CN106774700A - A kind of rack-mount server - Google Patents
A kind of rack-mount server Download PDFInfo
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- CN106774700A CN106774700A CN201611028905.5A CN201611028905A CN106774700A CN 106774700 A CN106774700 A CN 106774700A CN 201611028905 A CN201611028905 A CN 201611028905A CN 106774700 A CN106774700 A CN 106774700A
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- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/18—Packaging or power distribution
- G06F1/183—Internal mounting support structures, e.g. for printed circuit boards, internal connecting means
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Abstract
The invention discloses a kind of rack-mount server, including cabinet, backboard, at least a power module, at least a Switching Module and an at least hard disk driving module, solid state hard disc drive module and/or calculating cache module.An at least first network interface, at least one second network interface, at least at least one first power interface, a second source interface and an at least power supply interface are set on the backboard;Wherein, each described power supply interface is used to be connected with a power module;Each described first network interface is used to be connected with a hard disk driving module, solid state hard disc drive module or calculating cache module;Each described first power interface is used to be connected with a hard disk driving module, solid state hard disc drive module or calculating cache module;Each described second network interface and each described second source interface are respectively used to be connected with a Switching Module.The present invention can carry out grading and display in real time to the pixel of the picture after scaling, and the grading of real-time prompting picture quality, improves Consumer's Experience in the design process.
Description
Technical field
Embodiment of the present invention is related to server technology field, more particularly to a kind of rack-mount server.
Background technology
Software definition storage (Software Defined Storage, SDS), software defined network (Software
Defined Networking, SDN), software definition data center (Software Defined Data Center,
SSDC) ..., the epoch of a software definition all (Software Defined anything, SDX) arrive.However,
Although software can define all, can be realized it is necessary to have by the hardware of software definition.SDS, SDN and SSDC are come
Say, the hardware foundation of software definition is universal server.By taking SDS as an example, it is necessary first to pacify in the HDD or SSD of server
Dress can run storage and define the operating system of software and store definition software in itself, then cause that storage defines software and servicing
Run in the internal memory of device, so that universal server turns into storage device, the request of client is received and by number by Ethernet
According to storage to the SSD or HDD of server, or the data read-out that will be stored from SSD or HDD.
Current universal server typically using Intel be exclusively used in server to strong serial CPU, it is such logical
Had the disadvantages that with type server:
First, the need for the universal server of separate unit cannot meet high-performance calculation, it is necessary to by many universal server groups
Into cluster.But for the little application of numerous operands, the disposal ability of the universal server of separate unit is again superfluous, is needed
Being divided into many virtual servers or carry multiple storage device can just make full use of its disposal ability;But it is limited to
The CPU disposal abilities and the network bandwidth of the universal server of separate unit, when the virtual server or the storage device of mounting that divide reach
To after certain amount, CPU disposal abilities and the network bandwidth can be caused to turn into bottleneck;
2nd, in order to ensure versatility and autgmentability, a great deal of different types of interface is configured on mainboard, too many connects
Mouthful and peripheral hardware both increased the difficulty of configuration system, also increased power consumption and space accounts for rate, increased cost and power consumption;
3rd, in the distributed storage cluster for passing through software definition by many universal servers, every universal service
Device has been all connected with polylith HDD, if wherein one server failure, it will so that these HDD cannot work, cause whole group
Collection reliability reduction, maintenance cost increases;
4th, in addition to universal server can be programmed in itself, part such as HDD, SSD and internal memory mould of server are constituted
Group etc. cannot be programmed and cannot also defined by software.Not only increase power consumption, the space of server and cluster of servers
And cost, cause that server and cluster of servers lack flexibility and reliability again.
The content of the invention
Embodiment of the present invention, can be by disparate modules mainly solving the technical problems that provide a kind of rack-mount server
It is combined and expands according to the need for application, flexible configuration is convenient, and reduces power consumption, improves efficiency.
