three-dimensional figure in a blackish color. When the CPU usage rate is large and the memory usage rate and the disk I / O usage rate are low, the display unit 320 displays a three-dimensional figure having a high height and a short width and depth in a reddish color. When the CPU usage rate is low and the memory usage rate and the disk I / O usage rate are high, the display unit 320 displays a three-dimensional figure having a low height and a long width and depth in a cyan (bright blue) -like color. To do. When the CPU usage rate, the memory usage rate, and the disk I / O usage rate are large, the display unit 320 displays a large three-dimensional figure (a size and shape close to the maximum three-dimensional figure) in a whitish color.

  In this manner, the display unit 320 collectively displays the CPU usage rate, the memory usage rate, and the disk I / O usage rate of each of the server devices 100 in a three-dimensional figure, so that the overall status of the information processing device can be displayed. Intuitive display can be performed. That is, the user of the state quantity display device 300 (hereinafter simply referred to as “user”) grasps the CPU usage rate, the memory usage rate, and the disk I / O usage rate according to the size and shape of the solid figure. Can do.

  In addition, the display unit 320 can display a three-dimensional figure in a color corresponding to the resource usage rate of the server device, thereby performing a display that allows an intuitive grasp of the overall status of the information processing device. That is, the user can grasp the CPU usage rate, the memory usage rate, and the disk I / O usage rate not only by the size and shape of the solid figure but also by the color of the solid figure.

Further, since the display unit 320 displays different types of solid figures for each type of server device, the user can intuitively grasp the server type together with the resource usage rate of each server device.
Here, depending on the type of server, there may be a case where the degree of importance of a specific state quantity and the measures according to the value of the state quantity differ. For example, in a database server device designed so that the disk I / O usage rate becomes a bottleneck, even if the CPU usage rate is 90%, the CPU usage rate is expected to reach a peak at 90%. In some cases, no special measures need to be taken. On the other hand, when the CPU usage rate of the application server device is 90%, it is expected that the CPU usage rate becomes a bottleneck when service provision requests from the client terminal device are further concentrated. It may be preferable to take precautions.
The display unit 320 displays different types of solid figures for each type of server device, so that it is relatively easy for the user to grasp the type of the server device, and the possibility of erroneous recognition by the user is reduced. Can be made. This makes it easier for the user to take measures according to the type of server.

Further, since the display unit 320 displays different types of solid figures for each type of server device, even if different types of state quantities are displayed for each type of server device, the possibility of erroneous recognition by the user is reduced. Can be made.
For example, for the network server device 130 displayed as a quadrangular pyramid, the display unit 320 displays the network I / O usage rate instead of the disk I / O usage rate with the depth of the square pyramid and the intensity of blue. You may make it display. Even in this case, since the quadrangular pyramid is displayed, the user can grasp that the display target is the network server device and the network I / O usage rate is displayed. Thereby, a possibility of a user's misrecognition can be reduced.

The display unit 320 may display different types of solid figures for each user of the server device instead of or in addition to the type of the server device.
For example, among the server devices corresponding to the stereoscopic display of FIG. 5, the server devices 110-1, 110-2, 110-3, and 130-1 are server devices managed by the user A, and the server device 110-4 When 110-5 and 130-2 are server apparatuses managed by the user B, the display unit 320 displays the resource usage rates of the server apparatuses 110-1, 110-2, and 110-3 as shown in FIG. The resource usage rate of the server device 130-1 is indicated by a quadrangular pyramid as shown in FIG. 5, while the resource usage rates of the server devices 110-4 and 110-5 are indicated by triangular prisms, respectively. The resource usage rate of the server device 130-2 may be displayed with a triangular pyramid.
In this way, the display unit 320 displays different types of solid figures for each user of the server device, so that the user of the server device can relatively easily grasp the server device managed by the user. The risk of recognition can be reduced.
Hereinafter, as shown in the screen of FIG. 5, for a plurality of server apparatuses, a screen that displays a three-dimensional figure indicating each resource usage rate is referred to as an “entire display screen”.

