CN106774724A - A kind of multiprocessor computer system structure and implementation method based on water-cooling - Google Patents
A kind of multiprocessor computer system structure and implementation method based on water-cooling Download PDFInfo
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- CN106774724A CN106774724A CN201611260753.1A CN201611260753A CN106774724A CN 106774724 A CN106774724 A CN 106774724A CN 201611260753 A CN201611260753 A CN 201611260753A CN 106774724 A CN106774724 A CN 106774724A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- 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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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- 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
- G06F1/20—Cooling means
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D10/00—Energy efficient computing, e.g. low power processors, power management or thermal management
Abstract
Include the present invention relates to a kind of multiprocessor computer system structure based on water-cooling and implementation method:Blade is calculated, for running independent operating system, the computing unit is made up of multiple general processors, or acceleration components are constituted, or general processor is collectively formed with acceleration components, each calculating blade is connected with a set of independent water-cooling heat radiating device;Interconnection backplane, is connected with the calculating blade, for realizing multiprocessor between interconnect communication, power supply control, reset control, system administration;Power supply module, the power supply module has redundancy protecting mechanism, and is connected to the interconnection backplane, the calculating blade, for AC/DC conversion, and exports direct current to the calculating blade and interconnection backplane as power supply;Water-cooling heat radiating device, for giving calculating blade radiating.By the radiator to each blade configuration independence, energy saving also assures that each blade and cooling system can be with independent maintenances to the present invention simultaneously to reach optimal radiating effect.
Description
Technical field
The present invention relates to Computer Architecture technical field, more particularly to a kind of multiprocessor based on water-cooling
The technology of Computer Systems Organization and implementation method.
Background technology
With continuing to develop for microprocessor technology, the number of transistors that single processor is internally integrated has reached
Billions of, working frequency reaches several GHzs, thus brings dramatically increasing for power consumption of processing unit, the work(of single processor
Consumption has reached 150~300 watts, and the cooling surface area of single processor only has tens square centimeters, therefore how to solve treatment
Device heat dissipation problem is a key technology of Computer System Design.On the other hand, for high-performance computer system, in system
Generally comprise multiple processors, it is necessary to these processors cooperate solve a big computational problem, in multicomputer system
In design, the overall system architecture and radiating mode for designing an optimization are the keys of guarantee system steady operation.
The appearance of polycaryon processor and various many-core acceleration components so that the Parallel application of hundreds of, even thousands of magnitudes can
With on dozens of processor it is achieved that and the Parallel application of this scale can cover the need of most of high-performance calculations
Asking, therefore design a kind of quantity for limiting processor, the popular multiprocessor computer system towards application-specific turns into one
Plant new demand.For this processor limited amount and then the system of limited power consumption, if its noise and structure design are obtained
It is good, the multiprocessor computer system for being adapted to office environment work can be turned into completely, so as to promote the general of high-performance calculation
And change.Compared to traditional personal computer (Personal Computer, PC), the multiprocessor computer system has more
Strong computing capability;Compared with traditional server cluster, the multiprocessor computer system has integral structure, and structure is more
Simply, without building environment, noise is lower, can put and use in an office environment, and our this computer systems are called individual
People's high-performance computer (Personal High Performance Computer, PHPC).
The content of the invention
In view of above demand, it is an object of the invention to provide a kind of multiprocessor computer system based on water-cooling
Multiple, using this method, can be calculated blade, interconnection backplane power supply module, water-cooling by the technology of structure and implementation method
System layout is radiated using water-cooled module inside same casing structure to the high-powered processor of computing unit, and optimization sets
The air channel of meter is radiated for other devices, low noise, integrated multiprocessor is realized on the premise of radiating effect is ensured and is calculated
Machine system.
