CN106844155A - A kind of server heat dissipation control method and system - Google Patents
A kind of server heat dissipation control method and system Download PDFInfo
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- CN106844155A CN106844155A CN201710054705.5A CN201710054705A CN106844155A CN 106844155 A CN106844155 A CN 106844155A CN 201710054705 A CN201710054705 A CN 201710054705A CN 106844155 A CN106844155 A CN 106844155A
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- 230000017525 heat dissipation Effects 0.000 title claims abstract description 29
- 238000000034 method Methods 0.000 title claims abstract description 18
- 238000001514 detection method Methods 0.000 claims abstract description 23
- 230000001105 regulatory effect Effects 0.000 claims abstract description 10
- 230000033228 biological regulation Effects 0.000 claims description 7
- 235000013399 edible fruits Nutrition 0.000 claims description 4
- 230000000694 effects Effects 0.000 abstract description 13
- 230000002708 enhancing effect Effects 0.000 abstract description 3
- 230000001276 controlling effect Effects 0.000 abstract description 2
- 238000005516 engineering process Methods 0.000 description 3
- 238000009825 accumulation Methods 0.000 description 2
- 238000010438 heat treatment Methods 0.000 description 1
- 238000007689 inspection Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012544 monitoring process Methods 0.000 description 1
- 238000002360 preparation method Methods 0.000 description 1
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/30—Monitoring
- G06F11/3003—Monitoring arrangements specially adapted to the computing system or computing system component being monitored
- G06F11/3006—Monitoring arrangements specially adapted to the computing system or computing system component being monitored where the computing system is distributed, e.g. networked systems, clusters, multiprocessor systems
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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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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/30—Monitoring
- G06F11/3058—Monitoring arrangements for monitoring environmental properties or parameters of the computing system or of the computing system component, e.g. monitoring of power, currents, temperature, humidity, position, vibrations
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/30—Monitoring
- G06F11/32—Monitoring with visual or acoustical indication of the functioning of the machine
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Abstract
The present invention discloses a kind of server heat dissipation control method, including:The situation in place of current each server node of detection, and judge whether to meet default situation requirement in place;If it is, continue to judge whether the radiator corresponding to current each described server node is in place, if it is, controlling the working condition of each radiator according to default radiating regulating strategy;If it is not, then improving the radiating efficiency of radiator wherein in place.Server heat dissipation control method disclosed in this invention, by the radiating efficiency for improving radiator wherein in place, so that the radiating effect enhancing of the radiator neighbouring with the server node that there is heat dissipation problem, so as to the server node over to surrounding, so that each radiator is also carried out radiating to not corresponding server node originally, so as to take into account Servers-all node.Invention additionally discloses a kind of server heat dissipation control system, its advantage is as described above.
Description
Technical field
The present invention relates to server monitoring administrative skill field, more particularly to a kind of server heat dissipation control method.This hair
It is bright to further relate to a kind of server heat dissipation control system.
Background technology
With developing rapidly for science and technology, the mechanism such as more and more governments, colleges and universities all generates more kinds of to server
The demand of class.
Server is also referred to as servomechanism, is to provide the equipment of the service of calculating.Because server needs to respond service request, go forward side by side
Row treatment, therefore in general server should possess the ability for undertaking and servicing and ensure service.The composition of server includes place
Reason device, hard disk, internal memory, system bus etc., it is similar with general computer architecture, but due to needing to provide highly reliable clothes
Business, thus it is higher in the requirement of the aspects such as disposal ability, stability, reliability, security, scalability, manageability.In network
It is different according to the COS that server is provided under environment, it is divided into file server, database server, application program service
Device, WEB server etc..
Raising with user to server performance demand, user to the quantity required of server computing node also increasingly
It is many.Whole machine cabinet server has very big advantage on to the integrated of node and management compared with traditional server, and in reality
Border is using upper also more and more extensive.And due to all many-sided reasons such as customization type selecting, the general energy of whole machine cabinet server
The free tank configuration of enough supporting nodes.Based on factors such as space availability ratios, it is desirable to which server node is continuous and is arranged regularly.Clothes
Business device operationally, can produce the temperature of substantial amounts of heat, server node to raise when to a certain extent, influence whether maneuverability
Can, therefore, be generally provided with multiple radiators on the server being radiated.However, due to server supporting node not
Full cabinet configuration, the part groove position in server is provided with server node, part groove is vacancy, and radiator is on the server
Set location is again fixed, is so easily caused the radiating support that part server node operationally cannot get radiator,
That is server is easily caused the bad problem of the radiating effect of part server node when free tank is configured.
