CN104731303A - Regulation method and device - Google Patents

Abstract

The invention discloses a regulation method and device. The regulation method includes: acquiring M current performance data from M servers in a cabinet, wherein each current performance datum in the M current performance data at least includes current utilization information in main controller performance data of the main controller of the M servers, and M is an integer greater than or equal to 1; determining at least one adjustment parameter used for adjusting air supply equipment according to the M current performance data; according to the at least one adjustment parameter, controlling current air supplying mode of the air supply equipment so as to enable the current air supplying mode to be matched with M current utilization of the M main controllers.

Description

A kind of regulate and control method and regulation device

Technical field

The present invention relates to electronic technology field, particularly relate to a kind of regulate and control method and regulation device.

Background technology

Along with the fast development of telecommunication service, the building of supporting system of telecom operators is also like a raging fire.System Construction needs a lot of server, and the too high temperature of server will cause server to delay machine or equipment accelerated deterioration.In the electric power energy consumption of the heart in the data, information technoloy equipment, machine room refrigeration and power-supply device are respectively the relation of 5:4:1, namely the power consumption of server, storage, switch account for that total energy consumes 50%, and the power consumption of machine room refrigeration accounts for the power-supply device power consumption such as 40%, UPS and accounts for 10%.Available data center blowing device energy consumption exceedes information technoloy equipment energy consumption, and refrigerating capacity does not adjust according to the demand of actual information technoloy equipment.

The technical scheme of existing accurate air-feeding at present, accurately lower air-supply scheme is by the cold passage of sealing, guarantees that hot and cold air-flow is completely isolated, cold wind is directly sent into rack, and according to the temperature sensor disposed in whole machine cabinet, the temperature of monitoring cabinet, dynamic assignment air output, realizes cooling on demand.

But in prior art, major part is all monitor the temperature of rack and control, such as at the standard cabinet of a 42U, only may put a small amount of server, take the seat in the plane of part, only carry out monitoring and controlling in rack aspect, making the refrigerating capacity of blowing device and the unlatching of air-supply or close can not be adaptive with the temperature of every station server, therefore conventionally scheme, not good to the temperature control effect of server cabinet.

Summary of the invention

Embodiments provide a kind of regulate and control method and regulation device, for the server accurate air-feeding in rack, improve the temperature control effect to server cabinet.

On the one hand, embodiments provide a kind of regulate and control method, comprising:

Obtain M current performance data of M server in rack, wherein, each current performance data in a described M current performance data at least comprises the current utilization information in the primary processor performance data of the primary processor of each server in a described M server, M be more than or equal to 1 integer;

At least one the adjustment parameter adjusting blowing device is determined according to a described M current performance data;

According at least one adjustment parameter described, control the current air supply mode of described blowing device, to make M current utilization of described current air supply mode and a described M primary processor adaptive.

Therefore, embodiment of the present invention technical scheme be not that temperature to rack is monitored, but the main handling property of station server every in rack is monitored, according to the current performance data of each server, control the air supply mode of blowing device, comprise refrigerating capacity, air-valve is opened and opening angle, can be high in the primary processor utilization factor of server, the temperature of server is high, controls the refrigerating capacity etc. improving blowing device, when the primary processor utilization factor of server is low, the temperature of server is low, controls the refrigerating capacity etc. reducing blowing device.Therefore to the server accurate air-feeding in rack, improve the temperature control effect to server cabinet.

Preferably, described at least one adjustment parameter determining adjustment blowing device according to a described M current performance data, comprising:

Based on M current performance data described in the first pre-set control algorithm process;

Generate mate with a described M current performance data described at least one adjust at least one adjusting parameter values of parameter.

By the scheme of the present embodiment, based on M current performance data described in pre-set control algorithm process, to the current performance data of server, the parameter value for adjusting blowing device can be obtained by response monitoring fast.

