CN107015618A - A kind of whole machine cabinet server radiating system and heat dissipating method - Google Patents

Abstract

A kind of whole machine cabinet server radiating system and method, are related to server radiating technical field.Radiating efficiency and radiating effect for improving server.A kind of whole machine cabinet server radiating system, it is characterized in that, including rack, router administration plate, some middle plates and some nodes, each node is respectively configured with baseboard management controller, every four nodes are one group, and plate and one group of fan in respectively configuring one per group node, the fan in the group node are electrically connected with the middle plate of the group, the middle plate has transcoding function, and each middle plate is connected with the communication of router administration plate.A kind of whole machine cabinet server radiating method, it is characterized in that, compare rotation speed of the fan value required when each node fully radiates, take the rotation speed of the fan value of maximum as the rotating speed of the fan in rack at each node.A kind of whole machine cabinet server radiating method that the present invention is provided, can not only ensure the radiating effect of server, improve the radiating efficiency of server.

Description

A kind of whole machine cabinet server radiating system and heat dissipating method

Technical field

The present invention relates to server radiating technical field, specifically a kind of whole machine cabinet server radiating system and radiating Method.

Background technology

The radiating of server in prior art group is using each independent design method, although more flexibly, but inconvenience In unified management, while can not accomplish that radiating resource is shared, energy consumption is higher and can not adapt to the large scale deployment of data center module, and And it is low to there is radiating efficiency when the large scale deployment of computer room, the problem of radiating effect is poor.

The content of the invention

It is an object of the invention to provide a kind of whole machine cabinet server radiating system and heat dissipating method, for improving server Radiating efficiency and radiating effect.

The technical scheme adopted by the invention to solve the technical problem is that：

A kind of whole machine cabinet server radiating system, including rack, router administration plate, some middle plates and some sections Point, each node is located in the rack, and each node is respectively configured with baseboard management controller, and every four nodes are one Group, plate and one group of fan in respectively configuring one per group node, each baseboard management controller in same group node should with being located at The middle plate communication connection of group, the fan in the group node is electrically connected with the middle plate of the group, and the middle plate has transcoding function, Each middle plate is connected with the communication of router administration plate.

Further, each node top-down distribution in the rack.

Further, the rack includes upper half cabinet and lower half cabinet, and each node in upper half cabinet is uniformly distributed, is located at Each node of lower half cabinet is uniformly distributed, and the router administration plate is provided at the position between upper half cabinet and lower half cabinet.

A kind of whole machine cabinet server radiating method, specifically includes following steps：

1) each node in rack respectively, is configured into a baseboard management controller, every four nodes are divided into One group, plate and one group of fan in respectively configuring one on every group node, in same group node, by each baseboard management controller Communication is carried out with the middle plate in the group to be connected, and the fan in the group node is electrically connected with the middle plate positioned at the group, Middle plate is connected with the communication of router administration plate；

2) temperature information of corresponding node, is obtained by the baseboard management controller, temperature information includes CPU temperature Degree, internal memory temperature and hard disk temperature；

3), temperature information is delivered to corresponding middle plate by baseboard management controller, and middle plate carries out transcoding to temperature information；

4), the temperature information after transcoding is delivered to router administration plate by middle plate；

5), router administration plate carries out computing, calculates highest cpu temperature value in all nodes, highest internal memory Temperature value and highest hard disk temperature value；

6), router administration plate calculates the corresponding rotation speed of the fan of highest cpu temperature value according to cpu temperature operation matrix Value A1, router administration plate calculates the corresponding rotation speed of the fan value of highest internal memory temperature value according to internal memory temperature operation matrix B1, router administration plate calculates the corresponding rotation speed of the fan C1 of highest hard disk temperature value according to hard disk temperature operation matrix；

7), router administration plate compares A1, B1 and C1, and the maximum for taking three is maximum rotation speed of the fan value M；

8), maximum rotation speed of the fan value M rotary speed information is delivered to each middle plate by router administration plate；

9), each middle plate controls corresponding fan to be rotated respectively with maximum rotation speed of the fan value M speed.