Specifically the invention discloses a kind of multiprocessor computer system structure based on water-cooling, wherein this is
System structure includes interconnection backplane, power supply module, multiple calculating blade and water-cooling heat radiating devices, wherein:
Blade is calculated, for running independent operating system, including computing unit, the computing unit is by multiple general procedures
Device is constituted, or acceleration components are constituted, or general processor collectively forms with acceleration components, each calculating blade and a set of independence
Water-cooling heat radiating device be connected;
Interconnection backplane, is connected with the calculating blade, for realizing multiprocessor between interconnect communication, power supply control, reset control
System, system administration;
Power supply module, the power supply module has redundancy protecting mechanism, and is connected to the interconnection backplane, the calculating blade, uses
In AC-DC conversion, and direct current to the calculating blade and interconnection backplane is exported as power supply;
Water-cooling heat radiating device, for giving calculating blade radiating.
The multiprocessor computer system structure, wherein the calculating blade also include interconnection adaptation board, for this to be calculated
The PCI-E high-speed buses of unit are adapted to interconnection backplane and are connected.
The multiprocessor computer system structure, the wherein water-cooling heat radiating device, for realizing radiating to the computing unit
Effect, the water-cooling heat radiating device includes:Water-cooling head, water-filled radiator, major diameter quiet fan, water tank, water pump and corresponding
Connecting water pipe and water swivel.
The multiprocessor computer system structure, wherein the calculating blade also have supported mechanical construction, support machinery
Structure includes upper/lower guide face, front panel, back panel connector, waterpipe couplings, wherein:
Upper/lower guide face, it is unobstructed for making heat dissipation wind channel with many places perforate;
Front panel is closed, with start and SR and power supply and network indicator lamp;
Back panel connector, connects interconnection backplane, for realizing network, power supply and the connection of control signal;
Waterpipe couplings, for being connected with the water-cooling heat radiating device, the waterpipe couplings include cold water pipeline and hot-water line
Road.
The multiprocessor computer system structure, wherein the calculating blade also include water-cooling head, the water-cooling head
Directly it is fixedly connected with the computing unit device, the waterpipe couplings is connected to by water pipe.
The multiprocessor computer system structure, the wherein system architecture also include computer cabinet, the computer cabinet
Top is provided with fan and water-filled radiator cabin;Calculating blade cabin is had in the fan and water-filled radiator cabin, and
The calculating blade cabin fits with case front panel;Water pipe cabin is had blade cabin is calculated;In the water pipe cabin and
Calculating blade cabin left side or right side are provided with thermal component cabin;Power supply module cabin is provided with the calculating blade cabin rear portion
Room.
The computer cabinet, wherein being provided with upper rail, bottom in the calculating blade cabin inner top is provided with lower guideway, on this
Guide rail and lower guideway are used to guide the installation of the calculating blade, and for the spacing calculating blade, with multiple calculating blades
Between formed above-below direction heat dissipation wind channel.
Dividing plate is provided between the computer cabinet, wherein the calculating blade cabin and the thermal component cabin, the dividing plate is used
In the calculating blade cabin and the thermal component cabin is isolated, so that the radiating water route of the water-cooling heat radiating device and electrical equipment phase
Isolation.
Beneficial effects of the present invention are:
Current water-cooled server design object is therefore the water-cooled server sheet as an elementary cell of NOWs
Body only possesses the hot channel of connection heat generating components, and the heat exchange mould of processor or internal memory is simply mounted with water-cooling blade
Block, is connected to external water-cooled pipeline, and the Water-cooling circulating of blade depends on circulation and the heat-exchanger rig of computer room, single calculating blade
Cannot realize that itself Water-cooling circulating is cooled down.And distributed water-cooling of the invention calculates blade and possesses independent circulation cooling knot
Structure, can configure multiple water-cooling blade in multicomputer system, the heat dissipation circulating system of each blade works independently, without intersection
Water loops, can reach optimal radiating effect, while isolated influence to each other, it is convenient independently to dismount and change.