Preferably, at least one adjustment parameter described in described basis, controls the current air supply mode of described blowing device, comprising:

When at least one adjustment parameter described comprises the refrigerating capacity parameter of described blowing device, the refrigerating capacity of described blowing device is controlled, to make M current utilization of described current air supply mode and a described M primary processor adaptive according to the cooling parameters value of described refrigerating capacity parameter; Or

When at least one adjustment parameter described comprises the sequential parameter of segmentation and slicing air-valve of described blowing device, the opening angle of every a slice in the unlatching sequence of described segmentation and slicing air-valve and/or described segmentation and slicing air-valve is adjusted, to make M current utilization adaptation of described current air supply mode and a described M primary processor according to the sequence parameter values of described sequential parameter.

By the scheme of the present embodiment, can when in rack, the primary processor utilization factor of server be all very high, by adjustment refrigerating capacity, control the temperature reducing whole server, when the primary processor utilization factor height of part server, by controlling segmentation and slicing air-valve, more accurately reduce the temperature of part server, therefore, the temperature control effect to rack is provided.

Preferably, after M primary processor performance data of M server in described acquisition rack, described method also comprises:

According to i-th primary processor performance data in a described M current performance data, judge that whether the current dominant frequency of described i-th primary processor is adaptive with the current utilization of described i-th primary processor, i is more than or equal to the integer that 1 is less than or equal to M;

In the dominant frequency of described i-th primary processor and the uncomfortable timing of the current utilization of described i-th primary processor, the current dominant frequency controlling described i-th primary processor is adjusted to the frequency of operation with the current utilization adaptation of described i-th primary processor.

Scheme in the embodiment of the present invention according to the current primary processor utilization factor dominant frequency adjustment of server, can make charge capacity and the performance adaptation of primary processor.

Preferably, describedly judge that the current dominant frequency of described i-th primary processor is whether adaptive with the current utilization of described i-th primary processor according to i-th primary processor performance data in M current performance data, specifically comprise:

Judge whether the current utilization of described i-th primary processor presets utilization factor lower limit lower than one, and judge whether the current utilization of described i-th primary processor presets the utilization factor upper limit higher than one;

Described i-th primary processor current utilization lower than described default utilization factor lower limit or higher than in described default utilization factor in limited time, show that the current utilization of the dominant frequency of described i-th primary processor and described i-th primary processor is not adaptive;

Equal described default utilization factor is prescribed a time limit lower than described default utilization factor at the current utilization of described i-th primary processor, show the dominant frequency of described i-th primary processor and the current utilization adaptation of described i-th primary processor.

In the dominant frequency of described i-th primary processor and the uncomfortable timing of the current utilization of described i-th primary processor, the current dominant frequency controlling described i-th primary processor is adjusted to the frequency of operation with the current utilization adaptation of described i-th primary processor, specifically comprises:

Judge that the current utilization of described i-th primary processor is prescribed a time limit lower than under described default utilization factor, the current dominant frequency of described i-th primary processor is reduced to the second frequency of operation from the first frequency of operation; Judge that the current utilization of described i-th primary processor is higher than the described default utilization factor upper limit, then the current dominant frequency of described i-th processor is increased to the 3rd frequency of operation from described first frequency of operation, wherein, described first frequency of operation is that the current utilization of described i-th primary processor is higher than described default utilization factor lower limit and lower than frequency of operation during described default utilization factor.

Scheme in the embodiment of the present invention is heightened according to the current utilization of the primary processor of server or is turned down dominant frequency, therefore, it is possible to frequency reducing reduces no-load power consumption as required, raising frequency is to tackle the demand of high handling property.And then achieve the associating and carry out coordinated signals of temperature of server performance and server cabinet.

Preferably, a described M current performance data also comprises current load information and the Current Temperatures information of the primary processor of each server in a described M server, when described current load information comprises loadtype information and the loading information of primary processor, described first pre-set control algorithm is for carry out revised control algolithm based on N group historical data, wherein, jth group historical data in described N group historical data comprises M Current Temperatures information of M primary processor described in the Tj moment, and M current load information of M primary processor described in the Tj moment, j is more than or equal to the integer that 1 is less than or equal to N.

Scheme in the embodiment of the present invention, the application load run server and the real time data of temperature preserve history of forming data, can automatic analysis load and server temperature variation tendency, control system adjusts accordingly algorithm, realizes more accurate and real-time control.