Further, the step 1) in rack include upper half cabinet and lower half cabinet, respectively include in upper half cabinet and lower half cabinet Some group nodes；

The step 5) specifically, router administration plate carries out computing, calculate in all nodes in upper half cabinet Highest cpu temperature value, the highest internal memory temperature value in all nodes in upper half cabinet and in upper half cabinet Highest hard disk temperature value in all nodes, calculates highest cpu temperature value in all nodes in lower half cabinet, position The highest internal memory temperature value in all nodes in lower half cabinet and the highest hard disk in all nodes in lower half cabinet Temperature value；

The step 6) specifically, router administration plate is calculated positioned at upper half cabinet most according to cpu temperature operation matrix The corresponding rotation speed of the fan value A1 of high cpu temperature value, router administration plate is calculated positioned at upper according to internal memory temperature operation matrix The corresponding rotation speed of the fan value B1 of highest internal memory temperature value of half cabinet, router administration plate is calculated according to hard disk temperature operation matrix Go out to be located at the corresponding rotation speed of the fan C1 of highest hard disk temperature value of upper half cabinet,

Router administration plate calculates the highest cpu temperature value correspondence positioned at lower half cabinet according to cpu temperature operation matrix Rotation speed of the fan value A2, router administration plate calculates the highest internal memory temperature positioned at lower half cabinet according to internal memory temperature operation matrix The corresponding rotation speed of the fan value B2 of angle value, router administration plate calculates the highest positioned at lower half cabinet according to hard disk temperature operation matrix Hard disk temperature be worth corresponding rotation speed of the fan C2；

The step 7) specifically, router administration plate, which compares router administration plate, compares A1, B1 and C1, take three most Big value is maximum rotation speed of the fan value M, and router administration plate compares A2, B2 and C2, takes the maximum rotation speed of the fan value N of three；

The step 8) specifically, router administration plate delivers to maximum rotation speed of the fan value M rotary speed information is each positioned at Each middle plate in half cabinet；Router administration plate maximum rotation speed of the fan value N rotary speed information is delivered to be each positioned at it is each in lower half cabinet Middle plate；

The step 9) specifically, the middle plate control in upper half cabinet is located at the fan in upper half cabinet and turned with maximum fan Fast value M speed rotation, fan of the middle plate control in lower half cabinet in lower half cabinet is with maximum rotation speed of the fan value N speed Degree rotation.

The beneficial effects of the invention are as follows：

A kind of whole machine cabinet server radiating system and heat dissipating method that the present invention is provided, can not only ensure dissipating for server Thermal effect, improves the radiating efficiency of server, moreover, upper half cabinet and lower half cabinet are respectively independently determined position according to the temperature conditions of itself The rotating speed of the rotating speed of fan in upper half cabinet and fan positioned at lower half cabinet, so as to play the technology effect of reduction fan energy consumption Really.

Brief description of the drawings

Fig. 1 is the structural representation of rack；

Fig. 2 for the present invention in system electric connection mode schematic diagram；

Fig. 3 be router administration plate be RMC information process schematic diagram；

In figure：1 upper half cabinet, 2 lower half cabinets, 3 nodes, 31 baseboard management controllers, plate, 5 fans, 6 router administrations in 4 Plate.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is A part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, ordinary skill people The every other embodiment that member is obtained on the premise of creative work is not made, belongs to the scope of protection of the invention.

As depicted in figs. 1 and 2, a kind of whole machine cabinet server radiating system, including it is rack, router administration plate 6, some Middle plate 4 and some nodes 3, each node 3 are located in rack, and each node is respectively configured with baseboard management controller 31, every four Node is one group, plate 4 and one group of fan 5 in respectively configuring one per group node, each substrate management control in same group node Device is connected with the middle plate communication positioned at the group, and the fan in the group node is electrically connected with the middle plate of the group, and middle plate, which has, to be turned Code function, each middle plate is connected with the communication of router administration plate.The top-down distribution in rack of each node 3.Rack includes upper Half cabinet 1 and lower half cabinet 2, each node in upper half cabinet 1 are uniformly distributed, and each node positioned at lower half cabinet 2 is uniformly distributed, route Device management board is provided at the position between upper half cabinet and lower half cabinet.

