CN106502933A - A kind of hard disk can dynamically distributes four component server systems - Google Patents

Abstract

The invention discloses a kind of hard disk can dynamically distributes four component server systems, the system includes 4 nodes, each node increases the PCIE of an X16 newly, add an interconnection module based on 9797 chips of PLX between node and hard disk backboard, the interconnection module is managed by ARM CPU, the interconnection between node and node and hard disk dynamically distributes are realized.The present invention can pass through the interconnection between node and node and dynamic hard disk allocative decision realizes variation, the task of complication.Can more interconnect between node, effectively improve the competitiveness of product in market.Can save space, improve node radiating, also reserved space for the integrated more multifunction module of mainboard.Strengthen the performance of product.

Description

A kind of hard disk can dynamically distributes four component server systems

Technical field

The present invention relates to server system architecture technical field, and in particular to a kind of hard disk can dynamically distributes four components clothes Business device system, a kind of based on PCIE SWITCH (PLX9797) chips hard disk can dynamically distributes four component system architectures.

Background technology

With the development of cloud computing technology, application, informationization is gradually coated on the every field of society.The daily work of people Make that life is more and more diversified, being served by for needs is also more and more, for four traditional components, some and node it Between do not interconnect, single node task is single, it is impossible to meet diversified demand of the different application to system.

In four traditional components, there is no the framework for interconnecting between node, only 4 two-ways in a 2U space Server, only controls fan and power supply between each node, for the letter inside single node simply by I2C alternative routes Cease other nodes to share, and storage medium can not be shared.The demand of present market diversification cannot be met.

As shown in figure 1, the mutual contact mode of four components for conventional architectures, node and hard disk mutual contact mode are direct-connected, node Without interconnecting relation between node.Except radiating and power supply plan be integrated exterior node be independent four configuration identical two-way Server, form are single.

Content of the invention

The technical problem to be solved in the present invention is：The present invention is directed to problem above, there is provided a kind of hard disk can dynamically distributes Four component server systems.On the basis of four traditional component frameworks, each NODE increases the PCIE of an X16 newly, in NODE Add an interconnection module based on 9797 chips of PLX and hard disk backboard between, solve hard disk dynamically distributes and node is mutual The problem of connection.

The technical solution adopted in the present invention is：

A kind of hard disk can dynamically distributes four component server systems, the system includes 4 nodes, and each node is newly-increased one The PCIE of X16, adds an interconnection module based on 9797 chips of PLX, between node and hard disk backboard by ARM CPU The interconnection module is managed, the interconnection between node and node and hard disk dynamically distributes are realized.

The CPU1 of each node mainboard of the system pulls out the connection of the PCIE to node rear of an X16 to node rear Device, 4 nodes link to two 9797 chips of PLX by adapter, mutual by one group of X16 PCIE between two chips Connection, connects the NVME hard disks of 12 piece of 8639 agreement, realizes hard disk by 9797 chips of PLX below every 9797 chip of PLX Dynamically distributes and the interconnection of node, the embodiment of management layer are to pass through two groups of PCIE X1 with the CPU of an ARM framework Line is connected to 9797 chips of PLX and manages, and realizes that the interconnection between node is managed.

4 nodes of the system are NODE0, NODE1, NODE2 and NODE3, realize that process is as follows：

1）, single node mainboard be connected X16 PCIE to interface with middle plate；

2）, node NODE0 and NODE1 be connected to 9797 chip of PLX, node NODE2 and NODE3 are connected to a PLX 9797 chips；

3）, between two 9797 chips of PLX by one group of X16 PCIE link；

4）, every 9797 chip of PLX separates the PCIE of X48 again and connects 12 pieces of NVME hard disks；

5）, two 9797 chips of PLX respectively have an X1 PCIE to be connected to distribution of the ARM CPU for link management.

Beneficial effects of the present invention are：

The present invention realizes the data interconnection between node by the mutual contact mode between change node and hard disk, and realizes node The dynamically distributes of interconnection NVME hard disks, it is achieved that the diversified pattern of four component tasks, improve the market competitiveness of the type.