Therefore, how when server free tank is configured, it is ensured that be this area to the radiating effect of Servers-all node
Technical staff's technical problem urgently to be resolved hurrily.
The content of the invention
It is an object of the invention to provide a kind of server heat dissipation control method, can be protected when server free tank is configured
Demonstrate,prove the radiating effect to Servers-all node.It is a further object of the present invention to provide a kind of server heat dissipation control system.
In order to solve the above technical problems, the present invention provides a kind of server heat dissipation control method, including:
The situation in place of current each server node of detection, and judge whether to meet default situation requirement in place;
If it is, continuing to judge whether the radiator corresponding to current each described server node is in place;If
It is then to control the working condition of each radiator according to default radiating regulating strategy, if it is not, then improving wherein in place
Radiator radiating efficiency.
Preferably, the situation in place of current each server node is detected, and judges whether that meeting default situation in place wants
Ask, specifically include:
Detect the situation in place of current each server node successively according to preset order, and judge current each described clothes
Whether business device node arranges according to preset order successively.
Preferably, judge whether current each described server node arranges according to preset order successively, specifically include:
The quantity p of the current all server nodes in place of detection, acquisition is currently at the groove of the server node of last position
Position numerical sequence q, and judge whether p is equal with q, if it is, current each described server node meets presets situation in place
It is required that.
Preferably, when judging that current each described server node is unsatisfactory for default situation requirement in place, then according to default
Mode sends warns, with the groove position ordinal number for pointing out user to change each server node.
Preferably, judge whether the radiator corresponding to current each described server node is in place, specifically includes:
Groove position numerical sequence according to current each server node determines the radiating of contraposition with default corresponding relation
The alignment grooves position numerical sequence of device is set A, and the current groove position numerical sequence for obtaining each radiator is set B, and judges A ∈
Whether B sets up, if it is, each described radiator is in place;If it is not, then each described radiator is uneven in place.
Preferably, the radiating efficiency of radiator wherein in place is improved, is specifically included:
Increase the rotation speed of the fan of radiator in place step by step according to default echelon, and after regulation is completed every time, inspection
Whether the temperature for surveying the server node corresponding to radiator not in place reaches target, if it is not, then continuing to increase
The rotation speed of the fan of radiator in place;If it is, making radiator in place keep current rotation speed of the fan.
The present invention also provides a kind of server heat dissipation control system, including:
Server node enquiry module, the situation in place for detecting current each server node;
Whether the first judge module, the situation in place for judging current each server node meets default in place
Situation requirement;
Second judge module, during for the judged result in first judge module to be, judgement is currently described in each
Whether the radiator corresponding to server node is in place;
Radiator mode control module, during for the judged result in second judge module to be, dissipates according to default
Hot regulating strategy controls the working condition of each radiator, and for being in the judged result of second judge module
When no, the radiating efficiency of radiator wherein in place is improved.
Preferably, the server node enquiry module is specifically included:
Quantity detection module, the quantity p for detecting current all server nodes in place;
Ordinal number detection module, the groove numerical sequence q for obtaining the server node for being currently at last position;
And whether first judge module is specifically for according to p and q current each described server node of equal judgement
Whether satisfaction presets situation requirement in place, if it is, meet, if it is not, then being unsatisfactory for.
Preferably, second judge module is specifically included:
Ordinal number computing module, for the groove position numerical sequence according to current each server node and default corresponding pass
System determines the alignment grooves position numerical sequence of the radiator of contraposition, and it is set A to set its result of calculation;
Ordinal number acquisition module, for obtain each radiator current groove position numerical sequence, and set its obtain result as
Set B;
Sub- judge module:For judging whether A ∈ B set up, if it is, each described radiator is in place;If not,
Then each described radiator is uneven in place.
