JP2008140094A - Blade server device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a means to connect any number of server blades, any number of storage blades and any number of the storage devices in the storage blade, using Serial Attached SCSI(SAS) interface in a blade server device. <P>SOLUTION: It has the server blade, the storage blade, and an expander. The server blade and the storage blade are mounted in either of two or more slots on a backplane board, and connected with a predetermined interface. A slot in which either the above server blade or the above storage blade is mounted has the same physical and electric specifications as the same signal pin assignment. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a blade server device including a server blade and a storage blade.

  In recent years, with the progress of high-density mounting of servers, a blade server device has appeared. The “blade” of the blade server device is a single circuit board provided with hardware and software for functioning as a server. A plurality of blades are mounted in a single casing to achieve high-density mounting.

  The blade server device basically has the following configuration. In order to fulfill the functions as a server, a server blade that is equipped with a CPU and performs various information processing according to a user's application, a functional unit that provides an interface for connecting this to the Internet, a LAN, etc., and a server blade An interface unit for connecting a storage device to be used, a functional unit for monitoring, controlling, and setting the operation in the blade server device, and a power source unit for supplying power necessary for these components are mounted in a housing. . A blade on which an arbitrary number of storage devices are mounted is referred to as a storage blade.

  Many of the storage devices used by current blade server apparatuses use ATA, S-ATA (Serial ATA), FC (Fibre Channel), and SCSI interfaces. Among them, the SCSI interface has been an interface by the parallel transmission method so far, but as the transfer performance is improved, it becomes a limit on the performance of the parallel transmission method, and in order to perform higher speed transmission in the future, Transition to a SAS (Serial Attached SCSI) interface.

  In the case of FC, as a method of connecting a transfer source (initiator) and a transfer destination (target), a point-to-point method in which one-to-one connection is used, and an initiator using FC-SW (Fibre Channel Switch). There is a method of connecting any number of targets, but FC devices are generally expensive, so if the entire system is configured, the system becomes very expensive.

  The SAS interface is basically a point-to-point connection method, but there is an expander that relays data transfer as a device corresponding to the FC-SW. By using an expander, a large number of initiators and targets can be connected.

  Patent Document 1 discloses that the number of interfaces can be increased according to the number of devices and interfaces mounted as a blade server.

JP 2004-355351 A

  In a storage blade equipped with a storage device equipped with an interface that assumes a one-to-one connection between the target and the initiator, such as a SAS interface, an arbitrary number of control server blades for the storage blade, and an optional When connecting a storage blade equipped with the number of storage devices on the backplane board, connections for the number of storage devices are required, and the number of pins in each slot is limited. Because the limit of expandability and the pin arrangement of the server blade and storage blade cannot be made common, it was not possible to configure with any combination of server blade and storage blade.

  An object of the present invention is to connect an arbitrary number of storage blades and an arbitrary number of server blades on a backplane board.

  The present invention includes at least one server blade, at least one storage blade, an expander that relays transfer data between the server blade and the storage blade, and the server blade and the storage blade are mounted on a backplane board. A blade server device that is mounted in any one of the plurality of slots and connected by a predetermined interface, and the slot in which either the server blade or the storage blade is mounted has the same physical configuration as the same signal pin And having electrical specifications.

  According to the present invention, the interface device is assumed to be one-to-one connection, and an arbitrary number of servers blades and an arbitrary number of storage blades are connected to each other by a backplane board. Thus, it is possible to configure the system by connecting the devices, and the degree of freedom of the device configuration is improved.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 shows an example of the overall configuration of a blade server device (G10) used in this embodiment.

  The blade server device (G10) includes six server blades (G51 to G56), two storage blades (G21 to G22), and four storage devices (G31 to G32) built in each storage blade. A backplane board (G41) for connecting each server blade and the interface part of each storage blade, and two SAS expanders (G61 to G62) for controlling the interface between each server blade and each storage blade Have. In this embodiment, six server blades, two storage blades, and four storage devices are installed in each storage blade, but the number is arbitrary. The storage device installed here is a hard disk device.