In order to solve the above technical problems, one aspect of the present invention is:A kind of rack-mount server is provided, is wrapped
Include cabinet, backboard and an at least power module;An at least first network interface, at least one second network is set on the backboard to connect
Mouth, at least at least one first power interface, a second source interface and an at least power supply interface;The server is also included extremely
A few Switching Module and an at least hard disk driving module, solid state hard disc drive module and/or calculating cache module;Wherein, often
The individual power supply interface is used to be connected with a power module;Each described first network interface is used for described with one hard
Dish driving module, solid state hard disc drive module calculate cache module connection;Each described first power interface is used for and one
The individual hard disk driving module, solid state hard disc drive module calculate cache module connection;Each described second network interface
It is respectively used to be connected with a Switching Module with second source interface each described.
Wherein, the hard disk driving module includes hard disk drive, the first bracket and first circuit board;First circuit
Plate is fixed on first bracket, and first bracket is positioned at the cabinet inside pluggablely;The first circuit board
Upper setting CPU, internal memory, network interface, power interface and data-interface;The hard disk drive sets data-interface and power supply connects
Mouthful, the data-interface and power interface with setting on the first circuit board are correspondingly connected respectively;The first circuit board sets
The network interface and power interface put are respectively used to the first network interface and the first power interface on the backboard accordingly
Grafting.
Wherein, the solid state hard disc module includes the second bracket and second circuit board;The second circuit board is fixed on institute
State on the second bracket, second bracket is positioned at the cabinet inside pluggablely;On the second circuit board set CPU,
Internal memory, network interface, power interface and multiple M.2 interface;M.2 the interface is used to connect solid state hard disc, the second circuit
The network interface and power interface that plate is set are respectively used to and the first network interface and the first power interface pair on the backboard
Should ground grafting.
Wherein, the 1-4 M.2 interface is set on the second circuit board.
Wherein, the calculating cache module includes the 3rd bracket and tertiary circuit plate;The tertiary circuit plate is fixed on institute
State on the 3rd bracket, the 3rd bracket is positioned at the cabinet inside pluggablely;On the tertiary circuit plate set CPU,
The M.2 interface of multiple small outline dual inline memory modules sockets, network interface, power interface and at least one;It is described M.2
Interface is used to connect solid state hard disc, and the small outline dual inline memory modules socket is used for the small outline dual inline of grafting
Internal memory, the network interface and power interface that the tertiary circuit plate is set is respectively used to and the first network interface on the backboard
With the accordingly grafting of the first power interface.
Wherein, M.2 interface described in, 2-8 small outline dual inline internal memory mould are set on the tertiary circuit plate
Group socket.
Wherein, the Switching Module includes the 4th bracket and the 4th circuit board;4th circuit board is fixed on described
On four brackets, the 4th bracket is positioned at the cabinet inside pluggablely;On 4th circuit board set CPU, internal memory,
Multiple network interfaces and power interface;The network interface and power interface that 4th circuit board is set are respectively used to and the back of the body
The second network interface and the accordingly grafting of second source interface on plate, the internal network interface also with the hard drive mould
Block, solid state hard disc drive module calculate cache module connection.
Wherein, 18 first network interfaces, 2 second network interfaces are set on the backboard, described in 18
First power interface, 2 second source interfaces and 2 power supply interfaces;Each first network interface grafting
One hard disk driving module or a solid state hard disc drive module, one institute of each second network interface grafting
Switching Module is stated, one hard disk driving module of each first power interface grafting or a solid state hard disc drive
Module, one Switching Module of each second source interface grafting, the power supply mould of each power supply interface grafting one
Block.
Wherein, set on the backboard 1 first network interface, 2 second network interfaces, 1 described the
One power interface, 2 second network interfaces and 2 power supply interfaces;The first network interface and described first
Power interface is distinguished cache module is calculated described in grafting one, one Switching Module of each second network interface grafting,
One Switching Module of each second source interface grafting, one power module of each power supply interface grafting.