Radiating is realized, it is necessary in server front panel and rear board perforate in the traditional server air channel typically before and after,
Interconnection backplane is also required to perforate or reduces the size of interconnection backplane so as to reserve heat dissipation wind channel, such a structure increases air channel
Length, reduce duct cross-section product, it is therefore desirable to rotating speed fan high can be only achieved the result of ventilating heat dissipation of needs, therefore server
Noise is not suitable for being placed on office environment greatly, and rotating speed fan high also brings the problem of fan reliability reduction in addition.The present invention is adopted
With water-filled radiator and major diameter fan and calculating blade vertical arrangement structure, i.e., water cooling heat exchanger is horizontally arranged at system
Top, fan is directly connected to up-draught with radiator.The front panel of blade is calculated without perforate, the back of the body being connected with calculating blade
Plate is so, vertically arranged to calculate the heat dissipation wind channel that blade is formed the above-below direction of closing, the length in air channel without perforate
Degree simply calculates the length that computing board in blade adds adaptation board, and compared with traditional server, air channel is short, and sectional area is big, radiating
Effect is good;Rotation speed of the fan can be substantially reduced using major diameter fan, and then reduce the noise of whole system, can meet
To the requirement of low noise under office environment.
Power supply module, water-cooled pipeline and water that the separation layout method in blade cabin realized in system, electrically separated is calculated,
Thoroughly avoid due to the system failure that water-cooling section leakage brings.Water-filled radiator is placed on whole system top, with radiating
The water pipe layout of device connection in the side of system chassis, water-filled radiator pipeline tie point outside blade cabin is calculated, water-cooled
Pipeline is drawn in the bottom of each calculating blade, and the heat dissipation pump of cabinet side bottom is connected to by the pipeline cabin of cabinet bottom
With water tank cabin, and power supply module, interconnection backplane, calculate the layout of blade all pipeline cabin and heat dissipation pump and water tank cabin it
On, therefore thoroughly isolated radiating water circulation path and other electric components in space layout, it is ensured that in water of radiation accident
Under leak case will not also harmful effect be produced to the electric component in system.
Brief description of the drawings
Fig. 1 is water-cooling multiprocessor computer system logical construction;
Fig. 2 is that distributed water-cooling calculates blade schematic diagram;
Fig. 3 is the vertical arrangement structural representation of distributed water-cooling multiprocessor computer system;
Fig. 4 is the separation schematic layout pattern of power supply module, water-cooled component and blade cabin;
Fig. 5 is the separation layout leftschematic diagram of power supply module, water-cooled component and blade cabin.
Specific embodiment
It is as follows the present invention relates to relevant explanation of nouns:
Calculate blade:One Physical realization of complete computer hardware system, including general processor (or it is general
Processor+acceleration components), it is independent host, high performance network interface and storage hard disk etc., independent operating system can be run.
In structure, calculating blade has a upper/lower guide, and there are network, power supply and a heat dissipation pipe's connector in back, blade have front panel and
Necessary indicator lamp and switch key;
Interconnection backplane:On interconnection backplane including the network switch, electric power source distribution device, reset control logic etc. functional part,
Interconnection backplane is that communication, power supply control, reset control, the part of system administration are interconnected between realizing multiprocessor.Between multiprocessor
The network for interconnecting communication can be Ethernet, Infiniband networks, PCI-E switch or other high speed interference networks.Interconnection
Backboard calculates blade and is connected by connector and multiple, is handed over for blade provides power supply, the control that resets, management control and high-speed data
The communication path for changing;
Power supply module:Power supply module refers to the AC-DC conversion of the power supply for needed for interconnection backplane and calculating blade are provided
Device, whole system can have redundancy protecting mechanism using one or more power supply modules, power supply module;
Cooling system:Including the module relevant with system radiating, pipeline, water tank, water pump, radiator (heat exchanger), wind
The whole system that the parts such as fan are constituted, realizes the heat sinking function of whole system.
