CN105095143A - Server node and complete machine cabinet server - Google Patents

Abstract

The invention provides a server node and a complete machine cabinet server. The server node comprises at least a central processor, at least a graphics processor, a storage unit, a power supply unit, and a chip set. At least a central processor is connected with the at least a graphics processor. The at least a central processor is connected in series with each other. Any central processor is interconnected with the chip set. The at least a graphics processor assists the at least a central processor to process data. The storage unit comprises a backboard and a hard disk. The hard disk is connected with the chip set and the power supply unit through the backboard. The power supply unit is connected with any one or more of the at least a central processor, the at least a graphics processor, the storage unit, and the chip set, and is used to take electricity from the external, and supplies power for any one or more of the at least a central processor, the at least a graphics processor, the storage unit, and the chip set, so that processing efficiency of the server node is effectively improved.

Description

A kind of server node and whole machine cabinet server

Technical field

The present invention relates to field of computer technology, particularly a kind of server node and whole machine cabinet server.

Background technology

Along with the range of application of server constantly expands, enterprise requires increasing to the calculated performance of server, and at present, in order to meet the demand of the application such as cloud computing, large data processing, highdensity rack server system is more and more favored.This kind of equipment cabinet server is jointly run mainly through the central processing unit (CPU) on each service node and is realized system computing capacity maximization.But along with internet requires more and more higher to visual effect, the process of a large amount of graphics process, video data and computing have become the primary demand of enterprise to equipment cabinet server, and existing equipment cabinet server is only by a large amount of figure of CPU process in each server node and video data etc., to a certain extent, the treatment effeciency of server node is reduced.

Summary of the invention

The invention provides a kind of server node and whole machine cabinet server, improve the treatment effeciency of server node.

A kind of server node, comprising: at least one central processing unit, at least one graphic process unit, storage unit, power supply unit and chipset, wherein,

At least one central processing unit described is connected respectively at least one graphic process unit described by PCIE bus, connected by QPI bus between at least one central processing unit described, at least one central processing unit described, any one central processing unit and described chipset interconnect;

At least one graphic process unit described, for assisting at least one central processing unit process data described;

Described storage unit, comprises backboard and hard disk, and described hard disk is connected respectively to described chipset and described power supply unit by described backboard;

Described power supply unit, be connected respectively at least one central processing unit described, at least one graphic process unit described, any one or more in described storage unit and described chipset, for from external electricity, and be at least one central processing unit described, at least one graphic process unit described, any one or more power supply in described storage unit and described chipset.

Preferably, above-mentioned server node, comprises further: cabinet,

Described cabinet is used for depositing at least one central processing unit described, at least one graphic process unit described, described storage unit, described power supply unit and described chipset.

Preferably, described cabinet height is 1U.

Preferably, above-mentioned server node, comprising: two described central processing units and four described graphic process unit; Wherein,

The first central processing unit in described two central processing units, be connected respectively to the first graphic process unit in described four graphic process unit and described second graph processor by two PCIE × 16 buses, between the first graphic process unit and described second graph processor, carry out point to point link;

The second central processing unit in described two central processing units, be connected respectively to the 3rd graphic process unit in described four graphic process unit and described 4th graphic process unit by two articles of PCIE × 16 buses, carry out point-to-point between the 3rd graphic process unit and described 4th graphic process unit and lead to.

Preferably, above-mentioned server node, comprises further: two expansion slots and two standard cards; Wherein,

In described two expansion slots, the first expansion slot, is connected with the first standard card in described two standard cards;

In described two expansion slots, the second expansion slot, is connected with the second standard card in described two standard cards;

Described two standard cards are connected with described hard disk by described backboard;

Described first central processing unit is connected with the first expansion slot in described two expansion slots by PCIE bus;

Described second central processing unit is connected with the second expansion slot in described two expansion slots by PCIE bus.

Preferably, above-mentioned server node, comprises further: slot expansion network subcard and management subelement, wherein,

Described first central processing unit, is connected to described chipset by DIM × 4, and is connected to slot expansion network subcard;

Described chipset, is connected to described management subelement by any one or more in PCIE × 1, LPC, I2C, USB;

Described slot expansion network subcard, is connected to described management subelement by NCSI.