A kind of embodiment one of whole machine cabinet server radiating method, it is shown to specifically include following steps：

1) each node in rack respectively, is configured into a baseboard management controller, every four nodes are divided into one group, Plate and one group of fan in respectively configuring one on every group node, in same group node, by each baseboard management controller and position Middle plate in the group carries out communication connection, and the fan in the group node is electrically connected with the middle plate positioned at the group, by Plate is connected with the communication of router administration plate；

2) temperature information of corresponding node, is obtained by baseboard management controller, temperature information includes cpu temperature, interior Deposit temperature and hard disk temperature；

3), temperature information is delivered to corresponding middle plate by baseboard management controller, and middle plate carries out transcoding to temperature information；

4), the temperature information after transcoding is delivered to router administration plate by middle plate；

5), router administration plate carries out computing, calculates highest cpu temperature value in all nodes, highest internal memory Temperature value and highest hard disk temperature value；As shown in figure 3, baseboard management controller includes BCM₁、BCM₂……BCM_n、BCM_(n+1)、 BCM_(n+2)……BCM_x.The english abbreviation of router administration plate is that the cpu temperature value at RMC, each node is respectively T_a1、 T_a2、……T_an、T_a(n+1)、T_a(n+2)……T_ax.Internal memory temperature value at each node is respectively T_b1、T_b2、……T_bn、T_b(n+1)、 T_b(n+2)……T_bx.Hard disk temperature value at each node is respectively T_c1、T_c2、……T_cn、T_c(n+1)、T_c(n+2)……T_cx。

6), as shown in figure 3, the english abbreviation of router administration plate is RMC, RMC is calculated according to cpu temperature operation matrix The corresponding rotation speed of the fan value A1 of highest cpu temperature value, router administration plate calculates highest according to internal memory temperature operation matrix The corresponding rotation speed of the fan value B1 of internal memory temperature value, it is hard that router administration plate calculates highest according to hard disk temperature operation matrix The corresponding rotation speed of the fan C1 of disk temperature value；Cpu temperature operation matrix, internal memory temperature operation matrix and hard disk temperature operation matrix are Prior art.

7), as shown in figure 3, router administration plate compares A1, B1 and C1, the maximum for taking three is maximum rotation speed of the fan value M；

8), maximum rotation speed of the fan value M rotary speed information is delivered to each middle plate by router administration plate；

9), each middle plate controls corresponding fan to be rotated respectively with maximum rotation speed of the fan value M speed.

When radiating by embodiment one, it ensure that each node of server is sufficiently radiated, carry The radiating efficiency and radiating effect of high server, it is ensured that server energy normal work, while being also beneficial to the radiating to server The management that situation is concentrated.After the radiating effect of server is improved, the internal resistance reduction of circuit in server, so as to also enter one The rate of heat production of step ground reduction server in itself, so as to also play the effect of reduction heat waste energy consumption to a certain extent.

A kind of embodiment two of whole machine cabinet server radiating method, on the basis of above-described embodiment one, step 1) in Rack includes respectively including some group nodes in upper half cabinet and lower half cabinet, upper half cabinet and lower half cabinet；

As shown in figure 3, the cpu temperature value at each node in upper half cabinet is respectively T_a1、T_a2、……T_an, it is located at The cpu temperature value at each node in lower half cabinet is respectively T_a(n+1)、T_a(n+2)……T_ax, at each node in upper half cabinet Internal memory temperature value be respectively T_b1、T_b2、……T_bn, the internal memory temperature value at each node in lower half cabinet is respectively T_b(n+1)、T_b(n+2)……T_bx, the hard disk temperature value at each node in upper half cabinet is respectively T_c1、T_c2、……T_cn, position The hard disk temperature value at each node in lower half cabinet is respectively T_c(n+1)、T_c(n+2)……T_cx。