Wherein, 18 first network interfaces, 2 second network interfaces are set on the backboard, described in 18
First power interface, 2 second source interfaces and 2 power supply interfaces;In 15 first network interfaces, often
Hard disk driving module described in first network interface grafting one described in, in remaining the 3 first network interfaces, each described
Cache module is calculated described in one network interface grafting one;In 15 first power interfaces, each first power interface
Hard disk driving module described in grafting one, in remaining 3 first power interfaces, the institute of each first power interface grafting one
State hard disk driving module;One Switching Module of each second network interface grafting, each second source interface
One Switching Module of grafting, one power module of each power supply interface grafting.
The beneficial effect of embodiment of the present invention is:The situation of prior art is different from, the machine in embodiment of the present invention
Rack server, set on backboard first network interface, the second network interface, the first power interface, second source interface with
And power supply interface, first network interface and the first power interface are respectively used to grafting hard disk driving module, solid state hard disc and drive mould
Block calculates cache module, and the second network interface and second source interface are respectively used to grafting Switching Module.The present invention is implemented
Rack-mount server in mode, whole modules can be programmed as smart machine, and ensure the disposal ability and equipment of CPU
It is balance with the disposal ability required for network and I/O chains, in the absence of performance bottleneck, these modules can be by Switching Module
Connection, ensure that the performance of system increases with the growth of module number on hardware configuration, can by disparate modules according to
It is combined the need for and is expanded, flexible configuration is convenient, hot plug of the support module during operation maintenance is reduced
Power consumption, improves efficiency.
Brief description of the drawings
Fig. 1 is a kind of structure chart of rack-mount server in embodiment of the present invention;
Fig. 2 is the structural representation of embodiment of the present invention dorsulum;
Fig. 3 is the structural representation of hard disk driving module in embodiment of the present invention;
Fig. 4 is the structural representation of solid state hard disc module in embodiment of the present invention;
Fig. 5 is the structural representation of computing module in embodiment of the present invention;
Fig. 6 is the structural representation of Switching Module in embodiment of the present invention;
Fig. 7 is a kind of cabinet floor map of rack-mount server in embodiment of the present invention.
Specific embodiment
For the ease of understanding the present invention, with reference to the accompanying drawings and detailed description, the present invention is carried out in more detail
It is bright.
Unless otherwise defined, all of technology and scientific terminology that this specification is used are led with technology of the invention is belonged to
The implication that the technical staff in domain is generally understood that is identical.The term used in the description of the invention in this specification is to be
The purpose of description specific embodiment, is not intended to the limitation present invention.The term "and/or" that this specification is used includes
The arbitrary and all of combination of one or more related Listed Items.
Fig. 1 is referred to, is a kind of structural representation of rack-mount server in embodiment of the present invention.The server includes
Cabinet 100, the power module 12 of backboard 11 and at least one.First network interface, the second network interface, first are set on backboard 11
Power interface, second source interface and power supply interface, power supply interface are electrically connected with power module 12.
Wherein, first network interface and the first power interface are for (Hard Disk Drive, hard disk to drive with HDD respectively
It is dynamic) module 13, SSD (Solid State Drives, solid state hard disc drives) module 14 or calculate what cache module 15 was set
Network interface connection corresponding with power interface, for it provides data communication and power supply.
Second network interface and second source interface are used for the network interface and power interface pair set with Switching Module 16
Should connect, for it provides data communication and power supply.
Further, HDD module 13, SSD modules 14, calculating cache module 15 and Switching Module 16 can be its net
Network interface assignment address, can be programmed and operated to module with installation operation system and application software to realize.
Due to, HDD module 13, SSD modules 14 with calculate cache module 15 appearance and size be with interface as, because
This, these three modules can be used in mixed way first network interface and the first power interface, can also be in standard 2U or 4U rack
Hot-swappable or exchange in machine box for server 100.
The concrete structure of backboard 11, HDD module 13, SSD modules 14, calculating cache module 15 and Switching Module 16 please join
See below.