The calculating blade of the distributed water-cooling in the present invention, calculate blade can be general-purpose computations part, can also
It is speed-up computation part, the high power device (such as CPU, GPU) of calculating unit realizes heat exchange using water-cooled heat exchange module, meter
Blade is calculated to possess from the water-cooling heat radiating device into loop.One multiprocessor computer system generally comprises multiple calculating blades,
The water-cooling heat radiating system that these are calculated between blade is independent of one another, is independent of each other.
Vertical arrangement structure, refers to the top for the water cooling heat exchanger of cooling system being horizontally arranged at fan system, with
Blade is calculated vertically, on the one hand the major diameter quiet fan of water-filled radiator completes water-cooled heat exchange, while being hung down for blade is provided
Nogata to heat dissipation wind channel;
The separation layout method in power supply module, water-cooled pipeline and blade cabin realizes water in system, electrically separated, thoroughly
Avoid due to the system failure that water-cooling section leakage brings.
In order that the purpose of the present invention, technical scheme become more apparent, below in conjunction with drawings and Examples, to the present invention
A kind of high-performance calculation framework and method for graphical analysis be further elaborated.It should be appreciated that this place is retouched
The specific embodiment stated only is used to explain the present invention, is not intended to limit the present invention.
Fig. 1 shows the logical construction of water-cooling multiprocessor computer system.In this logical construction, computing unit
Can be made up of multiple general processors, or can be also made up of multiple acceleration components, or can also using multiple general processors with it is many
Individual acceleration components are constituted together.A computing unit includes 2 computing boards in the present embodiment, and 2 computing boards can be identical
General Process Unit;It can also be 1 General Process Unit+1 acceleration components (GPU/Xeon Phi/FPGA) plate;May be used also
Being 2 acceleration components (GPU/Xeon Phi/FPGA) plate;Flexible configuration can be needed according to system design.
Interconnection adaptation board is the interconnection form for the PCI-E high-speed buses of computing unit being converted into interconnection backplane needs, such as
Fruit interconnection backplane uses ten thousand mbit ethernets, then to interconnect and can install the network card chip that PCI-E is changed to Ethernet on adaptation board;Such as
Fruit interconnection backplane uses Infiniband networks, then interconnecting can install the net of PCI-E to Infiniband conversions on adaptation board
The core of the card piece;If interconnection backplane uses PCI-E switch, interconnecting adaptation board can install PCI-E signal drive circuits;Interconnection
Another effect of adaptation board is realized to the power supply of computing unit and switch and the control that resets.Due to adding interconnection adaptation
Plate so that the design is adapted to the demand of different interconnection modes, enhances the flexibility of system.
Water-cooled component, for realizing thermolysis to computing unit, including water-cooling head, the water-cooling being connected with processor
Device, major diameter quiet fan, water tank, water pump, corresponding connecting water pipe and water swivel etc., collectively form water-cooling heat radiating system, real
Now to a heat sinking function for computing unit.
Above-mentioned computing unit, interconnection adaptation board, water-cooled component and corresponding supported mechanical construction part collectively form one
The individual calculating blade for possessing distributed water-cooling.
Interconnection backplane contains the high-performance exchange network of system, management network, power distribution, reset and power supply control etc.
Function, according to system design needs, interconnection backplane can using ten thousand mbit ethernets, Infiniband networks, PCI-E switch or
Other high performance network switches, for each calculating blade in multiprocessor computer system provides high performance communication path,
And be to realize management and control function.
Power supply module is converted into 220V electric mains the various DC voltages of system needs, is that whole system is powered, and is
Multiple power supply modules can be included in system, redundancy, strengthening system reliability is realized.