  Next, FIG. 6 is a diagram illustrating an example of a screen on which the display unit 320 displays the resource usage rate in more detail. In the figure, a mark M61 indicates that the server device 110-4 has been selected. The solid figure F61 is a figure obtained by enlarging and displaying the solid figure indicating the resource usage rate of the server apparatus 110-4. The solid figure F62 is a solid figure indicating the maximum value of the resource usage rate of the server apparatus 110-4. The figure is an enlarged display. The graph G61 is a bar graph indicating the resource usage rate of the server device 110-4.

When the operation input unit 330 receives a selection operation of the server device by the user, the control unit 340 generates and displays a screen that displays the resource usage rate of the selected server device in more detail as illustrated in FIG. The display unit 320 displays the screen according to the control of the control unit 340. Here, the selection operation of the server device is performed, for example, when the user left-clicks the three-dimensional figure of the server device displayed on the display unit 320 by using the mouse included in the operation input unit 330.
In the following, a screen shown in FIG. 6 that displays the resource usage rate of the selected server device in more detail (more specifically, a three-dimensional figure showing the resource usage rate of the selected server device (see FIG. 6). In the example, the solid figure F61), the solid figure (maximum figure F62 in the example of FIG. 6) indicating the maximum value of the resource usage rate of the server device, and the graph (in the example of FIG. 6) indicating the resource usage rate of the server device. The screen including the graph G61) is referred to as an “individual display screen”.

In this way, the display unit 320 displays the resource usage rate of the selected server device in more detail, so that the user can grasp the resource usage rate more accurately.
The screen for displaying the resource usage rate of the selected server device in more detail is not limited to the individual display screen shown in FIG. For example, the display unit 320 may display the resource usage rate numerically, for example, in addition to the graph G61 or in place of the graph G61. By displaying the resource usage rate numerically, the user can grasp the resource usage rate more accurately.
Further, the display unit 320 may display the solid figure F62 by adding, for example, every 5% of memory. This also allows the user to grasp the resource usage rate more accurately.

In addition, when there is no area for displaying graphs or numerical values of all three resource usage rates, the display unit 320 may display any one or two graphs or numerical values of the resource usage rates.
As a result, even when the area that can be used for displaying the resource usage rate in more detail is small, the display unit 320 can display more detailed information, and the user can more accurately display the resource usage rate. I can grasp it.

Next, the operation of the state quantity display device 300 will be described with reference to FIG.
FIG. 7 is a flowchart showing a processing procedure in which the state quantity display device 300 displays the resource usage rate of the server device. When the state quantity display device 300 is activated, it starts the processing shown in FIG.
First, the communication unit 310 receives a signal including information on the CPU usage rate, information on the memory usage rate, and information on the disk I / O usage rate from each of the server devices 100, so that these resource usage rates are set. Obtain (step S101). Then, the communication unit 310 outputs the acquired signal to the control unit 340.

  Next, upon receiving a signal output from the communication unit 310, the control unit 340 reads the CPU usage rate information, the memory usage rate information, and the disk I / O usage rate information from the signal. Then, the control unit 340 reads the image data of the overall display screen of the resource usage rate described in FIG. 5 according to the CPU usage rate, the memory usage rate, and the disk I / O usage rate of each of the server devices 100 read from the signal. Is output to the display unit 320. Then, the display unit 320 displays a resource usage rate overall display screen according to the image data output from the control unit 340 (step S102).

  Next, the control unit 340 determines whether the operation input unit 330 has accepted any selection operation of the server device 100 (step S103). Here, as described with reference to FIG. 6, for the selection operation of the server device, for example, the user left-clicks the solid figure of the server device displayed on the display unit 320 using the mouse included in the operation input unit 330. Is done by. Further, for example, the operation input unit 330 temporarily stores information indicating the received operation input in a buffer, and the control unit 340 includes information indicating the selection operation of the server device in the information stored in the buffer. Whether or not any selection operation of the server apparatus 100 is accepted is determined based on whether or not the server apparatus 100 is selected.

When it is determined that the selection operation has been accepted (step S103: YES), the control unit 340 generates image data of the resource usage rate individual display screen described in FIG. 6 based on the resource usage rate of the selected server device. And output to the display unit 320. Then, the display unit 320 displays a resource usage rate individual display screen according to the image data output from the control unit 340 (step S104).
Then, it returns to step S101 and repeats the process of the figure.
Also, if it is determined in step S103 that the selection operation has not been accepted (step S103: NO), the process returns to step S101 and repeats the process of FIG.