Fig. 2 is referred to, is the structural representation of the backboard 11 in embodiment of the present invention.Power supply is set on backboard 11 to connect
Mouthful with HDD module 13, SSD modules 14 or calculate the first network interface that communicates of cache module 15 and for its power first
The second network interface that power interface communicates with Switching Module 16 and the second source interface powered for it.Wherein, each
One network interface is correspondingly arranged with first power interface, and each second network interface is corresponding with second source interface to be set
Put.Further, power supply interface is connected with power module 12, and each first and second power interface is connected with the power supply interface, uses
In with the power module 12 formed supply access.
Fig. 3 is referred to, is the structural representation of the hard disk driving module in embodiment of the present invention.HDD module 13 includes
Hard disk drive 20, the first bracket and first circuit board.Wherein, first circuit board is fixed on the first bracket, and the first bracket can
It is positioned inside cabinet 100 to plug.CPU, internal memory, network interface, power interface and data-interface are set on first circuit board.
Hard disk drive 20 sets data-interface and power interface, respectively with the data-interface and power interface of setting on first circuit board
It is correspondingly connected.Network interface that first circuit board is set and power interface respectively with backboard 11 on first network interface and the
The accordingly grafting of one power interface.
Fig. 4 is referred to, is the structural representation of the solid state hard disc module in embodiment of the present invention.SSD modules 14 include
Second bracket and second circuit board.Wherein, second circuit board is fixed on the second bracket, and the second bracket is positioned at machine pluggablely
Inside case 100.CPU, internal memory, network interface, power interface and multiple M.2 interface are set on second circuit board.M.2 interface is used for
Connection solid state hard disc, second circuit board set network interface and power interface respectively with backboard 11 on first network interface and
The accordingly grafting of first power interface.
Further, 1-4 M.2 interface is set on the second circuit board of SSD modules 14, can be by M.2 interface grafting 1-4
The SSD of individual M.2 interface.
Fig. 5 is referred to, is the structural representation of the calculating cache module 15 in embodiment of the present invention.Calculate cache module
15 include the 3rd bracket and tertiary circuit plate.Wherein, tertiary circuit plate is fixed on the 3rd bracket, and the 3rd bracket is pluggablely fixed
Position is inside cabinet 100.CPU, SO-DIMM (Small Outline Dual In-line Memory are set on tertiary circuit plate
Module, small outline dual inline memory modules) socket, network interface, power interface and M.2 interface.M.2 interface is used for
Connection solid state hard disc, SO-DIMM sockets are used for grafting SO-DIMM internal memories, and the network interface and power supply that tertiary circuit plate is set connect
Mouth respectively with backboard 11 on first network interface and the accordingly grafting of the first power interface.Further, cache module is calculated
15 solid state hard disc is used for installation operation system and application software.
Further, a M.2 interface is set on the tertiary circuit plate for calculating cache module 15, and M.2 pluggable one piece connect
The SSD of mouth, 2-8 SO-DIMM slot, pluggable 2-8 SO-DIMM memory modules.
Fig. 6 is referred to, is the structural representation of the Switching Module 16 in embodiment of the present invention.Switching Module 16 includes the
Four brackets and the 4th circuit board.Wherein, the 4th circuit board is fixed on the 4th bracket, and the 4th bracket is positioned at cabinet pluggablely
Inside 100.CPU, internal memory, multiple network interfaces and power interface are set on the 4th circuit board.The network that 4th circuit board is set
Interface and power interface respectively with backboard 11 on the second network interface and the accordingly grafting of second source interface.
Further, second network interface includes multiple internal network interfaces and multiple external network interfaces.Wherein, it is interior
Portion's network interface is connected by with the first network interface, and then HDD module 13 with server internal, SSD modules 14, calculates slow
Storing module 15 and another Switching Module 16 are connected, and external network interface can connect with client and other universal servers
Connect.
As described above, HDD module 13, SSD modules 14, calculating cache module 15, Switching Module 16 and power module 12
May be programmed and intelligent object is turned into by software definition, using ARM or ATOM low power consumption CPUs as processor, and be all provided with
Power supply interface is put to be connected to power module 12.
