JP2007213286A - System device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system device, for constituting a system device group while flexibly changing devices according to a load, and measuring its structure, number of devices, usage, or the like. <P>SOLUTION: The system device which can configure a blade server by mounting a plurality of system devices including an arithmetic device and a storage device on a casing comprises: a node control device for mutually connecting the plurality of system device; a group system device including the plurality of system devices to be connected by the node control device, which can be operated under a common OS; and a monitoring device for monitoring the configuration of the group system device, the number of individual system devices contained in each group system device, and the usage of the group system device. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a system device, and more particularly to a system device that can be configured as a single system device by associating a plurality of system devices mounted in the same casing.

  In general, when a user introduces a server, as shown in FIG. 9, a server that can withstand a peak time by purchasing a peak load at the time of introduction (9b) is purchased. However, in actual operation, a load exceeding the peak occurs during the operation of the server contrary to expectations (9a), and it cannot be handled by scale-out to increase the number of servers or scale-up to add processors or memory. In this case, it is necessary to replace the server with a good performance considering the increase in load (92a).

  In order to cope with such a situation, recently, an increasing number of users introduce blade servers. A blade server is a computer in which a plurality of servers can be mounted in one casing, and a plurality of servers are connected to each other inside the casing. Since a new server can be added in the same chassis even when the server is operating, it can be easily scaled out. Further, some blade servers have a function of operating a plurality of servers in the same casing virtually as one high-performance server. In this type of apparatus, the number of servers can be reduced at the time of initial introduction, and servers can be added as the load increases to improve the performance of the virtual server.

  Even in the blade server having such advantages, the introduction cost is wasted when the load is significantly reduced from the peak prediction against the initial prediction. The reason is that even if a license for a function for virtually one high-performance server is purchased in the same housing, it is wasted if there is no opportunity to use that function.

In order to cope with such a decrease in load, some servers are equipped with a function that enables valid / invalid setting for each processor. In the case of this type of apparatus, at the time of initial introduction, the user validates as many processors as necessary at the present time, and pays the usage fee for the number of valid processors. When the load increases, the processor that has been set to invalid due to the additional cost is made valid for a certain period. When the load decreases from this state, the additional valid processor is disabled again to reduce the usage fee. However, even with this device, when the processor is additionally enabled, the peak load and period are predicted, and the period is set to pay the fee, so if the load differs from the forecast, For example, as shown in FIG. 10, when the actual computer usage after the contract is smaller than expected, the introduction cost is wasted. In FIG. 10, 93a indicates the load when the expansion is performed for a limited time. 9a and 9b have the same meaning as in FIG.
In addition, as a publicly known example regarding the billing of the usage amount of this kind of hardware, one disclosed in Patent Document 1 (Patent Publication No. 2003-248522) is known.

Japanese Patent Publication No. 2003-248522

  The technique described in the above document is considered to be applicable to general hardware billing. However, there is a problem that the computer introduction method such as the blade server described above cannot make an investment according to the actual computer usage.

  An object of the present invention is to flexibly change a system device that can be mounted in the same housing such as a blade server according to a load to configure a system device group (group system device). The object is to provide a system device capable of measuring the number of units, amount of use, and the like.

The system device according to the present invention is preferably a system device in which a blade server can be configured by mounting a plurality of system devices each including an arithmetic device and a storage device in a casing, and the plurality of system devices are connected to each other. A group controller that can be operated under a common OS, a group system device configuration, and a group system device included in each group system device. The system device includes a monitoring device that monitors the number of individual system devices to be used and the usage amount of the group system device.
In a preferred example, the configuration of the group system device and the number of system devices included in the group system device can be arbitrarily changed, and the total use amount of the group system device is within a predetermined range with respect to a predetermined use limit. In this case, the use of the group system device is substantially invalidated.

The server usage charge calculation method according to the present invention preferably defines a group system device that can connect a plurality of blade servers including an arithmetic device and a storage device in association with each other and operate under a common OS. The number of individual blade servers included in each group system device can be arbitrarily changed, and the configuration of the group system device, the number of individual blade servers included in each group system device, and the usage time of the group system device As a method for calculating the usage fee of the server, the monitoring device calculates the overall usage fee by multiplying the obtained usage time for each group system device by the license price for each group system device. Composed.
In a preferred example, the monitoring device includes a memory, and information on the number of blade servers included in each group system device and the license price of each group system device is stored in the memory and used for calculation of usage charges.

  ADVANTAGE OF THE INVENTION According to this invention, the system apparatus group which can be changed flexibly according to load and can comprise a system apparatus group and can measure the structure, the number of units, the usage-amount, etc. can be obtained.

Embodiments of the present invention will be described below with reference to the drawings.
In the following description, a device including a plurality of system devices when a plurality of system devices are associated with each other and handled like a single system device is referred to as a virtual system device (or group system device). In this virtual system device, a common OS (operating system) is executed, and data processing is performed under the OS.

