CN203133675U

CN203133675U - High-density server

Info

Publication number: CN203133675U
Application number: CN 201320049503
Authority: CN
Inventors: 赖乾
Original assignee: Kunda Computer Technology Kunshan Co Ltd; Mitac International Corp
Current assignee: Kunda Computer Technology Kunshan Co Ltd; Brunswick New Technologies Asia Pte Ltd; Mitac International Corp
Priority date: 2013-01-30
Filing date: 2013-01-30
Publication date: 2013-08-14
Anticipated expiration: 2023-01-30

Abstract

The utility model provides a high-density server. The high-density server comprises a case, operating nodes and storing nodes, and a plurality of general storage spaces are arranged in the case; the operating nodes are arranged in the general storage spaces in an inserting mode, and one operating node is contained in any general storage space; and the storing nodes are arranged in the general storage spaces in an inserting mode, and one storing node is contained in any general storage space. According to the high-density server, the operating nodes and the storing nodes in needed numbers can be selectively arranged in the general storage spaces in an inserting mode, and therefore an operating function and a storing function can be configured flexibly.

Description

High density server

[technical field]

The utility model relates to a kind of high density server, but the high density server of a kind of elasticity configuration calculation function and memory function particularly.

[background technology]

Multi node server is compared with traditional single node server, shares heat radiation and power supply module in the multi node server.For example, the China's Mainland patented claim provides a kind of multi node server system for 201010518408.X number, be in a server system framework, a plurality of physics, separate computing node in logic are set, each computing node is provided with special-purpose IO unit; Framed structure of these nodes sharing and sharing functionality unit, this system architecture comprises: the server framework, sharing functionality unit, computing node, wherein: the server framework is the basis of architecture, be responsible for intrasystem each functional unit stationary installation, space for its deployment are provided, for each functional unit provides good system layout; The sharing functionality unit is responsible for the computing node operate as normal function support is provided, and comprises heat radiation, power supply; Computing node is the intrasystem core of multi node server, and this part is finished calculating, storage, the input/output function of data.

But the China's Mainland patented claim is disposed a plurality of computing nodes 201010518408.X number, the elasticity configuration calculation function of the quantity by computing node, but can't elasticity configuration memory function.

[summary of the invention]

But fundamental purpose of the present utility model is to provide the high density server of a kind of elasticity configuration calculation function and memory function.

The utility model provides a kind of high density server, and it comprises cabinet, compute node and storage node, is provided with several general receiving spaces in the described cabinet; Described compute node is inserted in the described general receiving space, and 1 compute node is contained in arbitrary general receiving space; Described storage node is inserted in the described general receiving space, and 1 storage node is contained in arbitrary general receiving space.

Especially, be provided with the mixed-media network modules mixed-media receiving space in the described cabinet, plant mixed-media network modules mixed-media in the mixed-media network modules mixed-media receiving space.

Especially, the model of described cabinet is 4U.

Especially, described cabinet is provided with 18 general receiving spaces, 9 compute node, 9 storage nodes, and wherein, 9 compute node are contained in 9 general receiving spaces, and 9 storage nodes are contained in 9 general receiving spaces.

Especially, described 1 compute node comprises narrow boards motherboard and 2 first hard disc modules.

Especially, described 1 storage node 3 comprises storage machine plate and 4 second hard disc modules.

Especially, described mixed-media network modules mixed-media is 1 double-layer network module.

Especially, described mixed-media network modules mixed-media is 1 or 2 single layer network modules.

Especially, described cabinet is connected with the PCI/E that is connected between the compute node.

Especially, described cabinet is connected with the PCI/E that is connected between the storage node.

Compared with prior art, the utility model high density server can be in general receiving space compute node and the storage node of selectivity plant requirement, with elasticity configuration calculation function and memory function.

[description of drawings]

Fig. 1 is the structural representation of 18 compute node of planting in the utility model high density server.

Fig. 2 plants the structural representation of 9 compute node and 9 storage nodes in the utility model high density server.

Fig. 3 is the partial structurtes synoptic diagram of Fig. 2.

Fig. 4 is the structural representation of 3 compute node of planting in the utility model high density server.

Fig. 5 plants the structural representation of 1 compute node and 1 storage node in the utility model high density server.

Fig. 6 is the structural representation of compute node in the utility model high density server.

Fig. 7 is the structural representation of storage node in the utility model high density server.