Step 5) specifically, router administration plate, which is RMC, carries out computing, calculate in all nodes in upper half cabinet Highest cpu temperature value, the highest internal memory temperature value in all nodes in upper half cabinet and in upper half cabinet Highest hard disk temperature value in all nodes, calculates highest cpu temperature value in all nodes in lower half cabinet, position The highest internal memory temperature value in all nodes in lower half cabinet and the highest hard disk in all nodes in lower half cabinet Temperature value；

Step 6) specifically, as shown in figure 3, router administration plate is calculated positioned at upper half according to cpu temperature operation matrix The corresponding rotation speed of the fan value A1 of highest cpu temperature value of cabinet, router administration plate is calculated according to internal memory temperature operation matrix Positioned at the corresponding rotation speed of the fan value B1 of highest internal memory temperature value of upper half cabinet, router administration plate is according to hard disk temperature computing square Battle array calculates the corresponding rotation speed of the fan C1 of highest hard disk temperature value positioned at upper half cabinet,

Router administration plate calculates the highest cpu temperature value correspondence positioned at lower half cabinet according to cpu temperature operation matrix Rotation speed of the fan value A2, router administration plate calculates the highest internal memory temperature positioned at lower half cabinet according to internal memory temperature operation matrix The corresponding rotation speed of the fan value B2 of angle value, router administration plate calculates the highest positioned at lower half cabinet according to hard disk temperature operation matrix Hard disk temperature be worth corresponding rotation speed of the fan C2；

Step 7) specifically, router administration plate, which compares router administration plate, compares A1, B1 and C1, take the maximum of three For maximum rotation speed of the fan value M, router administration plate compares A2, B2 and C2, takes the maximum rotation speed of the fan value N of three；

Step 8) specifically, router administration plate, which delivers to maximum rotation speed of the fan value M rotary speed information, is each positioned at upper half cabinet In each middle plate；Router administration plate delivers to maximum rotation speed of the fan value N rotary speed information each middle plate being each positioned in lower half cabinet；

Step 9) specifically, fan of the middle plate control in upper half cabinet in upper half cabinet is with maximum rotation speed of the fan value M speed rotation, the middle plate control in lower half cabinet is located at the fan in lower half cabinet and revolved with maximum rotation speed of the fan value N speed Turn.

It when radiating by embodiment two to server, can not only ensure the radiating effect of server, improve The radiating efficiency of server, moreover, upper half cabinet and lower half cabinet are respectively independently determined in upper half cabinet according to the temperature conditions of itself Fan rotating speed and the rotating speed of fan positioned at lower half cabinet, so as to play the technique effect of reduction fan energy consumption.

Claims (5)

1. a kind of whole machine cabinet server radiating system, it is characterized in that, if including rack, router administration plate, some middle plates and Dry node, each node is located in the rack, and each node is respectively configured with baseboard management controller, every four sections Point is one group, respectively plate and one group of fan in configuration one per group node, each baseboard management controller in same group node with Middle plate positioned at the group communicates connection, and the fan in the group node is electrically connected with the middle plate of the group, and the middle plate, which has, to be turned Code function, each middle plate is connected with the communication of router administration plate.

2. a kind of whole machine cabinet server radiating system according to claim 1, it is characterized in that, each node is in the machine Top-down distribution in cabinet.

3. according to a kind of whole machine cabinet server radiating system according to claim 2, it is characterized in that, the rack includes upper Half cabinet and lower half cabinet, each node in upper half cabinet are uniformly distributed, and each node positioned at lower half cabinet is uniformly distributed, the route Device management board is provided at the position between upper half cabinet and lower half cabinet.