Second aspect, the embodiment of the present invention is supplied to a kind of regulation device, comprising:

Monitoring acquisition module, be connected respectively by IPMI interface with the server of the M in rack, for obtaining M current performance data of a described M server, wherein, each current performance data in a described M current performance data at least comprises the current utilization information in the primary processor performance data of each primary processor of each server in a described M server, M be more than or equal to 1 integer;

Analysis module, is connected with described monitoring acquisition module, for M the current performance data obtained according to described monitoring acquisition module, determines at least one the adjustment parameter adjusting blowing device;

Air blowing control module, be connected with described analysis module, according to described analysis module, at least one adjustment parameter, controls the current air supply mode of described blowing device, to make M current utilization of described current air supply mode and a described M primary processor adaptive.

Therefore, embodiment of the present invention technical scheme is not monitor the temperature of rack, but the main handling property of station server every in rack is monitored, according to the current performance data of each server, control the air supply mode of blowing device, comprise refrigerating capacity, air-valve is opened and opening angle, can be high in the primary processor utilization factor of server, the temperature of server is high, controls the refrigerating capacity etc. improving blowing device, when the primary processor utilization factor of server is low, the temperature of server is low, controls the refrigerating capacity etc. reducing blowing device.Therefore to the server accurate air-feeding in rack, improve the temperature control effect to server cabinet.

Preferably, described analysis module, for: based on M current performance data described in the first pre-set control algorithm process; Generate mate with a described M current performance data described at least one adjust at least one adjusting parameter values of parameter.

By the scheme of the present embodiment, based on M current performance data described in pre-set control algorithm process, to the current performance data of server, the parameter value for adjusting blowing device can be obtained by response monitoring fast.

Preferably, described air blowing control module, comprising:

Controlling capacity of refrigeration unit, for when at least one adjustment parameter described comprises the refrigerating capacity parameter of described blowing device, the refrigerating capacity of described blowing device is controlled, to make M current utilization information of described current air supply mode and a described M primary processor adaptive according to the cooling parameters value of described refrigerating capacity parameter;

Air-valve control module, for when at least one adjustment parameter described comprises the sequential parameter of segmentation and slicing air-valve of described blowing device, the opening angle of every a slice in the unlatching sequence of described segmentation and slicing air-valve and/or described segmentation and slicing air-valve is adjusted, to make M current utilization adaptation of described current air supply mode and a described M primary processor according to the sequence parameter values of described sequential parameter.

Preferably, described device also comprises:

Performance management module, for according to i-th primary processor performance data in a described M current performance data, judge that whether the current dominant frequency of described i-th primary processor is adaptive with the current utilization of described i-th primary processor, i is more than or equal to the integer that 1 is less than or equal to M;

Server performance control module, be connected with described performance management module, in the uncomfortable timing of current utilization that the judged result of described performance management module is the current dominant frequency of described i-th primary processor and described i-th primary processor, the current dominant frequency adjusting described i-th primary processor is the frequency of operation with the current utilization adaptation of described i-th primary processor.

Scheme in the embodiment of the present invention according to the current primary processor utilization factor dominant frequency adjustment of server, can make charge capacity and the performance adaptation of primary processor.

Preferably, described monitoring acquisition module also for: by the temperature information of M primary processor described in described IPMI interface monitoring.

Preferably, a described M current performance data also comprises current load information and the Current Temperatures information of the primary processor of each server in a described M server, when described current load information comprises loadtype information and the loading information of primary processor, described analysis module also for:

Based on N group historical data, described first pre-set control algorithm is revised, wherein, jth group historical data in described N group historical data comprises M Current Temperatures information of M primary processor described in the Tj moment, and M current load information of M primary processor described in the Tj moment, j is more than or equal to the integer that 1 is less than or equal to N.

Scheme in the embodiment of the present invention, the application load run server and the real time data of temperature preserve history of forming data, can automatic analysis load and server temperature variation tendency, control system adjusts accordingly algorithm, realizes more accurate and real-time control.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, below the accompanying drawing used required in describing embodiment is briefly introduced, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the schematic flow sheet of regulate and control method in the embodiment of the present invention;

Fig. 2 is the connection diagram of regulation device and multiple server in the embodiment of the present invention.