[embodiment]

See also Fig. 1 and shown in Figure 2, the utility model provides a kind of high density server; It comprises cabinet 1, compute node 2 and storage node 3, and in present embodiment, the model of described cabinet 1 is 4U.Be provided with several general receiving spaces 11 in the described cabinet 1; General receiving space 11 is full load condition, that is, and and the compute node 2 of all planting in the general receiving space 11 or storage node 3, and 1 compute node 2 is contained in arbitrary general receiving space 11; 1 storage node 3 is contained in arbitrary general receiving space 11.In addition, be provided with mixed-media network modules mixed-media receiving space 12 in the described cabinet 1, the interior plant mixed-media network modules mixed-media 4 of mixed-media network modules mixed-media receiving space 12 (as shown in Figure 4) (as shown in Figure 4).Mixed-media network modules mixed-media 4 can be 1 double-layer network module, 1 single layer network module or 2 single layer network modules.

Described cabinet 1 is provided with 18 general receiving spaces 11,2,18 compute node 2 of 18 compute node are contained in respectively in 18 general receiving spaces 11, and described cabinet 1 is connected with the PCI/E that is connected between the compute node 2.At this moment, the calculation function of high density server is the strongest.

See also Fig. 2 and shown in Figure 3, described cabinet 1 is provided with 18 general receiving spaces 11,9 compute node 2,9 storage nodes 3, wherein, 9 compute node 2 are contained in 9 general receiving spaces 11, and 9 storage nodes 3 are contained in 9 general receiving spaces 11.Also be provided with the sharing functionality unit in the described cabinet 1, in present embodiment, the sharing functionality unit comprises several blower modules 13 and power module 14.Described cabinet 1 is connected with the PCI/E that is connected between the compute node 2.Described cabinet 1 is connected with the PCI/E that is connected between the storage node 3.At this moment, the calculation function of high density server, memory function, Network Management Function reach optimization.

See also Fig. 4 and shown in Figure 5, the compute node 2 and storage node 3 of selectivity plant requirement are set up from minimal configuration as required, more progressively expansion.For example, the structural representation of 3 compute node 2 of plant in the high density server of Fig. 4.1 compute node 2 of plant and 1 storage node 3 in the high density server of Fig. 5.

See also shown in Figure 6ly, described 1 compute node 2 comprises narrow boards motherboard 21 and 2 first hard disc modules 22.

See also shown in Figure 7ly, described 1 storage node 3 comprises

storage machine plate

31 and 4 second hard disc modules 32.

The utility model high density server can be in general receiving space 11 compute node 2 and storage node 3 of selectivity plant requirement, with elasticity configuration calculation function and memory function.For example, under the full load condition, the compute node 2 of all planting in the general receiving space 11 or storage node 3, if all be plugged with compute node 2 in the general receiving space 11, then the calculation function of high density server is the strongest; If all plant storage node 3 in the general receiving space 11, then the memory function of high density server is the strongest; If the compute node 2 of half quantity of planting in the general receiving space 11 and the storage node 3 of half quantity, then the calculation function of high density server, memory function reach balance; The compute node 2 and storage node 3 of the minimum number that satisfies request for utilization if plant in the general receiving space 11 are to save configuration.In addition, plant mixed-media network modules mixed-media 4 does not need to buy in addition the network switch, cost saving to realize Network Management Function in the mixed-media network modules mixed-media receiving space 12.

The above; it only is embodiment of the present utility model; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; can expect easily changing or replacing, all should be encompassed within the protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claim.

Claims

1. high density server; It is characterized in that comprising:

Cabinet is provided with several general receiving spaces in it;

Compute node, it is inserted in the described general receiving space, and 1 compute node is contained in arbitrary general receiving space;

Storage node, it is inserted in the described general receiving space, and 1 storage node is contained in arbitrary general receiving space.

2. high density server according to claim 1 is characterized in that: be provided with the mixed-media network modules mixed-media receiving space in the described cabinet, plant mixed-media network modules mixed-media in the mixed-media network modules mixed-media receiving space.

3. high density server according to claim 1, it is characterized in that: the model of described cabinet is 4U.

4. high density server according to claim 3, it is characterized in that: described cabinet is provided with 18 general receiving spaces, 9 compute node, 9 storage nodes, wherein, 9 compute node are contained in 9 general receiving spaces, and 9 storage nodes are contained in 9 general receiving spaces.

5. high density server according to claim 4, it is characterized in that: described 1 compute node comprises narrow boards motherboard and 2 first hard disc modules.

6. high density server according to claim 5, it is characterized in that: described 1 storage node (3) comprises storage machine plate and 4 second hard disc modules.

7. high density server according to claim 2, it is characterized in that: described mixed-media network modules mixed-media is 1 double-layer network module.

8. high density server according to claim 2, it is characterized in that: described mixed-media network modules mixed-media is 1 or 2 single layer network modules.

9. high density server according to claim 4 is characterized in that: described cabinet is connected with the PCI/E that is connected between the compute node.

10. high density server according to claim 4 is characterized in that: described cabinet is connected with the PCI/E that is connected between the storage node.