Preferably, the radiator mode control module is specifically included:
Adjustment module, for when the radiator corresponding to current each described server node is uneven in place, according to pre-
If echelon increases the rotation speed of the fan of radiator in place step by step;
Feedback module, the radiator institute for after each regulation of adjustment module completion, detecting not in place is right
Whether the temperature of the server node answered reaches target, if it is not, then the fan for continuing increase radiator in place turns
Speed;If it is, making radiator in place keep current rotation speed of the fan.
Server heat dissipation control method provided by the present invention, mainly includes two steps, respectively:Detection it is current each
The situation in place of server node, and judge whether to meet default situation requirement in place;If it is, continue to judge it is current each
Whether the radiator corresponding to the server node is in place;If it is, controlling each according to default radiating regulating strategy
The working condition of the radiator;If it is not, then improving the radiating efficiency of radiator wherein in place.It is provided by the present invention
Server heat dissipation control method, has multiple server nodes to exist simultaneously, operate in the first step, in server, works as server
When full cabinet runs, each server node can be arranged arbitrarily, but when server free tank is configured, each server node is needed
Continuously to configure, therefore, detecting the situation in place of current each server node first, and judge whether to meet default feelings in place
Condition requirement.If each server node is in place correct, illustrate that the full cabinet operation of server or free tank run, but service
Device node is continuous.If each server node is uneven in place, default situation requirement in place is unsatisfactory for, it is necessary to readjust clothes
The configuration sequence of business device node.In second step, when the situation in place of each server node meets default situation requirement in place
When, then continue to judge whether the radiator corresponding to each server node is in place, if it is, the current radiator of explanation
Distribution situation can meet the radiating requirements of server, and the work of each radiator need to be only controlled according to default radiating regulating strategy
State;If it is not, then the current radiator distribution situation of explanation cannot meet the radiating requirements of server, there are part clothes
The situations of a large amount of accumulation of heat at business device node, the radiating efficiency of the radiator for now needing to improve wherein in place so that
The radiating effect enhancing of the radiator neighbouring with the server node that there is heat dissipation problem, so as to the server section over to surrounding
Point, so that each radiator is also carried out radiating to not corresponding server node originally, so as to take into account Servers-all node.
In sum, server heat dissipation control method provided by the present invention, can be when server free tank be configured, it is ensured that to all
The radiating effect of server node.
Brief description of the drawings
In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
The accompanying drawing to be used needed for having technology description is briefly described, it should be apparent that, drawings in the following description are only this
Inventive embodiment, for those of ordinary skill in the art, on the premise of not paying creative work, can also basis
The accompanying drawing of offer obtains other accompanying drawings.
Fig. 1 is a kind of flow chart of specific embodiment provided by the present invention;
Fig. 2 is a kind of module map of specific embodiment provided by the present invention.
Wherein, in Fig. 2:
Server node enquiry module -1, the first judge module -2, the second judge module -3, radiator Schema control
Module -4, quantity detection module -101, ordinal number detection module -102, ordinal number computing module -301, ordinal number acquisition module -
302, sub- judge module -303, adjustment module -401, feedback module -402.
Specific 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 carried out clear, complete
Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.It is based on
Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made
Embodiment, belongs to the scope of protection of the invention.
Fig. 1 is refer to, Fig. 1 is a kind of flow chart of specific embodiment provided by the present invention.
In a kind of specific embodiment provided by the present invention, server heat dissipation control method mainly includes two steps
Suddenly, respectively:The situation in place of current each server node of detection, and judge whether to meet default situation requirement in place;Such as
Fruit is then to continue to judge whether the radiator corresponding to current each server node is in place, if it is, being dissipated according to default
Hot regulating strategy controls the working condition of each radiator;If it is not, then improving the radiating efficiency of radiator wherein in place.
Wherein, in the first step, multiple server nodes exist simultaneously, operate in server, when the full cabinet fortune of server
During row, each server node can be arranged arbitrarily, but when server free tank is configured, each server node needs continuous
Configuration, therefore, detecting the situation in place of current each server node first, and judges whether that the default situation in place of satisfaction will
Ask.If each server node is in place correct, illustrate that the full cabinet operation of server or free tank run, but server section
Point is continuous.If each server node is uneven in place, default situation requirement in place is unsatisfactory for, it is necessary to readjust server
The configuration sequence of node.