Embodiment

In order to make the object, technical solutions and advantages of the present invention clearly, below in conjunction with accompanying drawing, the present invention is described in further detail, and obviously, described embodiment is only a part of embodiment of the present invention, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making other embodiments all obtained under creative work prerequisite, belong to the scope of protection of the invention.

Major part is all monitor the temperature of rack and control, such as at the standard cabinet of a 42U, only may put a small amount of server, take the seat in the plane of part, only carry out monitoring and controlling in rack aspect, making the refrigerating capacity of blowing device and the unlatching of air-supply or close can not be adaptive with the temperature of every station server, therefore conventionally scheme, not good to the temperature control effect of server cabinet.And the technical scheme in the embodiment of the present invention, not that the temperature of rack is monitored, but the main handling property of station server every in rack is monitored, according to the current performance data of each server, control the air supply mode of blowing device, comprise refrigerating capacity, air-valve is opened and opening angle, can be high in the primary processor utilization factor of server, the temperature of server is high, controls the refrigerating capacity etc. improving blowing device, when the primary processor utilization factor of server is low, the temperature of server is low, controls the refrigerating capacity etc. reducing blowing device.Therefore to the server accurate air-feeding in rack, improve the temperature control effect to server cabinet.

In the regulation device that the application of technical scheme regulation and control scheme that the embodiment of the present invention provides regulates and controls the server cabinet of data center, be described in detail the present invention program below by specific embodiment, certainly, the present invention is not limited to following examples.

With reference to figure 1, the regulate and control method in the embodiment of the present invention comprises the steps:

Step 11: M the current performance data obtaining M server in rack, wherein, each current performance data in a described M current performance data at least comprises the current utilization information in the primary processor performance data of the primary processor of each server in a described M server, M be more than or equal to 1 integer.

In a step 11, each current performance data of acquisition comprises the current utilization information of primary processor, loadtype information, loading information, temperature information of primary processor etc., wherein, the M station server in rack reports the current utilization information of primary processor by IPMI.

Step 12: determine at least one the adjustment parameter adjusting blowing device according to a described M current performance data.

In step 12, obtain M current performance data based in the first pre-set control algorithm treatment step 11, generate mate with a described M current performance data described at least one adjust at least one adjusting parameter values of parameter.Wherein, at least one adjusting parameter values can be refrigerating capacity parameter, also can be the sequential parameter of segmentation and slicing air-valve,

Concrete, at least one corresponding refrigerating capacity parameter can be determined based on the current utilization average of M processor, also can for determining at least one corresponding refrigerating capacity parameter based on a weight proportion of the current utilization of M processor, also can be based at least one refrigerating capacity parameter corresponding to maximum current utilization in M processor, also can for the sequential parameter of segmentation and slicing air-valve determined based on the current utilization distribution situation of M processor.

Such as, comprise 4 station servers at rack, be respectively server A, server B, server C, server D, in the T1 moment, obtain the utilization factor of the CPU (main process) of each server for being followed successively by server A: 62%, server B: 51%, server C:10%, server D:85%.Can determine that corresponding refrigerating capacity parameter value is X based on current utilization average 52%, or based on large current utilization is determined to corresponding refrigerating capacity parameter value is Y, with make according to refrigerating capacity parameter value X or refrigerating capacity parameter value adjustment blowing device.

In specific implementation process, a described M current performance data also comprises current load information and the Current Temperatures information of the primary processor of each server in a described M server, described current load information comprises loadtype information and the loading information of primary processor, described first pre-set control algorithm is for carry out revised control algolithm based on N group historical data, wherein, jth group historical data in described N group historical data comprises M Current Temperatures information of M primary processor described in the Tj moment, and M current load information of M primary processor described in the Tj moment, j is more than or equal to the integer that 1 is less than or equal to N.