Description of the drawings

Fig. 1 is traditional four components scheme interconnection architecture schematic diagram；

Fig. 2 is scheme interconnection architecture schematic diagram in four components of the invention.

Specific embodiment

Below according to Figure of description, in conjunction with specific embodiment, the present invention is further described：

Embodiment 1

As shown in Fig. 2 a kind of hard disk can dynamically distributes four component server systems, the system includes 4 nodes, each NODE increases the PCIE of an X16 newly, between NODE and hard disk backboard adds an interconnection module based on 9797 chips of PLX, The interconnection module is managed by ARM CPU, the interconnection between node and node and hard disk dynamically distributes are realized.

Embodiment 2

On the basis of embodiment 1, the CPU1 of each node mainboard of system described in the present embodiment pulls out an X16's to node rear The adapter CONN of PCIE to node rear, 4 nodes link to two 9797 chips of PLX by adapter CONN, two By one group of X16 PCIE interconnection between chip, below every 9797 chip of PLX, connect the NVME hard disks of 12 piece of 8639 agreement, The dynamically distributes of hard disk and the interconnection of node are realized by 9797 chips of PLX, the embodiment of management layer is with an ARM The CPU of framework is connected to 9797 chips of PLX by the line of two groups of PCIE X1 and manages, and realizes the mutual union between node Reason.

Embodiment 3

On the basis of embodiment 2, described in the present embodiment, systematic realizing program is as follows：

1）, single node mainboard be connected X16 PCIE to interface with middle plate；

2）, node NODE0 and NODE1 be connected to 9797 chip of PLX, node NODE2 and NODE3 are connected to a PLX 9797 chips；

3）, between two 9797 chips of PLX by one group of X16 PCIE link；

4）, every 9797 chip of PLX separates the PCIE of X48 again and connects 12 pieces of NVME hard disks；

5）, two 9797 chips of PLX respectively have an X1 PCIE to be connected to distribution of the ARM CPU for link management.

So, a kind of based on PCIE SWITCH (PLX9797) chips hard disk can four component frameworks of dynamically distributes can be real Existing.

Embodiment is merely to illustrate the present invention, and not limitation of the present invention, about the ordinary skill of technical field Personnel, without departing from the spirit and scope of the present invention, can also make a variety of changes and modification, therefore all equivalents Technical scheme fall within scope of the invention, the scope of patent protection of the present invention should be defined by the claims.

Claims (3)

1. a kind of hard disk can dynamically distributes four component server systems, it is characterised in that the system includes 4 nodes, per Individual node increases the PCIE of an X16 newly, adds a mutual gang mould based on 9797 chips of PLX between node and hard disk backboard Group, manages the interconnection module by ARM CPU, realizes the interconnection between node and node and hard disk dynamically distributes.

2. a kind of hard disk according to claim 1 can dynamically distributes four component server systems, it is characterised in that described The CPU1 of each node mainboard of system pulls out the adapter of the PCIE to node rear of an X16 to node rear, 4 nodes logical Cross adapter and link to two 9797 chips of PLX, by one group of X16 PCIE interconnection, every PLX 9797 between two chips Connect the NVME hard disks of 12 piece of 8639 agreement below chip, dynamically distributes and the node that hard disk is realized by PLX 9797 chips Interconnection, the embodiment of management layer is to be connected to PLX 9797 with the CPU of an ARM framework by the line of two groups of PCIE X1 Chip is managed, and realizes that the interconnection between node is managed.

3. a kind of hard disk according to claim 2 can dynamically distributes four component server systems, it is characterised in that described 4 nodes of system are NODE0, NODE1, NODE2 and NODE3, realize that process is as follows：

1）, single node mainboard be connected X16 PCIE to interface with middle plate；

2）, node NODE0 and NODE1 be connected to 9797 chip of PLX, node NODE2 and NODE3 are connected to a PLX 9797 chips；

3）, between two 9797 chips of PLX by one group of X16 PCIE link；

4）, every 9797 chip of PLX separates the PCIE of X48 again and connects 12 pieces of NVME hard disks；

5）, two 9797 chips of PLX respectively have an X1 PCIE to be connected to distribution of the ARM CPU for link management.