CN108694105B - Wiring prompting method of rack-mounted server system - Google Patents

Abstract

A wiring prompting method of a rack-mounted server system comprises a searching step and a wiring prompting step. In the searching step, an execution module of a processing unit searches a wiring combination from a configuration module according to the sequentially received identification information of a server control unit and a plurality of server units. In the wiring prompting step, the execution module displays an image unit corresponding to the wiring combination on the operation interface, and sequentially displays a wiring information of the port of each server unit which needs to be connected to the corresponding serial port on the image unit, so that a user is prompted to correctly connect the port and the corresponding serial port by using a plurality of wiring units, the correctness of wiring operation is effectively ensured, and the detection efficiency of subsequent wiring test is further improved.

Description

Wiring prompting method of rack-mounted server system

The field of largehead atractylodes rhizome

The present invention relates to a server system, and more particularly, to a wiring prompting method for a rack-mounted server system.

[ background technology ] of

With the wide application and development of servers, enterprises related to information, finance, computers and the like all have the requirement of using a large number of server architectures, and at present, a rack-mounted server is commonly used in a machine room to centrally manage a plurality of servers, so that the occupation of server space is reduced.

Generally, when a rack server is assembled, a user needs to connect the servers by wires according to a required assembly method, so that the rack server can normally operate. However, during the connection process, the user needs to carefully query the connection position of the port of each server one by one, for example: usually, the port is manually queried and confirmed by a file, and then the wiring operation can be performed, which takes time and labor. In the wiring process, the server is in a wrong wiring connection operation, a user cannot immediately know that the user can not find the wrong wiring connection in the subsequent wiring test, but the number of the servers is huge, and when the wiring test detects the wrong wiring connection, the user still needs to compare files one by one to find out the server with the wrong wiring connection, so that the time is greatly spent, the labor is wasted, the cost benefit is not met, and the discussion and the improvement are greatly needed.

[ summary of the invention ]

Therefore, an object of the present invention is to provide a wiring prompting method for a rack server system, which improves wiring efficiency.

Therefore, the wiring prompting method of the rack-mounted server system is applied to the rack-mounted server system. The rack-mounted server system comprises a cabinet, a plurality of server units arranged in the cabinet, a server control unit arranged in the cabinet, a plurality of wiring units and a processing unit. The server control unit has a plurality of serial ports. Each server unit includes a port connectable to one of the serial ports. The connection units are respectively used for connecting the ports of the server units with the corresponding serial ports. The processing unit comprises an execution module and a configuration module. The configuration module records a wiring combination, and the wiring combination has the wiring information of the serial port and the port connection.

The wiring prompting method of the rack-mounted server system comprises a starting step, a searching step and a wiring prompting step.

In the starting step, the execution module of the processing unit is controlled to execute to generate an operation interface, and the operation interface is controlled to input the identification information of the server control unit and the server unit one by one and transmit the identification information to the execution module.

In the searching step, the executing module searches the corresponding connection combination from the configuration module according to the received identification information.

In the connection prompting step, the execution module displays an image unit corresponding to the connection combination on the operation interface, sequentially displays connection information of a port of each server unit which needs to be connected to the corresponding serial port on the image unit, and the connection units are respectively connected with the ports of the server units and the corresponding serial ports according to the connection information.

Compared with the prior art, the executing module searches the wiring combination in the searching step, and the image unit corresponding to the wiring combination is displayed on the operation interface in the wiring prompting step, and the design that the wiring information is displayed on the image unit is matched, so that a user is prompted to utilize the wiring unit to correctly connect the port with the corresponding serial port respectively, the correctness of the wiring operation is effectively ensured, and the detection efficiency of the subsequent wiring test is improved.

[ description of the drawings ]

Other features and effects of the present invention will become apparent from the following detailed description of the embodiments with reference to the accompanying drawings, in which:

fig. 1 is a schematic front view illustrating an embodiment of a wiring prompting method of a rack server system according to the invention applied to a rack server system.

Fig. 2 is a flowchart to assist in explaining fig. 1.

Fig. 3 is a schematic diagram illustrating an operation interface showing a relationship between a graphic unit and a connection information in this embodiment.

Fig. 4 is a schematic diagram illustrating the operation interface showing the relationship between the image unit, the connection information and a detection marker in the embodiment.

Fig. 5 is a schematic diagram illustrating the operation interface displaying the relationship between the image unit, the connection information and the plurality of warning members in the embodiment.

[ detailed description ] embodiments

Before the present invention is described in detail, it should be noted that in the following description, similar components are denoted by the same reference numerals.

Referring to fig. 1, fig. 2 and fig. 3, the wiring prompting method of the rack-mount server system of the present invention is applied to a rack-mount server system 1. The rack server system 1 includes a cabinet 11, a plurality of server units 12 disposed in the cabinet 11, a server control unit 13 disposed in the cabinet 11, a plurality of wiring units 14, and a processing unit 15.