Because each module is most basic unit, and it is adaptable that the CPU for setting is loaded with it, and interface is also
It is corresponding and matching, therefore the corresponding peripheral hardware of direct grafting on the corresponding interface is only needed to, such as HDD or SSD, without configuration net
The annex of card, RAID card or channel card etc, it is possible to ensure that the disposal ability of CPU is matched with peripheral hardware.
Therefore, server of the invention can be configured as needed, and direct grafting is corresponding on corresponding interface
Peripheral hardware, disparate modules can be combined and expanded according to the need for application, realize the versatility of server.
In one embodiment, a cabinet for 2U standards 100, including:18 HDD modules, 13,2 Switching Modules 16,2
Individual power module 12;18 first network interfaces, 2 the second network interfaces, 18 the first power interfaces, 2 are set on backboard 11
Individual second source interface and 2 power supply interfaces;One HDD module 13 of each first network interface grafting, every 1 second network
One Switching Module 16 of interface grafting, every 1 first one HDD module 13 of power interface grafting, each second source interface grafting
One Switching Module 16, one power module 12 of each power supply interface grafting.
In another embodiment, a cabinet for 2U standards 100, including:18 SSD modules, 14,2 Switching Modules
16th, 2 power modules 12;18 first network interfaces, 2 the second network interfaces, 18 the first power supplys are set on backboard 11 to connect
Mouth, 2 second source interfaces and 2 power supply interfaces;One SSD module 14 of each first network interface grafting, every 1 second
One Switching Module 16 of network interface grafting, every 1 first one SSD module 14 of power interface grafting, each second source interface
One Switching Module 16 of grafting, one power module 12 of each power supply interface grafting.
In another embodiment, a cabinet for 2U standards 100, including:1 calculating 15,2 interchange mode of cache module
16,2 power modules 12 of block;1 first network interface, 2 the second network interfaces, 1 the first power supply are set on backboard 11 to connect
Mouth, 2 the second network interfaces and 2 power supply interfaces;First network interface and the difference grafting one of the first power interface calculate slow
Storing module 15, every 1 second one Switching Module 16 of network interface grafting, one Switching Module of each second source interface grafting
16, one power module 12 of each power supply interface grafting.
In another embodiment, a cabinet for 2U standards 100, including:15 HDD modules 13,3 calculate caching mould
The power module 12 of Switching Module 16,2 of block 15,2;18 first network interfaces, 2 the second networks are set on backboard 11 to connect
Mouth, 18 the first power interfaces, 2 second source interfaces and 2 power supply interfaces;In 15 first network interfaces, every 1
The HDD module 13 of one network interface grafting one, in remaining 3 first network interface, each first network interface grafting one calculates slow
Storing module 15;In 15 the first power interfaces, the hard disk driving module of every 1 first power interface grafting one, remaining 3 first electricity
In source interface, every 1 first power interface grafting one calculates cache module 15;Every 1 second one interchange mode of network interface grafting
Block 16, one Switching Module 16 of each second source interface grafting, one power module 12 of each power supply interface grafting.
Rack-mount server in embodiment of the present invention, Switching Module 16 and power module 12 are dual redundant.Remaining
Module can be entirely HDD module 13, it is also possible to entirely SSD modules 14 or entirely calculating cache module 15;Can also be
HDD module 13, SSD modules 14 and calculating cache module 15 mix.All modules can be hot-swappable.
It is a kind of cabinet floor map of rack-mount server in embodiment of the present invention please refer to Fig. 7.
In present embodiment, casing structure uses standard 2U casing structures, can support 8 pieces of 3.5 cun of hot-plug hard disks.In
Portion's fan radiating system includes 4 fans.Cabinet overall structure is divided into upper and lower two-layer, is 1U per layer height;Upper strata is empty for storage
Between, lower floor is calculate node and extending space.
Main board power supply uses two power modules, is specifically as follows the mono- piezoelectric voltages of 12V and directly enters mode.3 are set in the cabinet
Individual 10,000,000,000 is server module mainboard, 3 gigabits are that service module mainboard and 2 gigabits 10,000,000,000 merge Switching Modules, wherein,
10000000000 micro services module motherboards are fixed on bracket, and bracket insertion is directly docked with case back plate 11.