FIG. 1 shows the relationship between a blade server and a virtual system device.
The server is configured by mounting a plurality of system devices 10 on a housing 11. If the performance of one system device 11 is insufficient, a plurality of system devices 11 can be linked in the server and virtually operated as one system device. Thereby, the performance per system apparatus can be improved. In this case, the performance improves as the number of system devices 10 constituting the virtual system devices 10a and 10b increases. Each system device may be referred to as a blade server, and the entire device may be referred to as a server. Also, the virtual system device may be referred to as a group system device.

  In the illustrated example, a four-blade virtual system device 10a composed of four (# 0 to # 3) system devices 10 and a two-blade virtual system device 10b composed of two (# 4 and # 5) system devices 10 are respectively provided. It can be operated virtually as one system device. As described above, the server having the functions of the virtual system devices 10a and 10b has an advantage that the number and performance of the system devices 10 can be flexibly changed in the same casing 11.

On the other hand, from the standpoint of the user, even if a server having the functions of the virtual system device 10 is purchased from the beginning and licenses of the virtual system devices 10a and 10b are purchased, depending on the business situation, as shown in FIG. It is also conceivable that the functions of the virtual system devices 10a and 10b are not used due to the decrease in
Therefore, the configuration, state (on or off), and total usage (usage time, etc.) as the virtual system devices 10a and 10b can be monitored, and the price setting according to the configuration and usage is shown in FIG. Since this can be realized, the total investment amount of the user can be reduced. In this embodiment, this solution is provided, and the processing capacity of the server is increased or decreased according to the load (FIGS. 2 and 2c).
Hereinafter, the example of the virtual system devices 10a and 10b in FIG. 1, the relationship between the number of system devices (blade servers) 10 constituting the virtual system devices 10a and 10b and the license cost shown in FIG. 3, and the total license cost shown in FIG. The present embodiment will be described in detail with reference to the calculation method.
In FIG. 3, a curve 3a indicates the relationship between the number of system apparatuses 10 constituting the virtual system apparatus and the license price. As described above, since the performance improves as the number of system devices 10 constituting the virtual system devices 10a and 10b increases, the license price of the virtual system devices 10a and 10b increases as shown in FIG. It will be set higher. For the usage amount, for example, the operating time of each virtual system device can be used.

  Based on these two conditions, a method for calculating the total license cost of the three virtual system apparatuses will be described with reference to FIG. In FIG. 4, there are three types of virtual system devices: a 2-blade virtual system device, a 3-blade virtual system device, and a 4-blade virtual system device, and the license price for each unit time is set to A, B, and C yen. ing. In the example of FIG. 4, the usage times are X hours, Y hours, and Z hours, respectively, so that it is possible to calculate total license fee = AX + BX + CX. Therefore, if the user's usage limit is M yen, it can be seen that a charging method that allows the virtual system apparatus to be used freely as long as M ≧ AX + BX + CX is satisfied. This is one feature in the embodiment of the present invention. A table including information on the number of blade servers, license price, and usage time for each virtual system apparatus shown in the figure is stored in the memory of the monitoring apparatus, and the contents thereof are sequentially updated.

Next, the configuration of each blade server, the virtual system apparatuses 10a and 10b, and the server will be described with reference to FIG.
The blade server can mount a plurality of stem devices 10 in the housing 11. In the illustrated example, n system devices 10 are mounted.
In general, the main components of the server system device 10 are an arithmetic device 12, a storage device 13, a monitoring device 14, and a node control device 15, which are numbered # 0, # 1,. All the system devices 10 are connected to the backplane 18 and they are connected to each other.

The monitoring device 14 controls the state of each system device and virtual system device. The virtual system devices 10a and 10b are in a state where high-speed processing can be realized by the arithmetic device 12 and the storage device 13 in each system device 10 cooperating with each other. The device 15 is realized mainly. When the virtual system devices 10a and 10b are configured, the system device 10 having the smallest system device number, for example, the 4-blade virtual system device 10a in FIG. The monitoring device 14 built in the system device 10 of No. 4 controls the state of the virtual system.
In the blade server having such a configuration, the configuration, the number, and the usage amount of the virtual system devices 10a and 10b are managed by the system device 10 having the smallest system device number when the virtual system device is configured.

Next, referring to FIG. 6 and FIG. 7, the difference in configuration and operation procedure between the case where the user pays the license usage fee before using the virtual system apparatuses 10a and 10b and the case where the user pays the license usage fee after use. explain.
First, it is assumed that the user wants to purchase a license for the 4-blade virtual system apparatus 10a. In the case of a method in which the user pays a license usage fee before using the virtual system device 10a, after the initial state (61) in which each system device 10a has been operating separately, the user must license the virtual system device before using the license. A fee is paid and a license key is obtained (62). When the license key is acquired, the license key is input according to the procedure provided to the user from the manufacturer, and the procedure for configuring the virtual system device is performed (63). The license key includes information on the usage limit amount of the user. This usage limit amount and configuration information are registered in the monitoring device 14 of the # 0 system device 10 which performs the central operation of the 4-blade virtual system device 10a.