Specifically, can timing control the first pre-set control algorithm based on N group historical data, adjusting the adjustment parameter that the current utilization of main process is corresponding, is that control temperature is more accurate.

Such as, the temperature of primary processor is good below 50 degrees Celsius, under the first preset algorithm before the first pre-set control algorithm correction controls, N group historical data according to obtaining shows, such as, when the current utilization of primary processor is 50%, the Current Temperatures of primary processor is 55 degrees Celsius, when the current utilization of primary processor is 70%, the Current Temperatures of main process is 65, refrigerating capacity parameter value when then to increase the current utilization of primary processor be 50% based on historical data, and the refrigerating capacity parameter value when current utilization increasing primary processor is 70%.

Step 13: according at least one adjustment parameter described, control the current air supply mode of described blowing device, to make M current utilization of described current air supply mode and a described M primary processor adaptive.

Different according to the type of adjustment parameter, control mode is not identical, when at least one adjustment parameter described comprises the refrigerating capacity parameter of described blowing device, the refrigerating capacity of described blowing device is controlled, to make M current utilization of described current air supply mode and a described M primary processor adaptive according to the cooling parameters value of described refrigerating capacity parameter;

When at least one adjustment parameter described comprises the sequential parameter of segmentation and slicing air-valve of described blowing device, the opening angle of every a slice in the unlatching sequence of described segmentation and slicing air-valve and/or described segmentation and slicing air-valve is adjusted, to make M current utilization adaptation of described current air supply mode and a described M primary processor according to the sequence parameter values of described sequential parameter.

The technical scheme provided in the embodiment of the present invention, in order to realize the coordinated signals to server performance and cabinet temperature, also comprise after step 11: according to i-th primary processor performance data in a described M current performance data, judge that whether the current dominant frequency of described i-th primary processor is adaptive with the current utilization of described i-th primary processor, i is more than or equal to the integer that 1 is less than or equal to M; In the dominant frequency of described i-th primary processor and the uncomfortable timing of the current utilization of described i-th primary processor, the current dominant frequency controlling described i-th primary processor is adjusted to the frequency of operation with the current utilization adaptation of described i-th primary processor.

In implementation process, control is carried out to the performance of server and has the following two kinds embodiment at least, explain below:

The first embodiment, can preset the utilization factor of primary processor and primary processor dominant frequency mapping table, the current utilization of real-time monitoring i-th primary processor, determine that whether the primary processor frequency of operation corresponding with the current utilization of i-th primary processor be adaptive by the mode of tabling look-up, in uncomfortable timing, according to checking result, be adjusted to the frequency of operation corresponding with the primary processor of i-th primary processor adaptation.

Such as, preset utilization factor and the primary processor of primary processor dominant frequency mapping table (only for illustrating, in practical application, arranging according to processor model and actual treatment needs) as follows:

Utilization factor	Lower than 20%	20%～80%	Higher than 80%
				Dominant frequency	400MHZ	863MHZ	1.8GHZ

When determining that the current utilization of i-th primary processor is in 20% ~ 80% by tabling look-up, the dominant frequency controlling i-th primary processor is 863MHZ, determine by tabling look-up the current utilization of i-th primary processor higher than in the scope of 80% time, the dominant frequency controlling i-th primary processor is 1.8GHZ, determine by tabling look-up the current utilization of i-th primary processor lower than in the scope of 20% time, controlling the dominant frequency of i-th primary processor is 400MHZ.

The second embodiment, judges whether the current utilization of described i-th primary processor presets utilization factor lower limit lower than one, and judges whether the current utilization of described i-th primary processor presets the utilization factor upper limit higher than one; Judge that the current utilization of described i-th primary processor is prescribed a time limit lower than under described default utilization factor, the current dominant frequency of described i-th primary processor is reduced to the second frequency of operation from the first frequency of operation; Judge that the current utilization of described i-th primary processor is higher than the described default utilization factor upper limit, then the current dominant frequency of described i-th processor is increased to the 3rd frequency of operation from described first frequency of operation, wherein, described first frequency of operation is that the current utilization of described i-th primary processor is higher than described default utilization factor lower limit and lower than frequency of operation during described default utilization factor.