In the present embodiment, it is universal with what is built using the HDD module 13 of Marvell A385-Cortex A9CPU
Server hardware, by the Dell R730 of the storage server of software definition and foregoing use Intel to strong E5-2609v3CPU
The universal server of 2U racks is compared as follows by the storage server of software definition:
A385CPU is 2 cores, and Marvell A385-Cortex A9, the HDD module 13 built using the CPU is had in 2GB
Deposit, 2 gigabit Ethernets mouthful meet one piece of 3.5 cun of HDD.The half of CPU disposal abilities is such as distributed into HDD, second half is distributed to
Network interface card, then distribute to every piece of CPU disposal ability of HDD for 1.6Ghz, and the CPU disposal abilities of each gigabit network interface are 1.6/2=
0.8Ghz.12 HDD modules 13 are integrated in 2U cabinets 100, total power consumption is 3x12=36W, internal memory 2x12=
24GB, total bandwidth is band a width of 150MB/s of 12x 2000=24000/8=3000MB/s, every piece of 3.5 cun of HDD, 12 in network
The total bandwidth of block HDD is 12x150=1800MB/s.The network bandwidth is more than HDD bandwidth, and I/O is balance, does not have bottleneck, due to
Every piece of HDD has one piece of mainboard for having 2 gigabit network interfaces and an A385CPU, ensure that the I/O of system handles up energy from hardware
Power and CPU disposal abilities can increase with the increase of hard disk number, and I/O handling capacities and CPU disposal abilities are forever balances,
Bottleneck will not be formed.
E5-2609v3CPU is 4 cores, dominant frequency 2.4GHz, power consumption 80W, with 24GB internal memories, 2 ten thousand mbit ethernets mouthful, in 2U
12 pieces of 3.5 cun of HDD are mounted in cabinet 100.If the half of CPU disposal abilities is distributed into HDD, second half distributes to network interface card,
The CPU disposal abilities of HDD are then distributed to for 2 (core) x2.4 (dominant frequency)=4.8Ghz, the disposal ability that every piece of hard disk is assigned to is
4.8/12=0.4GHz, only the former 25%.If 10,000,000,000 network interfaces are considered as into 10 gigabit network interfaces, each kilomega network
The CPU disposal abilities that mouth is assigned to are 4.8/20=0.24GHz, only the former 30%.And power consumption is then the former 2.2 times.
Network total bandwidth 20000/8=2500MB/s, less than the former 3000MB/s, but more than 12 pieces of 3.5 cun of total bandwidths of HDD
1800MB/s, I/O chain do not have bottleneck.But if HDD numbers are doubled, when reaching 24 pieces, the total bandwidth of HDD is up to
3600MB/s, more than network total bandwidth 2500MB/s, and the disposal ability that every piece of HDD is assigned to will also decline one times, every piece
HDD only has the CPU disposal abilities of 0.2Ghz, unless be further added by one piece of network interface card and a CPU.
Ultra micro X10DAI C610X99 support that the unit price of E5-2600V3CPU two-way server mainboards is 2,290 yuan, E5-
2609 quotation is 1,850 yuan, and the unit price of 8GB server memory bars is 349 yuan, and 3 is 1,047 yuan.Three adds up to 5,187
Unit.Using Marvell A385-Cortex A9CPU, there are a SATA interface, 2 gigabit networking interfaces, 2GB internal memories, 4GB to dodge
20 dollars are no more than after the univalent volume production of every piece of the small-size main board deposited, 12 pieces is 240 dollars, by 1 dollar=6.5 RMB¥s
The exchange rate calculate, be 1,560 yuan.Only the former 1560/5187=0.3.
The novel universal type server built using the HDD module 13 of Marvell A385-Cortex A9CPU and use
In the case where 12 pieces of HDD are mounted, the former performance is the latter to the main flow generic server of Intel to strong E5-2609v3CPU
More than 3 times, power consumption is the 45% of the latter, and price is the 30% of the latter.