  The backplane board (G41) is used for the physical connection of the interface part between the server blade and the storage blade. The backplane board also includes connection of transmission control interfaces.

  FIG. 2 shows a connection example of a server blade, a storage blade, and a SAS expander. FIG. 2 shows an embodiment in SAS (Serial Attached SCSI).

  The blade server device (D10) includes server blades (D101 to D102), storage blades (D201), and expanders (D301 to D302). In this embodiment, the number of server blades is two and the number of storage blades is one, but the number is arbitrary.

  The server blade (D101) has a SAS controller (D121) for controlling the storage devices (D141 to D142), and the server blade (D102) also has a SAS controller for controlling the storage devices (D143 to D144). (D122). The SAS controllers (D121 and D122) have a function of controlling storage devices mounted on the storage blade (D201) and a function of controlling storage devices (D141 to D142) mounted on the server blade, The storage devices mounted on the server blade are connected via expanders (D131 and D132).

  The storage blade (D201) has four storage devices (D211 to D214), and each storage device is connected by two expanders (D231 and D232). The reason for using two expanders is to provide redundancy.

  The SAS expanders (D301 and D302) have a function of connecting the server blades (D101 to D102) and the storage blade (D201). Connection management information (D311 and D312) is set in advance for performing this function. In order to perform the setting, setting tools (T311 and T312) are provided. For example, a combination of port 1 (P1), port 4 (P4), and port 5 (P5) and a combination of port 2 (P2), port 4 (P4), and port 5 (P5) are connected management information (D311 and D312). ), The server blade (D101) can control the storage devices (D141 to D144) and the storage devices (D211 to D214) in the storage blade (D201) via the SAS expander (D231). The server blade (D102) can control the storage devices (D141 to D144) and the storage devices (D211 to D214) in the storage blade D201 via the SAS expander (D232).

  FIG. 3 shows connection management information (D311 and D312) set in the embodiment of FIG.

It is a figure which shows the example of whole structure of the blade server apparatus by one Example of this invention. It is a figure which shows the example of a connection of a server blade, a storage blade, and a SAS expander by one Example of this invention. It is a figure which shows the example of connection management information by one Example of this invention.

Explanation of symbols

G10 Blade server devices G21 to G22 Storage blades G31 to G32 Storage devices G41 Backplane boards G51 to G56 Server blades G61 to G62 SAS expanders G71 to G72 External storage devices G81 to G86 Storage devices D10 Blade server devices D101 to D102 Server blades D121 to D122 SAS controllers D131 to D132 SAS expanders D141 to D144 Storage device D201 Storage blades D211 to D214 Storage devices D231 to D232 SAS expanders D301 to D302 SAS expanders D311 to D312 Connection management information T311 to T312 Connection management information setting means P1 to P6 SAS input / output ports

Claims (6)

At least one server blade, at least one storage blade, the server blade, and a first expander that relays transfer data between the storage blades, the server blade and the storage blade on a backplane board A blade server device that is mounted in one of a plurality of slots and connected via a predetermined interface,
The blade server apparatus characterized in that the slot in which either the server blade or the storage blade is mounted has the same signal pin arrangement and the same physical and electrical specifications.   The storage blade has at least one storage device, and the at least one storage device is connected to a predetermined interface arranged on the backplane board via a second expander. The blade server device according to claim 1.   The server blade has a storage device control device and at least one storage device, and the at least one storage device is arranged on the storage device control device or the backplane board via a third expander. The blade server device according to claim 1, wherein the blade server device is connected to the interface.   4. The blade server device according to claim 1, wherein the predetermined interface is a SAS interface.   The blade server device according to claim 1, wherein the first expander includes a plurality of input / output ports and connection management information defining a combination of connections of the plurality of input / output ports.   6. The blade server system according to claim 5, wherein the first expander includes setting input means for setting the connection management information.

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