Preferably, above-mentioned server node, comprises further: two four-way memory banks and 16 memory bars;

In described two four-way memory banks, each memory bank is used for assigning eight memory bars;

Each central processing unit described, is connected with described eight memory bars by described four-way memory bank.

Preferably, described second central processing unit, connects in slot expansion SAS subcard, RAID subcard and NVME subcard any one or more by PCIE × 8.

Preferably, above-mentioned server node, comprises further:

Signals Transfer Board, is connected with the administration module of peripheral hardware with described management subelement respectively, obtains supervisory signal, and this supervisory signal is sent to described management subelement for the administration module from described peripheral hardware.

Preferably, described central processing unit is IntelGrantley platform E5-2650V3 processor.

Preferably, described management subelement is AST2400.

Preferably, described graphic process unit is any one or two kinds in GPU card and mic card.

Preferably, described chipset is Wellsburg chipset.

A kind of whole machine cabinet server, comprising: any one server node above-mentioned, rack, supply module and administration module, wherein,

Described at least two described server nodes, described supply module and described administration module are positioned in same described rack;

Described supply module, for powering to the power supply unit in server node described in each;

Described administration module, for the transmission supervisory signal to server node described in each.

Embodiments provide a kind of server node and whole machine cabinet server, this server node, comprise: at least one central processing unit, at least one graphic process unit, storage unit, power supply unit and chipset, wherein, at least one central processing unit described is connected respectively at least one graphic process unit described by PCIE bus, connected by QPI bus between at least one central processing unit described, at least one central processing unit described, any one central processing unit and described chipset interconnect; At least one graphic process unit described, for assisting at least one central processing unit process data described; Described storage unit, comprises backboard and hard disk, and described hard disk is connected respectively to described chipset and described power supply unit by described backboard; Described power supply unit, be connected respectively at least one central processing unit described, at least one graphic process unit described, any one or more in described storage unit and described chipset, for from external electricity, and be at least one central processing unit described, at least one graphic process unit described, any one or more power supply in described storage unit and described chipset, by the synergy of central processing unit and graphic process unit, improves server node treatment effeciency effectively.

Accompanying drawing explanation

Fig. 1 provides a kind of server node structural representation for the embodiment of the present invention;

Fig. 2 provides a kind of server node structural representation for another embodiment of the present invention;

Fig. 3 provides a kind of server node structural representation for further embodiment of this invention;

Fig. 4 provides a kind of whole machine cabinet server architecture schematic diagram for the embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described.Obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

As shown in Figure 1, embodiments provide a kind of server node, comprising: at least one central processing unit 101, at least one graphic process unit 102, storage unit 103, power supply unit 104 and chipset 105, wherein,

At least one central processing unit 101 described is connected respectively at least one graphic process unit 102 described by PCIE bus, contacted by QPI bus between at least one central processing unit described, at least one central processing unit described, any one central processing unit 101 interconnects with described chipset 105;

At least one graphic process unit 102 described, for assisting at least one central processing unit process data described;

Described storage unit 103, comprises backboard 1031 and hard disk 1032, and described hard disk 1032 is connected respectively to described chipset 105 and described power supply unit 104 by described backboard 1031;

Described power supply unit 104, be connected respectively at least one central processing unit 101 described, at least one graphic process unit 102 described, any one or more in described storage unit 103 and described chipset 105, for from external electricity, and be at least one central processing unit 101 described, at least one graphic process unit 102 described, any one or more power supply in described storage unit 103 and described chipset 105.

In an alternative embodiment of the invention, above-mentioned server node, comprises further: cabinet,

Described cabinet is used for depositing at least one central processing unit 101 described, at least one graphic process unit 102 described, described storage unit 103, described power supply unit 104 and described chipset 105.

In still another embodiment of the process, above-mentioned server node, described cabinet height is 1U.

In another embodiment, above-mentioned server node, comprising: two described central processing units 101 and four described graphic process unit 102; Wherein,

The first central processing unit 101 in described two central processing units, be connected respectively to the first graphic process unit 102 in described four graphic process unit by two PCIE × 16 buses and carry out point to point link between described second graph processor 102, first graphic process unit and described second graph processor;

The second central processing unit 102 in described two central processing units, be connected respectively to the 3rd graphic process unit 102 in described four graphic process unit by two articles of PCIE × 16 buses and carry out point to point link between described 4th graphic process unit the 102, three graphic process unit and described 4th graphic process unit.

