CN208752617U - A kind of L-type 2U storage server for supporting 8 disk positions - Google Patents
A kind of L-type 2U storage server for supporting 8 disk positions Download PDFInfo
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- CN208752617U CN208752617U CN201821086771.7U CN201821086771U CN208752617U CN 208752617 U CN208752617 U CN 208752617U CN 201821086771 U CN201821086771 U CN 201821086771U CN 208752617 U CN208752617 U CN 208752617U
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Abstract
A kind of L-type 2U storage server for supporting 8 disk positions provided by the utility model, using first processor, second processor, mainboard, first PEIB, 2nd PEIB, first connector, second connector, server backplane, the first processor and second processor setting are on the main board, first PEIB can be communicated with the first processor and second processor, 2nd PEIB is only communicated with the second processor, first PEIB connects the server backplane by first connector, 2nd PEIB connects the server backplane by second connector, first connector at least 3, the structure of second connector at least 2, solution can only individually use one mode in the prior art, scalability cannot be sufficiently sharp With heat dissipation performance bad technical problem in the case of realization makes full use of CPU PCIE Lane, loads NVME equipment, while increasing GPU Card, system radiating performance is good, the stable technical effect of system.
Description
Technical field
The utility model relates to server fields, in particular to a kind of L-type 2U storage server for supporting 8 disk positions.
Background technique
For field of storage, solid-state hard disk SSD helps to eliminate storage bottleneck, supports bigger, more economical data set, but
NVME SSD based on PCIE interface has higher data transmission performance, and improve data-interface efficiency has the smallest prolong simultaneously
When, lower power consumption limit has a large amount of uses in controller storage server at present, and many manufacturer servers are
Start the slot position of standard configuration NVME SSD;The server of one 2U can support 8 disk position NVME SSD, can also be extended by PCIE
Mode, support 16 disk position NVME, while a server can also extend connection NVME JBOD etc..
Currently based on eight disk position NVME SSD, there are two types of individual design method is as follows:
(1) the PCIE Lane of mainboard CPU1 & CPU2 is transferred out by using PEIB, above PEIB specification, design
Two Slim SAS X8 Connect mono- PCIE X8 SLOT of &, wherein PCIE X8 is used to extend PCIE Device.
(2) the PCIE Lane of mainboard CPU2 is transferred out by using PEIB, for PEIB specification, designs two kinds of different rule
Lattice PEIB, one goes out three Slim SAS X8 interfaces, and one goes out two Slim SAS X8 interfaces, extends eight NVME signals.
First way, each CPU have more one group of PCIE X8 Slot, can be extended two groups of different GPU
Card & PCIE standard Card;The second way exports eight NVME merely with the PCIE Lane of CPU2, CPU1 specification
PCIE is not used, includes GPU & PCIE standard Card for extending other PEIB Card..
Utility model content
The utility model provides a kind of L-type 2U storage server for supporting 8 disk positions, using first processor, second processing
Device, mainboard, the first PEIB, the 2nd PEIB, the first connector, the second connector, server backplane, the first processor and institute
State second processor setting on the main board, the mainboard is connected with the first PEIB, the 2nd PEIB respectively, described
First PEIB can be communicated with the first processor and second processor, and the 2nd PEIB is only logical with the second processor
Letter, the first PEIB connect the server backplane by first connector, and the 2nd PEIB passes through described second
The connector connection server backplane, first connector at least 3, the knot of second connector at least 2
Structure, solution can only individually use one mode in the prior art, and scalability cannot make full use of, the bad technology of heat dissipation performance
Problem.
The L-type 2U storage server for the 8 disk position of this support that the utility model provides to solve above-mentioned technical problem, packet
Include first processor, second processor, mainboard, the first PEIB, the 2nd PEIB, the first connector, the second connector, server back
Plate, the first processor and the second processor setting on the main board, the mainboard respectively with the first PEIB,
The 2nd PEIB connection, the first PEIB can be communicated with the first processor and second processor, and described second
PEIB is only communicated with the second processor, and the first PEIB connects the server backplane by first connector,
2nd PEIB connects the server backplane by second connector, first connector at least 3, described
Second connector at least 2.
Further improvement of the utility model is: the port Slim SAS X8, NVME SSD is arranged in the server backplane
Port, the port Slim SAS X8 at least 4 are installed, the NVME SSD installs port at least 8.
Further improvement of the utility model is: the port Slim SAS X8, PCIE 16X+ is arranged in the first PEIB
8X SLOT, PCIE X8 SLOT, the port Slim SAS X8 at least 3, the PCIE 16X+8X SLOT at least 1
A, the PCIE X8 SLOT at least 1, the first PEIB pass through the PCIE 16X+8X SLOT connection master
Plate, the first PEIB connect first connector by the port Slim SAS X8.