It is as shown in Figure 2 that distributed water-cooling calculates blade.Water-cooling calculate blade be segmented into calculate blade and its
Water-cooling component two parts, wherein calculating mechanical structure of the blade using upper/lower guide, two guide pass are not closed, can used
The measures such as perforate are heat dissipation wind channel outflow space;Front panel is closed, and reserves start and SR and power supply and network is indicated
Lamp;Blade rear end connects interconnection backplane by electric connector (back panel connector), realizes the company of network, power supply and control signal
Connect, cold water and the hot water line of water-cooling are connected by waterpipe couplings, wherein cold water pipeline is used as return pipe, hot water line
As outlet pipe;Consolidate reserved two computing boards of inner blade, interconnection adaptation board, multiple hard disk/SSD and a water pipe are calculated
Fixed locus.
Water-cooling head (processor water-cooling head) is directly fixedly connected with processor, is connected to by water pipe and calculates blade
The waterpipe couplings of rear board, the waterpipe couplings include cold water connector and hot water connector, and waterpipe couplings use sealing
Head, it is ensured that cooling water is not revealed during plug blade.Waterpipe couplings connect the other assemblies of water-cooling heat radiating system, including:Water tank,
Water pump and water-filled radiator etc..The present invention is equipped with a set of independent water-cooling heat radiating device for each calculating blade, is included at one
Multiple is calculated in the system of blade, and each calculates the water-cooling heat radiating system of blade independently of one another, is independent of each other, it is ensured that a meter
The water-cooling heat radiating system failure for calculating blade will not be impacted to total system;Distributed water air-cooled structure can make each calculate blade
The cycle rate of cooling system can dynamically be adjusted according to the live load of blade, saved while reaching optimal radiating effect
Using energy source;Distributed water-cooling also assures that each blade and cooling system with independent maintenance, can improve system availability,
Shorten maintenance time.
The vertical arrangement structure of distributed water-cooling multiprocessor computer system is as shown in Figure 3.Blade is calculated in Fig. 3
In the spacing lower insertion cabinet of upper/lower guide, the electric connector of panel is connected vertical direction with interconnection backplane thereafter, and water pipe connects
Connect device to be connected with the water-cooling heat radiating system of each blade, the front panel of blade is connected solid with the machine frame structure up and down of fixed guide rail
It is fixed, the supporting construction component of such adjacent knife blades, the above-below direction of closing is just formd between front panel, rear board for each blade
Heat dissipation wind channel.Each water-filled radiator and fan that calculate blade are arranged on the top of system chassis, and fan leads to up-draught
Cabinet bottom air inlet is crossed, along the heat dissipation wind channel of blade, it is the radiating of other heater members beyond processor to realize.
Design of the invention extends I/O, the function distribution of disk/SSD extensions is calculating parallel with computing board in blade
Horizontal space in, it is thus eliminated that traditional server rear end expansion I/O, the space layout of front end expanding hard disk/SSD are brought
The elongated problem in air channel, air channel is short compared with traditional cross ventilation server;Vertical arrangement of the invention and aeration structure make
Obtain air channel parallel with interconnection backplane, therefore interconnection backplane can need not open air holes for Seal Design, on the one hand be that interconnection is carried on the back
The sophisticated functions design of plate provides more spaces, on the other hand also completely eliminates traditional blade server interconnection backplane position
The air channel come in air channel Intermediate Gray intercepts problem, can provide bigger heat dissipation wind channel to calculate blade, improves radiating effect;It is short
Air channel, without intercept, together with water-cooling mechanism, it is allowed to realize system radiating using major diameter, low rotary speed fan, ensure system
System noise is reduced on the premise of radiating effect, the limitation requirement to noise under office environment is met.