4. a kind of whole machine cabinet server radiating method, it is characterized in that, specifically include following steps：

1) each node in rack respectively, is configured into a baseboard management controller, every four nodes are divided into one group, Plate and one group of fan in respectively configuring one on every group node, in same group node, by each baseboard management controller and position Middle plate in the group carries out communication connection, and the fan in the group node is electrically connected with the middle plate positioned at the group, by Plate is connected with the communication of router administration plate；

2) temperature information of corresponding node, is obtained by the baseboard management controller, temperature information includes cpu temperature, interior Deposit temperature and hard disk temperature；

3), temperature information is delivered to corresponding middle plate by baseboard management controller, and middle plate carries out transcoding to temperature information；

4), the temperature information after transcoding is delivered to router administration plate by middle plate；

5), router administration plate carries out computing, calculates highest cpu temperature value, the highest internal memory temperature in all nodes Value and highest hard disk temperature value；

6), router administration plate calculates the corresponding rotation speed of the fan value of highest cpu temperature value according to cpu temperature operation matrix A1, router administration plate calculates the corresponding rotation speed of the fan value B1 of highest internal memory temperature value according to internal memory temperature operation matrix, Router administration plate calculates the corresponding rotation speed of the fan C1 of highest hard disk temperature value according to hard disk temperature operation matrix；

7), router administration plate compares A1, B1 and C1, and the maximum for taking three is maximum rotation speed of the fan value M；

8), maximum rotation speed of the fan value M rotary speed information is delivered to each middle plate by router administration plate；

9), each middle plate controls corresponding fan to be rotated respectively with maximum rotation speed of the fan value M speed.

5. a kind of whole machine cabinet server radiating method according to claim 4, it is characterized in that, the step 1) in rack Including upper half cabinet and lower half cabinet, some group nodes are respectively included in upper half cabinet and lower half cabinet；

The step 5) specifically, router administration plate carries out computing, calculate in all nodes in upper half cabinet most High cpu temperature value, the highest internal memory temperature value in all nodes in upper half cabinet and owning in upper half cabinet Highest hard disk temperature value in node, under calculating the highest cpu temperature value in all nodes in lower half cabinet, being located at The highest internal memory temperature value in all nodes in half cabinet and the highest hard disk temperature in all nodes in lower half cabinet Value；

The step 6) specifically, router administration plate calculates the highest positioned at upper half cabinet according to cpu temperature operation matrix The corresponding rotation speed of the fan value A1 of cpu temperature value, router administration plate is calculated positioned at upper half cabinet according to internal memory temperature operation matrix The corresponding rotation speed of the fan value B1 of highest internal memory temperature value, router administration plate calculates position according to hard disk temperature operation matrix It is worth corresponding rotation speed of the fan C1 in the highest hard disk temperature of upper half cabinet,

Router administration plate calculates the corresponding wind of highest cpu temperature value positioned at lower half cabinet according to cpu temperature operation matrix Tachometer value A2 is fanned, router administration plate calculates the highest internal memory temperature value positioned at lower half cabinet according to internal memory temperature operation matrix Corresponding rotation speed of the fan value B2, it is hard that router administration plate calculates highest positioned at lower half cabinet according to hard disk temperature operation matrix The corresponding rotation speed of the fan C2 of disk temperature value；

The step 7) specifically, router administration plate, which compares router administration plate, compares A1, B1 and C1, take the maximum of three For maximum rotation speed of the fan value M, router administration plate compares A2, B2 and C2, takes the maximum rotation speed of the fan value N of three；

The step 8) specifically, router administration plate, which delivers to maximum rotation speed of the fan value M rotary speed information, is each positioned at upper half cabinet In each middle plate；Router administration plate delivers to maximum rotation speed of the fan value N rotary speed information each middle plate being each positioned in lower half cabinet；

The step 9) specifically, fan of the middle plate control in upper half cabinet in upper half cabinet is with maximum rotation speed of the fan value M speed rotation, the middle plate control in lower half cabinet is located at the fan in lower half cabinet and revolved with maximum rotation speed of the fan value N speed Turn.