Because HDD module 13, SSD modules 14 and the appearance and size and interface that calculate cache module 15 are just the same, can be with
The hot-swappable or exchange in 2U or 4U cabinets 100, connection is simple, and extension is convenient.By taking SSD modules 14 as an example, in a SSD module
4 pieces of SSD of M.2 interface can be arranged on 14, the space that each SSD module 14 takes is not more than 3.5 cun of spaces of hard disk.According to 2U
Cabinet 100 can install 24 pieces of 3.5 cun of hard disks and calculate, and 4x24=96 blocks SSD can be arranged in this space.Space availability ratio is current
4 times of the universal server in the disks of 2U 24 position, and CPU disposal abilities and the network bandwidth will not turn into bottleneck.
Rack-mount server of the invention, setting first network interface, the second network interface, the first power supply connect on backboard
Mouth, second source interface and power supply interface, first network interface and the first power interface are respectively used to grafting hard drive mould
Block, solid state hard disc drive module calculate cache module, and the second network interface and second source interface are respectively used to grafting friendship
Mold changing block.Rack-mount server in embodiment of the present invention has the characteristics that:
1. multiple HDD modules of the universal server internal of separate unit, SSD modules and calculating cache module pass through Switching Module
Internal interface link together so that it drops significantly equivalent to by many clusters of the universal server construction of current main flow
Low cost, power consumption, improve space availability ratio and service efficiency;
2.HDD modules, SSD modules are consistent with interface with the appearance and size of calculating cache module, and these three modules can
The hot-swappable or exchange in standard 2U or 4U frame type servo casing, connection is simple, and extension is convenient;
3. can be hot-swappable during any one module failure, do not interfere with other module normal works and can expand as required
Exhibition, in the absence of performance bottleneck, Switching Module and power module are dual redundant, it is ensured that system does not have Single Point of Faliure.
It should be noted that preferably implementation method of the invention is given in specification of the invention and its accompanying drawing, but
It is that the present invention can be realized by many different forms, however it is not limited to the implementation method described by this specification, these realities
Mode is applied not as the extra limitation to present invention, there is provided the purpose of these implementation methods is made in disclosure of the invention
The understanding of appearance is more thorough comprehensive.Also, above-mentioned each technical characteristic continues to be mutually combined, the various realities that formation is not enumerated above
Mode is applied, the scope of description of the invention record is accordingly to be regarded as;Further, for those of ordinary skills, can be with root
Improved according to described above or converted, and all these modifications and variations should all belong to the protection of appended claims of the present invention
Scope.
Claims (10)
1. a kind of rack-mount server, including cabinet, backboard and an at least power module;Characterized in that, being set on the backboard
Put an at least first network interface, at least one second network interface, at least at least one first power interface, a second source interface
And an at least power supply interface;The server also includes an at least Switching Module and at least a hard disk driving module, solid-state
Hard disk driving module and/or calculating cache module;
Wherein, each described power supply interface is used to be connected with a power module;Each described first network interface is used for
It is connected with a hard disk driving module, solid state hard disc drive module or calculating cache module;Each described first power supply
Interface is used to be connected with a hard disk driving module, solid state hard disc drive module or calculating cache module;Described in each
Second network interface and each described second source interface are respectively used to be connected with a Switching Module.
2. rack-mount server according to claim 1, it is characterised in that the hard disk driving module includes hard drive
Device, the first bracket and first circuit board;The first circuit board is fixed on first bracket, and first bracket is pluggable
Be positioned at the cabinet inside;CPU, internal memory, network interface, power interface and data are set on the first circuit board to connect
Mouthful;The hard disk drive sets data-interface and power interface, respectively with the data-interface of setting on the first circuit board
It is correspondingly connected with power interface;The network interface and power interface that the first circuit board is set are respectively used to and the backboard
On first network interface and the accordingly grafting of the first power interface.