Fig. 3 shows the separation schematic layout pattern of power supply module, water-cooled component and blade cabin.Fig. 4 (a) is computer machine
Case separates the front view of layout, and 4 regions can be divided into figure:The fan of top and water-filled radiator cabin;In the wind
Under fan and water-filled radiator cabin, that is, calculating blade cabin is provided with the center section of computer cabinet;Calculating blade
Cabin has water pipe cabin;On the left of the water pipe cabin and the calculating blade cabin or right side is provided with thermal component cabin,
It is thermal component cabin that left side is used in the present embodiment;Power supply module cabin is provided with the calculating blade cabin rear portion.Its apoplexy
Fan and water-filled radiator cabin are used to accommodate water-filled radiator and fan, and thermal component cabin is used to accommodate water tank and water pump.Should
Calculating blade cabin inner top is provided with upper rail, bottom and is provided with lower guideway, and the upper rail and lower guideway are used to guide the calculating knife
The installation of piece, and for the spacing calculating blade, to form the heat dissipation wind channel of above-below direction between multiple calculating blades.
Fig. 4 (b) is the right view that cabinet separates layout, wherein the cabin for calculating blade is located at the middle part of whole cabinet, with
The front panel laminating of cabinet;The rear portion that the cabin of power supply module is located at cabinet is on the upper side;Water-filled radiator and fan are located at cabinet
Top;The water-cooled such as water pump and heat dissipation pipeline component is located in the water pipe cabin of the bottom of cabinet.
With reference to Fig. 4 (a) as can be seen that the connector of water-filled radiator is entirely located in cabinet left side, by vertical direction
Dividing plate separates with blade cabin is calculated;Water tank and water pump also are located at the left side of whole cabinet, by dividing plate and the meter of vertical direction
Blade cabin is calculated to separate;The heat dissipation pipeline cabin in Fig. 4 (b) lower right corner dissipates the waterpipe couplings of calculating blade with water pump and water-cooled
Hot device is connected;It is this separate layout in the case of so that radiating water route and electrical equipment are thoroughly isolated, it is to avoid due to radiating
Liquid leakage causes the risk of the system failure.
Fig. 5 shows the left view of chassis arrangement, and each water-filled radiator connects 2 water pipes, a hot-water line and one
Cold water pipe, each radiator connects independent water tank and water pump, and each calculating blade is connected by the water pipe in heat dissipation pipeline cabin
Waterpipe couplings, for each blade provides water-cooling function.
In addition, with the close-connected fan of water-filled radiator on the one hand as water-cooling part, while being also calculating knife
Piece provides the forced convertion of upper lower air duct, for miscellaneous part provides heat sinking function in system.
Although the present invention is disclosed with above-described embodiment, specific embodiment is only used to explain the present invention, is not used to limit
The present invention, any those skilled in the art of the present technique without departing from the spirit and scope of the invention, can make the change of some and complete
It is kind, therefore the scope of the present invention is defined by claims.
Claims (8)
1. a kind of multiprocessor computer system structure based on water-cooling, it is characterised in that the system architecture includes:Interconnection
Backboard, power supply module, multiple calculating blade and water-cooling heat radiating devices, wherein:
Blade is calculated, for running independent operating system, the calculating blade includes computing unit, and the computing unit is logical by multiple
Constituted with processor, or acceleration components are constituted, or general processor is collectively formed with acceleration components, each calculating blade and one
The independent water-cooling heat radiating device of set is connected;
Interconnection backplane, is connected with the calculating blade, for realizing multiprocessor between interconnect communication, power supply control, reset control, be
Reason under the overall leadership;
Power supply module, the power supply module has redundancy protecting mechanism, and is connected to the interconnection backplane, the calculating blade, for handing over
Stream-direct current is changed, and exports direct current to the calculating blade and interconnection backplane as power supply;
Water-cooling heat radiating device, for giving calculating blade radiating.
2. multiprocessor computer system structure as claimed in claim 1, it is characterised in that the calculating blade also includes interconnection
Adaptation board, is connected for the PCI-E high-speed buses of the computing unit to be adapted to interconnection backplane.
3. multiprocessor computer system structure as claimed in claim 1, it is characterised in that the water-cooling heat radiating device, is used for
Thermolysis is realized to the computing unit, the water-cooling heat radiating device includes:Water-cooling head, water-filled radiator, major diameter quiet fan,
Water tank, water pump and corresponding connecting water pipe and water swivel.