As shown in Figure 2, in still another embodiment of the process, the above-mentioned server node with two described central processing units 101 and four described graphic process unit 102, comprises further: two expansion slots and two standard cards; Wherein,

In described two expansion slots, the first expansion slot 2011, is connected with the first standard card 2021 in described two standard cards;

In described two expansion slots, the second expansion slot 2012, is connected with the second standard card 2022 in described two standard cards;

Described two standard cards are connected with described hard disk 1032 by described backboard 1031;

Described first central processing unit 101 is connected with the first expansion slot 2011 in described two expansion slots by PCIE bus;

Described second central processing unit 101 is connected with the second expansion slot 2012 in described two expansion slots by PCIE bus.

As shown in Figure 3, in still another embodiment of the process, above-mentioned server node, comprises further: slot expansion network subcard 301 and management subelement 302, wherein,

Described first central processing unit 101, is connected to described chipset by DIM × 4, and by being connected to slot expansion network subcard 301;

Described chipset 105, is connected to described management subelement 302 by any one or more in PCIE × 1, LPC, I2C, USB;

Described slot expansion network subcard 301, is connected to described management subelement 302 by NCSI.

In still another embodiment of the process, above-mentioned server node, comprises further: two four-way memory banks and 16 memory bar (not shown)s;

In described two four-way memory banks, each memory bank is used for assigning eight memory bars;

Each central processing unit described, is connected with described eight memory bars by described four-way memory bank.

In an embodiment of the invention, described second central processing unit, connects in slot expansion SAS subcard, RAID subcard and NVME subcard any one or more by PCIE × 8.

In still another embodiment of the process, above-mentioned server node, comprises further:

Signals Transfer Board (not shown), is connected with the administration module of peripheral hardware with described management subelement respectively, obtains supervisory signal, and this supervisory signal is sent to described management subelement for the administration module from described peripheral hardware.

In an embodiment of the invention, described central processing unit is IntelGrantley platform E5-2650V3 processor.

In an embodiment of the invention, described management subelement is AST2400.

In an embodiment of the invention, described graphic process unit is any one or two kinds in GPU card and mic card.

In an embodiment of the invention, described chipset is Wellsburg chipset.

As shown in Figure 4, the embodiment of the present invention provides a kind of whole machine cabinet server, comprising: above-mentioned arbitrary described server node 401, rack 402, supply module 403 and administration module 404, wherein,

Described at least two described server nodes 401, described supply module 403 and described administration modules 404 are positioned in same described rack 402;

Described supply module 403, for powering to the power supply unit in server node described in each;

Described administration module 404, for the transmission supervisory signal to server node described in each.

Scheme described in the embodiment of the present invention, at least can reach following beneficial effect:

1. the server node that provides of the embodiment of the present invention, comprise: at least one central processing unit, at least one graphic process unit, storage unit, power supply unit and chipset, wherein, at least one central processing unit described is connected respectively at least one graphic process unit described by PCIE bus, and connected by QPI bus between at least one central processing unit described, at least one central processing unit described, any one central processing unit and described chipset interconnect; At least one graphic process unit described, for assisting at least one central processing unit process data described; Described storage unit, comprises backboard and hard disk, and described hard disk is connected respectively to described chipset and described power supply unit by described backboard; Described power supply unit, be connected respectively at least one central processing unit described, at least one graphic process unit described, any one or more in described storage unit and described chipset, for from external electricity, and be at least one central processing unit described, at least one graphic process unit described, any one or more power supply in described storage unit and described chipset, by the synergy of central processing unit and graphic process unit, improves server node treatment effeciency effectively.

2. the server node that the embodiment of the present invention provides carries at least one graphic process unit as GPU card by CPU, makes CPU and graphic process unit process data simultaneously, and the association's process achieving server node is accelerated.

3. this server node is applied in whole machine cabinet server, by supply module unification, the server node carried is powered and managed, each period of service node electricity consumption is obtained an equitable breakdown, save power consumption, simultaneously, by the operation of administration module unified management server node, make the operation of each server node more orderly.