Further improvement of the utility model is: the port Slim SAS X8, PCIE 16X+ is arranged in the 2nd PEIB
8X SLOT, PCIE X8 SLOT, the port Slim SAS X8 at least 2, the PCIE 16X+8X SLOT at least 1
A, the PCIE X8 SLOT at least 1, the 2nd PEIB pass through the PCIE 16X+8X SLOT connection master
Plate, the 2nd PEIB connect second connector by the port Slim SAS X8.
Further improvement of the utility model is: first connector use SFF-8639 connector, described first
Connector one end connects the port Slim SAS X8 of the first PEIB, described in the first connector other end connection
The port Slim SAS X8 of server backplane.
Further improvement of the utility model is: second connector use SFF-8639 connector, described second
Connector one end connects the port Slim SAS X8 of the 2nd PEIB, described in the second connector other end connection
The port Slim SAS X8 of server backplane.
The utility model has the advantages that realizing that two kinds of integrated modes are compatible simultaneously based on eight disk positions possessed by the utility model, 8 are realized
Full NVME equipment, while supporting PCIE extension function, it can support the equipment such as GPU;In the case of making full use of CPU PCIE Lane,
NVME equipment is loaded, while increasing GPU Card, realizes super operation store function, system radiating performance is good, and system is stablized.
Detailed description of the invention
Fig. 1 is the connection that four hard disks are respectively set in first processor described in the utility model and the second processor
Figure.
Fig. 2 is the wiring that four hard disks are respectively set in first processor described in the utility model and the second processor
Figure.
Fig. 3 is that six hard disks are arranged in first processor described in the utility model and two hard disks are arranged in the second processor
Connection figure.
Fig. 4 is that six hard disks are arranged in first processor described in the utility model and two hard disks are arranged in the second processor
Wiring diagram.
Specific embodiment
In conjunction with above-mentioned Detailed description of the invention specific embodiment of the utility model.
By Fig. 1 to Fig. 4 it is found that the utility model provides a kind of L-type 2U storage server for supporting 8 disk positions, including first
Processor, second processor, mainboard, the first PEIB, the 2nd PEIB, the first connector, the second connector, server backplane, institute
State first processor and second processor setting on the main board, the mainboard respectively with the first PEIB, described
2nd PEIB connection, the first PEIB can be communicated with the first processor and second processor, and the 2nd PEIB is only
It being communicated with the second processor, the first PEIB connects the server backplane by first connector, and described the
Two PEIB connect the server backplane by second connector, and first connector at least 3, described second connects
Connect device at least 2.
The server backplane setting port Slim SAS X8, NVME SSD install port, the end Slim SAS X8
At least 4, mouth, the NVME SSD install port at least 8.
The port Slim SAS X8, PCIE 16X+8X SLOT, PCIE X8 SLOT is arranged in first PEIB, described
The port Slim SAS X8 at least 3, the PCIE 16X+8X SLOT at least 1, the PCIE X8 SLOT is at least
1, the first PEIB passes through the Slim by the PCIE 16X+8X SLOT connection mainboard, the first PEIB
The port SAS X8 connects first connector.
The port Slim SAS X8, PCIE 16X+8X SLOT, PCIE X8 SLOT is arranged in 2nd PEIB, described
The port Slim SAS X8 at least 2, the PCIE 16X+8X SLOT at least 1, the PCIE X8 SLOT is at least
1, the 2nd PEIB passes through the Slim by the PCIE 16X+8X SLOT connection mainboard, the 2nd PEIB
The port SAS X8 connects second connector.
First connector uses SFF-8639 connector, and first connector one end connects the first PEIB's
The port Slim SAS X8, the first connector other end connect the end Slim SAS X8 of the server backplane
Mouthful.
Second connector uses SFF-8639 connector, and second connector one end connects the 2nd PEIB's
The port Slim SAS X8, the second connector other end connect the end Slim SAS X8 of the server backplane
Mouthful.
As depicted in figs. 1 and 2, the first processor passes through described in the PCIE 16X+8X SLOT connection on the mainboard
First PEIB, the second processor are described by PCIE 16X+8X SLOT connection the 2nd PEIB on the mainboard
First PEIB and the 2nd PEIB is respectively adopted the port 2 Slim SAS X8, passes through first connector and institute
The second connector is stated, the server backplane is connected to, the NVME SSD installation port installation on the server backplane
NVME SSD, the NVME SSD have 8.The PCIE X8 reserved above the first PEIB and the 2nd PEID simultaneously
Slot can extend the relevant card of PCIE, in 2U specification cabinet inside, can carry out GPU and standard PCIE Card group
It closes.