The server control unit 13 has a plurality of serial ports 131. Each server unit 12 includes a bmc (not shown) and a port 121 connected to the bmc. The port 121 of each server unit 12 can be connected to one of the serial ports 131 of the server control unit 13, in other words, the ports 121 of the server units 12 respectively correspond to the serial ports 131 of the server control unit 13, and the connection units 14 are respectively used for connecting the ports 121 of the server units 12 to the corresponding serial ports 131.

The processing unit 15 is electrically connected to the server control unit 13, and includes an executing module 151 and a configuring module 152. The configuration module 152 records a connection combination having the connection information 42 of the serial port 131 and the port 121.

The wiring prompting method of the rack-mounted server system comprises a starting step 2, a searching step 3, a wiring prompting step 4, a detecting step 5 and a reminding step 6.

First, in the starting step 2, the execution module 151 of the processing unit 15 is controlled to execute to generate an operation interface 21, and the operation interface 21 is controlled to input the identification information of the server control unit 13 and the server unit 12 one by one and transmit the identification information to the execution module 151. In other words, the user turns on the execution module 151 of the processing unit 15 to operate the operation interface 21, and then the user inputs the identification information of the server control unit 13 and each server unit 12 one by one into the operation interface 21 and transmits the identification information to the execution module 151. That is, the execution module 151 of the processing unit 15 receives the identification information of the server control unit 13 and each server unit 12 through the operation interface 21. In this embodiment, the identification information (not shown) of the server control unit 13 and each server unit 12 is a pattern of identification bar codes, and records information such as a product Number (Part Number), a product Serial-Number (Serial-Number) and the like corresponding to the server control unit 13 and the server unit 12, so that a user can input and transmit each identification information to the execution module 151 in sequence by scanning with a bar code scanner (not shown), but not limited thereto, as long as the user can input the identification information conveniently.

Next, in the searching step 3, the executing module 151 searches the corresponding wire combination from the configuring module 152 according to the received identification information. In the connection prompting step 4, the executing module 151 displays a graphic unit 41 corresponding to the connection combination on the operation interface 21, and sequentially displays a connection information 42 indicating that the port 121 of each server unit 12 needs to be connected to the corresponding serial port 131 on the graphic unit 41, so as to prompt the user to connect the port 121 of the server unit 12 and the corresponding serial port 131 by the connection unit 14 according to the connection information 42. That is, the executing module 151 compares each received identification information with the data of the configuring module 152, finds the connection combination corresponding to the server unit 12, and displays the image of the connection combination on the operation interface 21. The image unit 41 of the connection combination corresponding to the received identification information is displayed on the operation interface 21, and the image unit 41 is labeled with each port 121 and the serial port 131 to be connected in cooperation with the connection information 42, and can correctly and respectively perform the connection operation on the connection unit 14 in cooperation with the labeled connection information 42 of the image unit 41, thereby correctly and respectively connecting the port 121 of the server unit 12 and the corresponding serial port 131. That is, by displaying on the operation interface 21 that the graphic unit 41 is marked each port 121 and the serial port 131 to be connected according to the connection information 42, the purpose of prompting the user to correctly connect the port 121 of the server unit 12 and the corresponding serial port 131 by using the connection unit 14 is achieved, thereby ensuring the correctness of the subsequent detection operation. In this embodiment, in order to meet the singulation operation of actual assembly in a factory, only one wiring combination is built in the configuration module 152, and the execution module 151 is convenient to quickly search the wiring combination from the configuration module 152, but not limited thereto, the configuration module 152 may be designed to have graphical information of a plurality of different wiring combinations built therein according to the requirement of assembly diversity.

It is noted that the image unit 41 includes a rear view 411 corresponding to the wiring combination. The wiring information 42 includes a plurality of wiring markers 421 and a plurality of wiring reminders 422. The rear view 411 shows the serial port 131 and the port 121. The connection indicators 421 are respectively grouped in pairs, and each connection indicator 421 marked on the port 121 of the graphic unit 41 corresponds to another connection indicator 421 marked on the serial port 131 of the graphic unit 41. The wiring reminding members 422 are respectively used for connecting two wiring markers 421 in a group with each other on the image unit 41. The operation interface 21 displays the rear view 411 of the image unit 41, the wiring indicator 421, and the wiring reminder 422. In the rear view 411, the wiring reminding member 422 is respectively connected to the wiring indication members 421 which are two by two in one group, so that a user can quickly and correctly connect the serial ports 131 of the server control unit 13 with the ports 121 of the corresponding server units 12 by referring to the information of the rear view 411 and matching the wiring indication members 421 and the wiring reminding members 422 which are two by two in one group, thereby ensuring the correctness of the subsequent detection operation. In this embodiment, the connection indicators 421 are color indicators, and two connection indicators 421 are a group, so that each connection indicator 421 and the corresponding other connection indicator 421 are designed to be the same color indicator, but not limited thereto. It should be further noted that in the wiring prompting step 4, the rear view 411 of the image unit 41 is marked by the wiring marker 421 in the starting step 2, the port 121 of the server unit 12 corresponding to the identification information received via the operation interface 21 and the wiring information 42 of the serial port 131 to be connected are connected via each wiring reminder 422, and the wiring markers 421 corresponding to each pair are connected as a group, and the wiring markers 421 and the wiring reminders 422 marked previously are retained and displayed, so as to facilitate the wiring operation of the user. In detail, the rear view 411 of the image unit 41 is marked by one of the wiring markers 421 to indicate the wiring information 42 of the server unit 12 corresponding to the identification information currently input by the user via the operation interface 21, and also keeps displaying the wiring markers 421 and the wiring reminder 422 that have been marked previously, so as to prompt the user to perform wiring according to the rear view 411 and in cooperation with the information of the wiring markers 421 and the wiring reminder 422.