4. this server node is applied in whole machine cabinet server, calculating and the memory node of variform can be supported, the Storage and Processing of mass data can be carried out, be particularly suitable for the application such as cloud computing, large data processing.

It should be noted that, in this article, the relational terms of such as first and second and so on is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other same factor.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment made, equivalent replacement, improvement etc., all should be included within the scope of protection of the invention.

Claims (10)

1. a server node, is characterized in that, comprising: at least one central processing unit, at least one graphic process unit, storage unit, power supply unit and chipset, wherein,

At least one central processing unit described is connected respectively at least one graphic process unit described by PCIE bus, connected by QPI bus between at least one central processing unit described, at least one central processing unit described, any one central processing unit and described chipset interconnect;

At least one graphic process unit described, for assisting at least one central processing unit process data described;

Described storage unit, comprises backboard and hard disk, and described hard disk is connected respectively to described chipset and described power supply unit by described backboard;

Described power supply unit, be connected respectively at least one central processing unit described, at least one graphic process unit described, any one or more in described storage unit and described chipset, for from external electricity, and be at least one central processing unit described, at least one graphic process unit described, any one or more power supply in described storage unit and described chipset.

2. server node according to claim 1, is characterized in that, comprises further: cabinet,

Described cabinet is used for depositing at least one central processing unit described, at least one graphic process unit described, described storage unit, described power supply unit and described chipset.

3. server node according to claim 2, is characterized in that, described cabinet height is 1U.

4. the server node according to claim 1 or 3, is characterized in that, comprising: two described central processing units and four described graphic process unit; Wherein,

The first central processing unit in described two central processing units, be connected respectively to the first graphic process unit in described four graphic process unit and described second graph processor by two PCIE × 16 buses, between the first graphic process unit and described second graph processor, carry out point to point link;

The second central processing unit in described two central processing units, be connected respectively to the 3rd graphic process unit in described four graphic process unit and described 4th graphic process unit by two articles of PCIE × 16 buses, carry out point-to-point between the 3rd graphic process unit and described 4th graphic process unit and lead to.

5. server node according to claim 4, is characterized in that, comprises further: two expansion slots and two standard cards; Wherein,

In described two expansion slots, the first expansion slot, is connected with the first standard card in described two standard cards;

In described two expansion slots, the second expansion slot, is connected with the second standard card in described two standard cards;

Described two standard cards are connected with described hard disk by described backboard;

Described first central processing unit is connected with the first expansion slot in described two expansion slots by PCIE bus;

Described second central processing unit is connected with the second expansion slot in described two expansion slots by PCIE bus.

6. server node according to claim 4, is characterized in that, comprises further: slot expansion network subcard and management subelement, wherein,

Described first central processing unit, is connected to described chipset by DIM × 4, and is connected to slot expansion network subcard;

Described chipset, is connected to described management subelement by any one or more in PCIE × 1, LPC, I2C, USB;

Described slot expansion network subcard, is connected to described management subelement by NCSI.

7. server node according to claim 4, is characterized in that, comprises further: two four-way memory banks and 16 memory bars;

In described two four-way memory banks, each memory bank is used for assigning eight memory bars;

Each central processing unit described, is connected with described eight memory bars by described four-way memory bank;

And/or,

Described second central processing unit, connects in slot expansion SAS subcard, RAID subcard and NVME subcard any one or more by PCIE × 8.

8. server node according to claim 6, is characterized in that, comprises further:

Signals Transfer Board, is connected with the administration module of peripheral hardware with described management subelement respectively, obtains supervisory signal, and this supervisory signal is sent to described management subelement for the administration module from described peripheral hardware.

9., according to the arbitrary described server node of claim 1 to 8, it is characterized in that,

Described central processing unit is IntelGrantley platform E5-2650V3 processor;

And/or,

Described management subelement is AST2400;

And/or,

Described graphic process unit is any one or two kinds in GPU card and mic card;

And/or,

Described chipset is Wellsburg chipset.

10. a whole machine cabinet server, is characterized in that, comprising: at least two the arbitrary described server nodes of claim 1 to 9, rack, supply module and administration modules, wherein,

Described at least two described server nodes, described supply module and described administration module are positioned in same described rack;

Described supply module, for powering to the power supply unit in server node described in each;

Described administration module, for the transmission supervisory signal to server node described in each.