Preset the utilization factor upper limit and can be set to 80%, preset utilization factor lower limit and can be set to 20%, the utilization factor upper limit and utilization factor lower limit can certainly be arranged or be adjusted according to the utilization factor that needs of actual primary processor.

Specifically, such as the conventional dominant frequency of current i-th primary processor is 863MHZ, at a time the utilization factor of i-th primary processor exceeds 80%, when such as current utilization is 85%, generate one and heighten instruction, control the corresponding raising 5% on dominant frequency 863MHZ of i-th primary processor, when such as current utilization is 90% again, generation one is heightened instruction and is controlled the corresponding raising 10% on dominant frequency 863MHZ of i-th primary processor, thus the needs of adaptation server height handling property; Simultaneously in the utilization factor of i-th primary processor lower than 20%, when such as current utilization is 5%, generates one and turn down instruction, controls i-th primary processor and be reduced to low frequency of operation state in dominant frequency, to reduce zero load or low load power consumption.

In specific implementation process, judge that the current utilization of described i-th primary processor is prescribed a time limit lower than under described default utilization factor, the refrigerating capacity simultaneously controlling blowing device is reduced to the second refrigerating capacity from the first refrigerating capacity, the current utilization described i-th primary processor that breaks is prescribed a time limit higher than in described default utilization factor, and the refrigerating capacity simultaneously controlling blowing device is increased to the 3rd refrigerating capacity from the first refrigerating capacity.Therefore, better achieve the coordinated signals of server performance and cabinet temperature, reduce power consumption.

Based on same inventive concept, embodiments provide a kind of regulation device, shown in figure 2, this regulation device comprises monitoring acquisition module 10, analysis module 20, air blowing control module 30, performance management module 40, server performance control module 50.

Monitoring acquisition module 10 is connected with the IPMI interface of multiple servers respectively, and analysis module 20 is connected with monitoring acquisition module 10, and air blowing control module 30 is connected with analysis module 20, and server performance control module 50 is connected with performance management module 40.

Monitoring acquisition module 10, be connected respectively by IPMI interface with the server of the M in rack, for obtaining M current performance data of a described M server, wherein, each current performance data in a described M current performance data at least comprises the current utilization information in the primary processor performance data of each primary processor of each server in a described M server, M be more than or equal to 1 integer;

Analysis module 20, is connected with described monitoring acquisition module 10, for M the current performance data obtained according to described monitoring acquisition module 10, determines at least one the adjustment parameter adjusting blowing device;

Air blowing control module 30, be connected with described analysis module 20, according to described analysis module 20, at least one adjustment parameter, controls the current air supply mode of described blowing device, to make M current utilization of described current air supply mode and a described M primary processor adaptive.

Preferably, described analysis module 20, for: based on M current performance data described in the first pre-set control algorithm process; Generate mate with a described M current performance data described at least one adjust at least one adjusting parameter values of parameter.

Preferably, described air blowing control module 30, comprising:

Controlling capacity of refrigeration unit, for when at least one adjustment parameter described comprises the refrigerating capacity parameter of described blowing device, the refrigerating capacity of described blowing device is controlled, to make M current utilization information of described current air supply mode and a described M primary processor adaptive according to the cooling parameters value of described refrigerating capacity parameter;

Air-valve control module, for when at least one adjustment parameter described comprises the sequential parameter of segmentation and slicing air-valve of described blowing device, the opening angle of every a slice in the unlatching sequence of described segmentation and slicing air-valve and/or described segmentation and slicing air-valve is adjusted, to make M current utilization adaptation of described current air supply mode and a described M primary processor according to the sequence parameter values of described sequential parameter.

Preferably, described device also comprises:

Performance management module 40, for according to i-th primary processor performance data in a described M current performance data, judge that whether the current dominant frequency of described i-th primary processor is adaptive with the current utilization of described i-th primary processor, i is more than or equal to the integer that 1 is less than or equal to M;

Server performance control module 50, be connected with described performance management module 40, in the uncomfortable timing of current utilization that the judged result of described performance management module 40 is the current dominant frequency of described i-th primary processor and described i-th primary processor, the current dominant frequency adjusting described i-th primary processor is the frequency of operation with the current utilization adaptation of described i-th primary processor.