  Since the virtual system apparatus 10a can be used in the procedure so far, the production operation is performed (64). During actual operation, the usage amount is always checked by the monitoring device 14 of the # 0 system device 10 to check whether the total usage amount does not exceed the usage limit (65). If the result of this check is not exceeded, it is checked whether the configuration of the virtual system apparatus has been changed (66), and if there is no change as a result, the production operation 64 can be continued. On the other hand, when configuring the virtual system apparatus, the license key is again input to configure a new virtual system apparatus (63).

If the total usage exceeds the usage limit in the check in step 65, access to the virtualization system device is invalidated (67). After being disabled, each system device 10 operates separately (68). The above is the procedure for the user to pay the usage fee before using the virtual system device 10a.
Here, as a process for invalidating the virtualization system apparatus, for example, registration of an IP address assigned for accessing each virtualization system apparatus is invalidated. That is, the assigned IP address is registered in the memory of the monitoring device of the virtual system device, but is invalidated by canceling the IP address, thereby making it impossible to access the virtual system device.

Next, a method in which the user pays a license usage fee after using the virtual system device 10a will be described with reference to FIG.
In this case, in order to allow the user to freely use without obtaining a license key, after the initial state (71) in which each system device 10 operates separately, first, the manufacturer uses the user's virtual system device usage amount remotely. Is prepared so that it can be monitored (72).

  As shown in FIG. 8, this remote monitoring is performed by using the configuration of the blade server 811 installed at the user site 81 and the configuration of the virtual system device via the Internet 88 from the monitoring server 841 installed at the site 841 of the server manufacturer. This is done by monitoring the amount used. Reference numeral 84a denotes a monitoring path.

  By monitoring the virtual system device at the user site 81 by the manufacturer using the monitoring path 84a, the user can freely configure the virtual system device (73) and perform the actual operation (74). During operation, the user pays a usage fee to the maker for the amount of periodic use of the virtual system device (75). If the configuration of the virtual system apparatus is to be changed (76), the process returns to step 73, the newly changed virtual system apparatus is configured, and the same operation as described above is repeated. If not changed, the production operation is repeated.

According to the billing mechanism for the blade server having the function of the virtual system device according to the present embodiment described above, the system device that can be mounted in the same casing such as the blade server is flexibly changed according to the load. A system device group (virtual system device) can be configured, and its configuration, number of units, and usage can be measured. This makes it possible to charge according to the configuration, the number of units, and the amount of use of the virtual system device, and the manufacturer or rental company can make an optimal charge to the user.

Schematic which shows the relationship between the blade server and virtual system apparatus in one Example. The figure which shows the relationship between the operation | movement of a blade server and load in one Example. The figure which shows the relationship between the component number of the system apparatus in the virtual system apparatus in one Example, and the license price of a virtual system apparatus. Explanatory drawing for calculating a total usage fee from the license price and usage time of the virtual system device in one embodiment. The block diagram which shows the structure of the blade server and virtual system apparatus in one Example. The figure for demonstrating the procedure at the time of applying the charging system which pays a license fee before using the function of the virtual system apparatus in a blade server. The figure for demonstrating the procedure at the time of applying the charging system which pays a license fee after using the function of the virtual system apparatus in a blade server. The figure which shows the example of the monitoring system of the blade server in one Example. The figure which shows the relationship between general server operation and load. The figure which shows the relationship between general server operation and load.

Explanation of symbols

9a: Actual load 9b: Load peak prediction at the time of initial introduction 92a: Responding to increase in load by replacement of server 93a: Expansion for a limited time 2c: Example of increasing / decreasing server processing capacity according to load 10: System Device 10a: 4-blade virtual system device 10b: 2-blade virtual system device 11: chassis 12: arithmetic device 13: storage device 14: monitoring device 15: node control device
18: Backplane

Claims (4)

In a system device capable of configuring a blade server by mounting a plurality of system devices including an arithmetic device and a storage device in a casing, a node control device capable of connecting the plurality of system devices to each other, and the node A group system device that includes a plurality of system devices connected by a control device and can be operated under a common OS, the configuration of the group system device, and the number of individual system devices included in each group system device A system device comprising a monitoring device for monitoring a usage amount of the group system device. When the configuration of the group system device and the number of system devices included in the group system device can be arbitrarily changed, and the total use amount of the group system device falls within a predetermined range with respect to a predetermined use limit, 2. The system apparatus according to claim 1, wherein use of the group system apparatus is substantially invalidated. A group system device that can be operated by connecting a plurality of blade servers having a computing device and a storage device in association with each other is defined, and the number of individual blade servers included in each group system device is arbitrarily set And monitoring the configuration of the group system device, the number of individual blade servers included in each group system device, and the usage time of the group system device by the monitoring device. A method for calculating a server usage fee, comprising: calculating a total usage fee by multiplying a usage price for each group system device by a license price associated with each group system device. The monitoring device includes a memory, and the memory stores information on the number of blade servers included in each group system device and the license price of each group system device, which is used for calculation of a usage fee. The calculation method of item 3.

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