In second step, when the situation in place of each server node meets default situation requirement in place, then continue to sentence
Whether the radiator broken corresponding to each server node is in place, if it is, the current radiator distribution situation of explanation can
To meet the radiating requirements of server, the working condition of each radiator need to be only controlled according to default radiating regulating strategy;
If it is not, then the current radiator distribution situation of explanation cannot meet the radiating requirements of server, there is part server node
The situations of a large amount of accumulation of the heat at place, the radiating efficiency of the radiator for now needing to improve wherein in place so that dissipated with existing
The radiating effect enhancing of the neighbouring radiator of the server node of heat problem, so as to the server node over to surrounding, so
So that each radiator is also carried out radiating to not corresponding server node originally, so as to take into account Servers-all node.
In sum, server heat dissipation control method provided by the present invention, can protect when server free tank is configured
Demonstrate,prove the radiating effect to Servers-all node.
In the situation in place of current each server node of detection, and when judging whether to meet default situation requirement in place,
The situation in place of current each server node specifically can be successively detected according to preset order, such as can from node 1, node 2 ...
The incremental order of node n detects each server node successively, if at node 1 groove position in presence server node operation,
Illustrate that the server node is in place, node n can be similarly pushed into, until all of server node.After the completion of detection, you can judge
Go out whether current each server node arranges according to preset order successively, it is general, each server node in server not
, it is necessary to since node 1, node m (m≤n) is ordered into successively when full cabinet is configured, each server section is detected by traveling through successively
The mode of point can be accurately finished judgement.If without successively according to preset order arrange, illustrate wherein certain or some clothes
Business device node is present jumps section phenomenon, such as node 1, node 2, the node 5 ... of node 4, and node 3 is now needed situations such as be skipped
Server node order is carried out to adjust.
When judging whether current each server node arranges according to predetermined order successively, specifically can be in the following manner
Realize:The quantity of current all server nodes in place is can detect first, if its value is p;Obtain again and be currently at last position
The groove position numerical sequence of server node, if its value is q;Finally judge whether p is equal with q, if equal, illustrate that each is serviced
Device node is arranged in order according to the order of node 1, node 2 ... node n really, meets default situation requirement in place.Such as, detect
Quantity to current all server nodes in place is 4, and the groove position sequence of the server node for being currently at last position for obtaining
Numerical value is 6, then may determine that each server node not continuous arrangement, but according to node 1, node 2, node 3, node
The sequence such as 6 or node 1, node 3, node 4, node 6 is configured, this kind of situation be unsatisfactory for default situation requirement in place, it is necessary to
User is adjusted.
Connect above-mentioned, when judging that each server node is unsatisfactory for default situation requirement in place, then can be according to default side
Formula sends warns, such as by sound and light alarm etc., with the groove position ordinal number for pointing out user to change each server node so that each
Server node continuous arrangement configuration successively in sequence.
In addition, when judging whether the radiator corresponding to current each server node is in place, can specifically pass through
In the following manner is realized:Groove position numerical sequence and default corresponding relation first according to current each server node, it is determined that contraposition
Radiator alignment grooves position numerical sequence, i.e., certain groove position server node, it should correspond to certain groove position or some grooves position
Radiator, depending on the corresponding relation can be according to the heating power of the specification of radiator and server node, such as some groove
The radiator of one corresponding groove position of server node correspondence of position or two radiators of adjacent slot etc..Meanwhile, server section
Point is provided with multiple, and its corresponding radiator also has multiple, in this way, the alignment grooves position numerical sequence of radiator is a collection
Close, it is A that can set it, such as A={ 1,2,3,4 } etc., illustrate the groove position with the radiator of current each server node contraposition, tool
Body is four radiators of groove position ordinal number 1, groove position ordinal number 2, groove position ordinal number 3 and groove position ordinal number 4.Afterwards, then obtain each radiating
The current groove position numerical sequence of device, because radiator also has multiple, therefore also should be a set, and it is B that can set it, such as B=
{ 1,2,3,4,5 } etc., illustrates to be provided with the radiator of operation in now radiator groove position 1,2,3,4 and 5.Finally, judge that A is
It is no to belong to B, if it is, explanation A be B subset or A it is equal with B, the server node in two kinds of situations can be looked for
To the radiator aligned with oneself, all of server node is respectively provided with good radiating effect, now only need to be according to default
Radiating regulating strategy control working condition;If A is not belonging to B, illustrate at least one server node can not find with
The radiator of oneself contraposition, now each radiator is uneven in place, then need to improve dissipating for each radiator wherein in place
The thermal efficiency, to take into account the radiating requirements of remaining server node for not aligning radiator.