Preferably, described monitoring acquisition module 10 also for: by the temperature information of M primary processor described in described IPMI interface monitoring.

Preferably, a described M current performance data also comprises current load information and the Current Temperatures information of the primary processor of each server in a described M server, when described current load information comprises loadtype information and the loading information of primary processor, described analysis module 20 also for:

Based on N group historical data, described first pre-set control algorithm is revised, wherein, jth group historical data in described N group historical data comprises M Current Temperatures information of M primary processor described in the Tj moment, and M current load information of M primary processor described in the Tj moment, j is more than or equal to the integer that 1 is less than or equal to N.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (12)

1. a regulate and control method, is characterized in that, comprising:

Obtain M current performance data of M server in rack, wherein, each current performance data in a described M current performance data at least comprises the current utilization information in the primary processor performance data of the primary processor of each server in a described M server, M be more than or equal to 1 integer;

At least one the adjustment parameter adjusting blowing device is determined according to a described M current performance data;

According at least one adjustment parameter described, control the current air supply mode of described blowing device, to make M current utilization of described current air supply mode and a described M primary processor adaptive.

2. the method for claim 1, is characterized in that, described at least one adjustment parameter determining adjustment blowing device according to a described M current performance data, comprising:

Based on M current performance data described in the first pre-set control algorithm process;

Generate mate with a described M current performance data described at least one adjust at least one adjusting parameter values of parameter.

3. method as claimed in claim 2, is characterized in that, at least one adjustment parameter described in described basis, controls the current air supply mode of described blowing device, comprising:

When at least one adjustment parameter described comprises the refrigerating capacity parameter of described blowing device, the refrigerating capacity of described blowing device is controlled, to make M current utilization of described current air supply mode and a described M primary processor adaptive according to the cooling parameters value of described refrigerating capacity parameter; Or

When at least one adjustment parameter described comprises the sequential parameter of segmentation and slicing air-valve of described blowing device, the opening angle of every a slice in the unlatching sequence of described segmentation and slicing air-valve and/or described segmentation and slicing air-valve is adjusted, to make M current utilization adaptation of described current air supply mode and a described M primary processor according to the sequence parameter values of described sequential parameter.

4. method as claimed in claim 2 or claim 3, it is characterized in that, after M primary processor performance data of M server in described acquisition rack, described method also comprises:

According to i-th primary processor performance data in a described M current performance data, judge that whether the current dominant frequency of described i-th primary processor is adaptive with the current utilization of described i-th primary processor, i is more than or equal to the integer that 1 is less than or equal to M;

In the dominant frequency of described i-th primary processor and the uncomfortable timing of the current utilization of described i-th primary processor, the current dominant frequency controlling described i-th primary processor is adjusted to the frequency of operation with the current utilization adaptation of described i-th primary processor.

5. method as claimed in claim 4, it is characterized in that, describedly judge that the current dominant frequency of described i-th primary processor is whether adaptive with the current utilization of described i-th primary processor according to i-th primary processor performance data in M current performance data, specifically comprise:

Judge whether the current utilization of described i-th primary processor presets utilization factor lower limit lower than one, and judge whether the current utilization of described i-th primary processor presets the utilization factor upper limit higher than one;

Described i-th primary processor current utilization lower than described default utilization factor lower limit or higher than in described default utilization factor in limited time, show that the current utilization of the dominant frequency of described i-th primary processor and described i-th primary processor is not adaptive;

Equal described default utilization factor is prescribed a time limit lower than described default utilization factor at the current utilization of described i-th primary processor, show the dominant frequency of described i-th primary processor and the current utilization adaptation of described i-th primary processor;

In the dominant frequency of described i-th primary processor and the uncomfortable timing of the current utilization of described i-th primary processor, the current dominant frequency controlling described i-th primary processor is adjusted to the frequency of operation with the current utilization adaptation of described i-th primary processor, specifically comprises:

Judge that the current utilization of described i-th primary processor is prescribed a time limit lower than under described default utilization factor, the current dominant frequency of described i-th primary processor is reduced to the second frequency of operation from the first frequency of operation; Judge that the current utilization of described i-th primary processor is higher than the described default utilization factor upper limit, then the current dominant frequency of described i-th processor is increased to the 3rd frequency of operation from described first frequency of operation, wherein, described first frequency of operation is that the current utilization of described i-th primary processor is higher than described default utilization factor lower limit and lower than frequency of operation during described default utilization factor.