As shown in Figure 3 and Figure 4, the first PEIB and the 2nd PEIB draws PCIE from the second processor
Lane, the first PEIB are separately connected 3 first connectors using 3 ports Slim SAS X8, described in 3
3 ports Slim SAS X8 that first connector is separately connected on the server backplane, the 2nd PEIB use 1
A port Slim SAS X8 connects second connector, and second connector connects 1 on the server backplane
The port Slim SAS X8, NVME SSD is installed in the NVME SSD installation port on the server backplane, described
NVME SSD has 8, the PCIE Riser Card being in addition available on the first CPU, in 2U specification cabinet inside, can carry out
GPU and standard PCIE Card combination.
On the basis of current PCIe NVME, according to customer demand, a variety of extended modes can be changed, support NVME specification
While, SAS, combination NVME can also be supported to mix with SAS, more advanced PCIE Slot GPU combination can also be expanded
Mode had not only met high speed massive store, but also met the super operation of CPU module.
It, cannot the above content is specific preferred embodiment further detailed description of the utility model is combined
Assert that the utility model specific implementation is only limited to these instructions, for the ordinary skill people of the utility model technical field
For member, without departing from the concept of the premise utility, a number of simple deductions or replacements can also be made, all should be considered as
Belong to the protection scope of utility model.
Claims (6)
1. a kind of L-type 2U storage server for supporting 8 disk positions, it is characterised in that: the L-type 2U storage server of the 8 disk position of support
Including first processor, second processor, mainboard, the first PEIB, the 2nd PEIB, the first connector, the second connector, server
On the main board, the mainboard is respectively with described first for backboard, the first processor and second processor setting
PEIB, the 2nd PEIB connection, the first PEIB can be communicated with the first processor and second processor, and described
Two PEIB are only communicated with the second processor, and the first PEIB connects the server back by first connector
Plate, the 2nd PEIB connect the server backplane by second connector, and first connector at least 3,
Second connector at least 2.
2. the L-type 2U storage server according to claim 1 for supporting 8 disk positions, it is characterised in that: the server backplane
The port Slim SAS X8 is set, NVME SSD installs port, the port Slim SAS X8 at least 4, the NVME
SSD installs port at least 8.
3. the L-type 2U storage server according to claim 2 for supporting 8 disk positions, it is characterised in that: the first PEIB is set
Set the port Slim SAS X8, PCIE 16X+8X SLOT, PCIE X8 SLOT, the port Slim SAS X8 at least 3,
The PCIE 16X+8X SLOT at least 1, the PCIE X8 SLOT at least 1, the first PEIB pass through described
The PCIE 16X+8X SLOT connection mainboard, the first PEIB pass through the port Slim SAS X8 connection described first
Connector.
4. the L-type 2U storage server according to claim 2 for supporting 8 disk positions, it is characterised in that: the 2nd PEIB is set
Set the port Slim SAS X8, PCIE 16X+8X SLOT, PCIE X8 SLOT, the port Slim SAS X8 at least 2,
The PCIE 16X+8X SLOT at least 1, the PCIE X8 SLOT at least 1, the 2nd PEIB pass through described
The PCIE 16X+8X SLOT connection mainboard, the 2nd PEIB pass through the port Slim SAS X8 connection described second
Connector.
5. the L-type 2U storage server according to claim 2 for supporting 8 disk positions, it is characterised in that: first connector
Using SFF-8639 connector, first connector one end connects the port Slim SAS X8 of the first PEIB, institute
State the port Slim SAS X8 that the first connector other end connects the server backplane.
6. the L-type 2U storage server according to claim 2 for supporting 8 disk positions, it is characterised in that: second connector
Using SFF-8639 connector, second connector one end connects the port Slim SAS X8 of the 2nd PEIB, institute
State the port Slim SAS X8 that the second connector other end connects the server backplane.
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CN201821086771.7U CN208752617U (en) | 2018-07-10 | 2018-07-10 | A kind of L-type 2U storage server for supporting 8 disk positions |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110209247A (en) * | 2019-05-20 | 2019-09-06 | 深圳市同泰怡信息技术有限公司 | A kind of method and apparatus and equipment of 4U storage server that setting up different types of machines |
CN110221999A (en) * | 2019-05-23 | 2019-09-10 | 深圳市同泰怡信息技术有限公司 | It is realized based on standard PCIE and supports GPU and M2 SSD extension adapter and implementation method |
-
2018
- 2018-07-10 CN CN201821086771.7U patent/CN208752617U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110209247A (en) * | 2019-05-20 | 2019-09-06 | 深圳市同泰怡信息技术有限公司 | A kind of method and apparatus and equipment of 4U storage server that setting up different types of machines |
CN110221999A (en) * | 2019-05-23 | 2019-09-10 | 深圳市同泰怡信息技术有限公司 | It is realized based on standard PCIE and supports GPU and M2 SSD extension adapter and implementation method |
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