  As described above, the display unit 320 displays, for each of the server devices 100, a plurality of types of state quantities in a solid figure so that the overall state of the information processing apparatus can be intuitively grasped. It can be carried out. That is, a user of the state quantity display device 300 (hereinafter, simply referred to as “user”) can intuitively grasp each state quantity collectively according to the size and shape of the solid figure.

  In addition, the display unit 320 can display a three-dimensional figure in a color corresponding to the state quantity of the server device, thereby performing a display that can intuitively grasp the overall status of the information processing device. That is, the user can intuitively grasp each state quantity collectively by the color of the solid figure in addition to the size and shape of the solid figure.

  Further, the display unit 320 displays the state quantity of the selected server device in more detail, so that the user can grasp the state quantity of the server device more accurately. Accordingly, the user can more appropriately determine whether or not countermeasures are required for each of the server devices 100, and can take more appropriate countermeasures as necessary.

In addition, since the display unit 320 displays different types of solid figures for each type of server device, the user can intuitively grasp the server type together with the state quantity of each server device. This makes it easier to take appropriate measures.
Furthermore, even if the display unit 320 displays different types of state quantities for each type of server device by displaying different types of solid figures for each type of server device, there is a risk of erroneous recognition by the user. Can be reduced.

  Further, the display unit 320 displays different types of solid figures for each user of the server device, so that the user of the server device can grasp the server device managed by the server device relatively easily, The fear can be reduced.

It should be noted that a program for realizing all or part of the functions of the state quantity display device 300 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system and executed. You may process each part by. Here, the “computer system” includes an OS and hardware such as peripheral devices.
Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used.
The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Furthermore, the “computer-readable recording medium” dynamically holds a program for a short time like a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line. In this case, a volatile memory in a computer system serving as a server or a client in that case, and a program that holds a program for a certain period of time are also included. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes design changes and the like without departing from the gist of the present invention.

DESCRIPTION OF SYMBOLS 1 Computer system 110-1 to 110-m Application server apparatus 120-1 to 120-n Database server apparatus 130-1 to 130-k Network server apparatus 200 Network 300 State quantity display apparatus 310 Communication part 320 Display part 330 Operation input part 340 control unit

Claims (7)

A state quantity acquisition unit for acquiring a first state quantity, a second state quantity, and a third state quantity indicating the state of the information processing apparatus;
A display for displaying a solid figure having a height corresponding to the first state quantity, a width corresponding to the second state quantity, and a depth corresponding to the third state quantity. And
A state quantity display device comprising:   The display unit displays the three-dimensional figure in red according to a fourth state quantity that is one of the first state quantity, the second state quantity, and the third state quantity. Green according to the strength and the fifth state quantity that is one of the first state quantity, the second state quantity, and the third state quantity other than the fourth state quantity And the sixth state that is other than the fourth state amount and the fifth state amount among the first state amount, the second state amount, and the third state amount 2. The state quantity display device according to claim 1, wherein the state quantity display device displays the color based on the intensity of blue according to the quantity. It has an operation input unit,
When the operation input unit accepts a selection operation of the information processing device, the display unit includes the first state quantity, the second state quantity, and the third state quantity of the selected information processing apparatus. The state quantity display device according to claim 1, wherein at least one is displayed as a numerical value or a graph.   The state quantity according to any one of claims 1 to 3, wherein the display unit displays, for each of a plurality of server devices, the three-dimensional figure of a different type for each type of server device. Display device.   5. The display unit according to claim 1, wherein each of the plurality of server devices displays the three-dimensional figure with a different type of three-dimensional figure for each user of the server device. The state quantity display device described in 1. A state quantity display method performed by the state quantity display device,
A state quantity acquisition step of acquiring a first state quantity, a second state quantity, and a third state quantity indicating the state of the information processing apparatus;
A display for displaying a solid figure having a height corresponding to the first state quantity, a width corresponding to the second state quantity, and a depth corresponding to the third state quantity. Steps,
A state quantity display method comprising: In a computer as a state quantity display device,
A state quantity acquisition step of acquiring a first state quantity, a second state quantity, and a third state quantity indicating the state of the information processing apparatus;
A display for displaying a solid figure having a height corresponding to the first state quantity, a width corresponding to the second state quantity, and a depth corresponding to the third state quantity. Steps,
A program for running

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