Moreover, when judging radiator inequality in place and to need the radiating efficiency of raising radiator in place,
The rotation speed of the fan of radiator in place can step by step be increased according to default echelon, such as improve 500rpm etc. every time, it is to avoid one
The span of secondary regulation is excessive, the situation for causing radiating effect to be subcooled.And after regulation is completed every time, then detect not in place
The temperature of the server node corresponding to radiator, judges whether its temperature drop effect after the adjustment is completed reaches pre-
Phase, such as 500rpm rotation speeds of the fan are often improved, the temperature of server node just declines 5 DEG C etc..If at a temperature of being found after detection
Drop effect reaches expection, then the radiator that the part can be made in place is maintained at current rotation speed of the fan;If temperature drop
DeGrain, then should continue to increase the rotation speed of the fan of radiator in place step by step according to default echelon.Certainly, in place
Radiator rotation speed of the fan improve when, the radiating efficiency for not aligning server node has not only been taken into account, while also improving
Radiating effect to having aligned server node.
The present embodiment also provides a kind of server heat dissipation control system, mainly includes server node enquiry module, first
Judge module, the second judge module and radiator mode control module.Wherein, server node enquiry module mainly for detection of
The situation in place of current each server node, the first judge module is mainly used in judging current each server node
Whether situation in place meets default situation requirement in place, and the second judge module is mainly used in the judgement in first judge module
Result is for when being, whether the radiator corresponding to current each the described server node of judgement is in place, radiator Schema control
Module is mainly used in, when the judged result of second judge module is to be, each institute being controlled according to default radiating regulating strategy
The working condition of radiator is stated, and for when the judged result of second judge module is no, improving wherein in place
Radiator radiating efficiency.
Wherein, server node enquiry module mainly includes quantity detection module and ordinal number detection module.Quantity detects mould
Block mainly for detection of current all server nodes in place quantity, and it is p, ordinal number detection module master to set its testing result
It is used to obtain the groove position numerical sequence of the server node for being currently at last position, and set it to obtain result is q.And first judges
Module specifically for judging whether current each server node meets default situation requirement in place according to whether p and q equal, such as
Fruit is then to meet, if it is not, then being unsatisfactory for.
Second judge module specifically includes ordinal number computing module, ordinal number acquisition module and sub- judge module.Wherein, ordinal number meter
Module is calculated to be mainly used in determining dissipating for contraposition with default corresponding relation according to the groove position numerical sequence of current each server node
The alignment grooves position numerical sequence of hot device, and it is set A to set its result of calculation;Ordinal number acquisition module is mainly used in obtaining each radiator
Current groove position numerical sequence, and set its obtain result be set B;Sub- judge module is mainly used in judging whether A ∈ B set up, such as
Fruit is that then each radiator is in place;If it is not, then each radiator is uneven in place.
Radiator mode control module specifically includes adjustment module and feedback module.Wherein, adjustment module is mainly used in
When radiator corresponding to current each server node is uneven in place, radiator in place is increased step by step according to default echelon
Rotation speed of the fan.And feedback module is mainly used in after each regulation of adjustment module is completed, radiator not in place is detected
Whether the temperature of corresponding server node reaches target, if it is not, then continuing the wind of increase radiator in place
Fan rotating speed;If it is, making radiator in place keep current rotation speed of the fan.
The foregoing description of the disclosed embodiments, enables professional and technical personnel in the field to realize or uses the present invention.
Various modifications to these embodiments will be apparent for those skilled in the art, as defined herein
General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, the present invention
The embodiments shown herein is not intended to be limited to, and is to fit to and principles disclosed herein and features of novelty phase one
The scope most wide for causing.