6. method as claimed in claim 2, it is characterized in that, a described M current performance data also comprises current load information and the Current Temperatures information of the primary processor of each server in a described M server, when described current load information comprises loadtype information and the loading information of primary processor, described first pre-set control algorithm is for carry out revised control algolithm based on N group historical data, wherein, jth group historical data in described N group historical data comprises M Current Temperatures information of M primary processor described in the Tj moment, and M current load information of M primary processor described in the Tj moment, j is more than or equal to the integer that 1 is less than or equal to N.

7. a regulation device, is characterized in that, comprising:

Monitoring acquisition module, be connected respectively by IPMI interface with the server of the M in rack, for obtaining M current performance data of a described M server, wherein, each current performance data in a described M current performance data at least comprises the current utilization information in the primary processor performance data of each primary processor of each server in a described M server, M be more than or equal to 1 integer;

Analysis module, is connected with described monitoring acquisition module, for M the current performance data obtained according to described monitoring acquisition module, determines at least one the adjustment parameter adjusting blowing device;

Air blowing control module, be connected with described analysis module, according to described analysis module, at least one adjustment parameter, controls the current air supply mode of described blowing device, to make M current utilization of described current air supply mode and a described M primary processor adaptive.

8. device as claimed in claim 7, is characterized in that, described analysis module, for: based on M current performance data described in the first pre-set control algorithm process; Generate mate with a described M current performance data described at least one adjust at least one adjusting parameter values of parameter.

9. device as claimed in claim 8, it is characterized in that, described air blowing control module, comprising:

Controlling capacity of refrigeration unit, for when at least one adjustment parameter described comprises the refrigerating capacity parameter of described blowing device, the refrigerating capacity of described blowing device is controlled, to make M current utilization information of described current air supply mode and a described M primary processor adaptive according to the cooling parameters value of described refrigerating capacity parameter;

Air-valve control module, for when at least one adjustment parameter described comprises the sequential parameter of segmentation and slicing air-valve of described blowing device, the opening angle of every a slice in the unlatching sequence of described segmentation and slicing air-valve and/or described segmentation and slicing air-valve is adjusted, to make M current utilization adaptation of described current air supply mode and a described M primary processor according to the sequence parameter values of described sequential parameter.

10. device as claimed in claim 8 or 9, it is characterized in that, described device also comprises:

Performance management module, for according to i-th primary processor performance data in a described M current performance data, judge that whether the current dominant frequency of described i-th primary processor is adaptive with the current utilization of described i-th primary processor, i is more than or equal to the integer that 1 is less than or equal to M;

Server performance control module, be connected with described performance management module, in the uncomfortable timing of current utilization that the judged result of described performance management module is the current dominant frequency of described i-th primary processor and described i-th primary processor, the current dominant frequency adjusting described i-th primary processor is the frequency of operation with the current utilization adaptation of described i-th primary processor.

11. devices as claimed in claim 9, is characterized in that, described monitoring acquisition module also for: by the temperature information of M primary processor described in described IPMI interface monitoring.

12. devices as claimed in claim 11, it is characterized in that, a described M current performance data also comprises current load information and the Current Temperatures information of the primary processor of each server in a described M server, when described current load information comprises loadtype information and the loading information of primary processor, described analysis module also for:

Based on N group historical data, described first pre-set control algorithm is revised, wherein, jth group historical data in described N group historical data comprises M Current Temperatures information of M primary processor described in the Tj moment, and M current load information of M primary processor described in the Tj moment, j is more than or equal to the integer that 1 is less than or equal to N.