4. multiprocessor computer system structure as claimed in claim 1, it is characterised in that the calculating blade also has support
Mechanical structure, the supported mechanical construction includes upper/lower guide face, front panel, back panel connector, waterpipe couplings, wherein:
Upper/lower guide face, it is unobstructed for making heat dissipation wind channel with many places perforate;
Front panel is closed, with start and SR and power supply and network indicator lamp;
Back panel connector, connects interconnection backplane, for realizing network, power supply and the connection of control signal;
Waterpipe couplings, for being connected with the water-cooling heat radiating device, the waterpipe couplings include cold water pipeline and hot water line.
5. multiprocessor computer system structure as claimed in claim 1, it is characterised in that the calculating blade also includes water-cooled
Heat dissipation head, the water-cooling head is directly fixedly connected with the computing unit device, and the waterpipe couplings are connected to by water pipe.
6. multiprocessor computer system structure as claimed in claim 1, it is characterised in that the system architecture also includes calculating
Machine cabinet, the computer cabinet top is provided with fan and water-filled radiator cabin;Under the fan and water-filled radiator cabin
Calculating blade cabin is provided with, and the calculating blade cabin fits with case front panel;Water pipe is had blade cabin is calculated
Cabin;On the left of the water pipe cabin and the calculating blade cabin or right side is provided with thermal component cabin;In the calculating blade cabin
Rear portion is provided with power supply module cabin.
7. computer cabinet as claimed in claim 6, it is characterised in that be provided with the calculating blade cabin inner top and led
Rail, bottom are provided with lower guideway, and the upper rail and lower guideway are used to guide the installation of the calculating blade, and for the spacing calculating knife
Piece, to form the heat dissipation wind channel of above-below direction between multiple calculating blades.
8. computer cabinet as claimed in claim 6, it is characterised in that the calculating blade cabin and the thermal component cabin it
Between be provided with dividing plate, the dividing plate is used to isolate the calculating blade cabin and the thermal component cabin, so that the water-cooling heat radiating device
Radiating water route and electrical equipment are isolated.
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CN107479662A (en) * | 2017-09-27 | 2017-12-15 | 深圳市蓝豆芽科技有限公司 | A kind of water-cooled computer casing |
CN109408454A (en) * | 2018-11-01 | 2019-03-01 | 郑州云海信息技术有限公司 | A kind of method and relevant apparatus of management of software ic |
CN109683691A (en) * | 2019-01-30 | 2019-04-26 | 深圳市研派科技有限公司 | A kind of servo-system with liquid cooling apparatus |
CN110716613A (en) * | 2019-09-14 | 2020-01-21 | 无锡江南计算技术研究所 | Integrated multi-section type operation plug-in interconnection assembly structure and method |
WO2024001769A1 (en) * | 2022-06-27 | 2024-01-04 | 华为技术有限公司 | Computer system and server |
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CN107479662A (en) * | 2017-09-27 | 2017-12-15 | 深圳市蓝豆芽科技有限公司 | A kind of water-cooled computer casing |
CN109408454A (en) * | 2018-11-01 | 2019-03-01 | 郑州云海信息技术有限公司 | A kind of method and relevant apparatus of management of software ic |
CN109408454B (en) * | 2018-11-01 | 2021-10-22 | 郑州云海信息技术有限公司 | Chip management method and related device |
CN109683691A (en) * | 2019-01-30 | 2019-04-26 | 深圳市研派科技有限公司 | A kind of servo-system with liquid cooling apparatus |
CN110716613A (en) * | 2019-09-14 | 2020-01-21 | 无锡江南计算技术研究所 | Integrated multi-section type operation plug-in interconnection assembly structure and method |
WO2024001769A1 (en) * | 2022-06-27 | 2024-01-04 | 华为技术有限公司 | Computer system and server |
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