Claims (10)
1. a kind of server heat dissipation control method, it is characterised in that including:
The situation in place of current each server node of detection, and judge whether to meet default situation requirement in place;
If it is, continuing to judge whether the radiator corresponding to current each described server node is in place;If it is,
The working condition of each radiator is controlled according to default radiating regulating strategy, if it is not, then improving wherein in place dissipating
The radiating efficiency of hot device.
2. server heat dissipation control method according to claim 1, it is characterised in that current each server node of detection
Situation in place, and judge whether to meet default situation requirement in place, specifically include:
Detect the situation in place of current each server node successively according to preset order, and judge current each described server
Whether node arranges according to preset order successively.
3. server heat dissipation control method according to claim 2, it is characterised in that judge current each described server
Whether node arranges according to preset order successively, specifically includes:
The quantity p of the current all server nodes in place of detection, acquisition is currently at the groove position sequence of the server node of last position
Numerical value q, and judge whether p is equal with q, if it is, current each described server node meets default situation requirement in place.
4. server heat dissipation control method according to claim 3, it is characterised in that judge current each described server
When node is unsatisfactory for default situation requirement in place, is then sent according to predetermined manner and warned, to point out user to change each clothes
The groove position ordinal number of business device node.
5. the server heat dissipation control method according to claim any one of 1-4, it is characterised in that judge current each institute
Whether the radiator stated corresponding to server node is in place, specifically includes:
Groove position numerical sequence and the radiator of default corresponding relation determination contraposition according to current each server node
Alignment grooves position numerical sequence is set A, and the current groove position numerical sequence for obtaining each radiator is set B, and judges that A ∈ B are
No establishment, if it is, each described radiator is in place;If it is not, then each described radiator is uneven in place.
6. server heat dissipation control method according to claim 5, it is characterised in that improve radiator wherein in place
Radiating efficiency, specifically include:
Increase the rotation speed of the fan of radiator in place step by step according to default echelon, and after regulation is completed every time, detection is not
Whether the temperature of the server node corresponding to radiator in place reaches target, if it is not, then continuing to increase in place
Radiator rotation speed of the fan;If it is, making radiator in place keep current rotation speed of the fan.
7. a kind of server heat dissipation control system, it is characterised in that including:
Server node enquiry module, the situation in place for detecting current each server node;
Whether the first judge module, the situation in place for judging current each server node meets default situation in place
It is required that;
Second judge module, during for the judged result in first judge module to be, judges current each described service
Whether the radiator corresponding to device node is in place;
Radiator mode control module, during for the judged result in second judge module to be, adjusts according to default radiating
The working condition of each radiator of policy control is controlled, and is no for the judged result in second judge module
When, improve the radiating efficiency of radiator wherein in place.
8. server heat dissipation control system according to claim 7, it is characterised in that the server node enquiry module
Specifically include:
Quantity detection module, the quantity p for detecting current all server nodes in place;
Ordinal number detection module, the groove numerical sequence q for obtaining the server node for being currently at last position;
And whether first judge module is specifically for judging current each described server node according to whether p and q are equal
Meet default situation requirement in place, if it is, meet, if it is not, then being unsatisfactory for.
9. server heat dissipation control system according to claim 8, it is characterised in that second judge module is specifically wrapped
Include:
Ordinal number computing module, it is true with default corresponding relation for the groove position numerical sequence according to current each server node
The alignment grooves position numerical sequence of the radiator of fixed contraposition, and it is set A to set its result of calculation;
Ordinal number acquisition module, for obtaining the current groove position numerical sequence of each radiator, and set it to obtain result is set
B;
Sub- judge module:For judging whether A ∈ B set up, if it is, each described radiator is in place;If it is not, then each
The individual radiator is uneven in place.
10. server heat dissipation control system according to claim 9, it is characterised in that the radiator Schema control mould
Block is specifically included:
Adjustment module, for when the radiator corresponding to current each described server node is uneven in place, according to default ladder
The secondary rotation speed of the fan for increasing radiator in place step by step;
Feedback module, for after each regulation of adjustment module completion, detecting corresponding to radiator not in place
Whether the temperature of server node reaches target, if it is not, then continuing the rotation speed of the fan of increase radiator in place;Such as
Fruit is radiator in place is kept current rotation speed of the fan.
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