3. rack-mount server according to claim 1, it is characterised in that the solid state hard disc module includes the second bracket
And second circuit board;The second circuit board is fixed on second bracket, and second bracket is positioned at institute pluggablely
State cabinet inside;CPU, internal memory, network interface, power interface and multiple M.2 interface are set on the second circuit board;It is described
M.2 interface is used to connect solid state hard disc, the network interface and power interface that the second circuit board is set be respectively used to it is described
First network interface and the accordingly grafting of the first power interface on backboard.
4. rack-mount server according to claim 3, it is characterised in that 1-4 institute is set on the second circuit board
State M.2 interface.
5. rack-mount server according to claim 1, it is characterised in that the calculating cache module includes the 3rd bracket
With tertiary circuit plate;The tertiary circuit plate is fixed on the 3rd bracket, and the 3rd bracket is positioned at institute pluggablely
State cabinet inside;On the tertiary circuit plate set CPU, multiple small outline dual inline memory modules sockets, network interface,
Power interface and at least one M.2 interface;M.2 the interface is used to connect solid state hard disc, the small outline dual inline
Memory modules socket is used for the small outline dual inline internal memory of grafting, and the network interface and power supply that the tertiary circuit plate is set connect
Mouth is respectively used to and the first network interface on the backboard and the accordingly grafting of the first power interface.
6. rack-mount server according to claim 5, it is characterised in that set described on the tertiary circuit plate
M.2 interface, 2-8 small outline dual inline memory modules socket.
7. rack-mount server according to claim 1, it is characterised in that the Switching Module includes the 4th bracket and the
Four circuit boards;4th circuit board is fixed on the 4th bracket, and the 4th bracket is positioned at the machine pluggablely
Inside case;CPU, internal memory, multiple network interfaces and power interface are set on the 4th circuit board;4th circuit board is set
Network interface and power interface be respectively used to accordingly be inserted with the second network interface and second source interface on the backboard
Connect, the internal network interface is also connected with the hard disk driving module, solid state hard disc drive module or calculating cache module.
8. the rack-mount server according to claim 1~7 any one, it is characterised in that set 18 on the backboard
The individual first network interface, 2 second network interfaces, 18 first power interfaces, 2 second sources connect
Mouth and 2 power supply interfaces;Described in one hard disk driving module of each first network interface grafting or one
Solid state hard disc drive module, one Switching Module of each second network interface grafting, each first power supply connects
Mouth one hard disk driving module of grafting or a solid state hard disc drive module, each second source interface grafting
One Switching Module, one power module of each power supply interface grafting.
9. the rack-mount server according to claim 1~7 any one, it is characterised in that 1 is set on the backboard
The first network interface, 2 second network interfaces, 1 first power interface, 2 second network interfaces
And 2 power supply interfaces;Caching is calculated described in the first network interface and first power interface difference grafting one
Module, one Switching Module of each second network interface grafting, one institute of each second source interface grafting
State Switching Module, one power module of each power supply interface grafting.
10. the rack-mount server according to claim 1~7 any one, it is characterised in that set 18 on the backboard
The individual first network interface, 2 second network interfaces, 18 first power interfaces, 2 second sources connect
Mouth and 2 power supply interfaces;It is hard described in each first network interface grafting one in 15 first network interfaces
Dish driving module, calculates caching mould in remaining the 3 first network interfaces, described in each first network interface grafting one
Block;In 15 first power interfaces, hard disk driving module described in each first power interface grafting one, remaining 3
In first power interface, cache module is calculated described in each first power interface grafting one;Each second net
One Switching Module of network interface grafting, one Switching Module of each second source interface grafting, each power supply
One power module of interface grafting.
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CN201611028905.5A CN106774700A (en) | 2016-11-18 | 2016-11-18 | A kind of rack-mount server |
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CN201611028905.5A CN106774700A (en) | 2016-11-18 | 2016-11-18 | A kind of rack-mount server |
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CN110134206A (en) * | 2019-06-06 | 2019-08-16 | 深圳云朵数据科技有限公司 | A kind of calculating board |
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CN111427833A (en) * | 2020-05-26 | 2020-07-17 | 林沧 | Server cluster |
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