In addition, in this embodiment, the configuration module 152 is internally provided with a plurality of imaging information of different connection combinations, such as the image unit 41, the imaging information of each connection combination is an image of the corresponding server unit 12 and the server control unit 13 correctly placed in the cabinet 11, and the rear view 411 of the image unit 41 displays the imaging information of the port 121 of the server unit 12 and the serial port 131 of the server control unit 13, so as to prompt the user of the corresponding positions of the port 121 of the server unit 12 and the serial port 131 of the server control unit 13 through the information of the image unit 41, thereby facilitating the subsequent connection operation. The server control unit 13 is a network Switch (Switch), and is suitable for managing tens of server units 12 and performing data transmission, and is convenient for the connection operation and the subsequent management, but not limited thereto.

Referring to fig. 1, fig. 2 and fig. 4, finally, in the detecting step 5, the graphic unit 41 further includes a plurality of detecting markers 51, the executing module 151 of the processing unit 15 is controlled to sequentially send a plurality of detecting instructions to the server control unit 13 and sequentially transmit the detecting instructions to the corresponding ports 121 from the serial port 131, and the executing module 151 sequentially marks information corresponding to the serial port 131 and the port 121 corresponding to the currently receiving and performing the corresponding detecting instruction by the detecting markers 51 in the rear view 411. The bmc of each server unit 12 receives the corresponding detection command from the corresponding port 121, and when the port 121 of each server unit 12 is connected to the corresponding serial port 131, each server unit 12 returns a response command to the server control unit 13; when the port 121 of each server unit 12 is not connected to the corresponding serial port 131, the response command cannot be returned to the server control unit 13. In brief, in this embodiment, the execution module 151 executes the detection instructions to each server unit 12 one by one through the server control unit 13, and the detection marker 51 is used to mark the port 121 and the serial port 131 corresponding to the currently transmitted and received detection instructions in the rear view, so that the user can know the currently tested server unit 12 in real time. However, the connection units 14 are respectively connected to the ports 121 of the server units 12 and the corresponding serial ports 131, so that the process of transmitting the corresponding detection command and the corresponding response command to each connection unit 14 in the detection step 5 can be designed according to the actual use requirement, and each connection unit 14 can emit light by itself as long as the user can know the server unit 12 under test. It should be noted that, in the embodiment, the case that the port 121 of each server unit 12 is not connected to the corresponding serial port 131 is the case that the port 121 of the server unit 12 is normally connected to the serial port 131 of the server control unit 13, and wherein the port 121 of the server unit 12 is not connected to the corresponding serial port 131, that is, there is a condition that the port 121 is connected to the wrong (non-corresponding) serial port 131. Or the other situation that the port 121 of each server unit 12 is not connected to the corresponding serial port 131 is that the port 121 of the server unit 12 is not connected to the serial port 131 of the server control unit 13, which means that the connection unit 14 is not connected, so that in the detection step, the detection instruction cannot be transmitted from the serial port 131 to the corresponding port 121, and further the port 121 which is not connected cannot receive the corresponding detection information, and cannot transmit the corresponding response instruction back to the server control unit 13.

Further, in this embodiment, the processing unit 15 is connected to and communicates with the bmc of the server unit 12 in an Intelligent Platform Management Interface (IPMI) manner, the detection instructions are respectively detection information corresponding to media access control addresses (MAC addresses) of the server unit 12, the detection information is respectively transmitted to the corresponding ports 121 from the corresponding serial ports 131 in a packet form, and when the port 121 of each server unit 12 is connected to the corresponding serial port 131, each server unit 12 receives the corresponding detection information and transmits a corresponding response instruction back to the server control unit 13. If each port 121 is connected to the wrong serial port 131, the wrong connected port 121 will not receive and store the corresponding detection information completely and will not return the corresponding response command to the server control unit 13, so as to determine whether the port 121 is correctly connected to the corresponding serial port 131, and further check and confirm the correctness of the wire connection operation. However, the present invention is not limited to this, and the detection instructions may be detection information corresponding to a hardware product Number (Part Number) of the server control unit 13, or the detection instructions may be detection information corresponding to a network Address (IP Address) of the server control unit 13.

Referring to fig. 1, 2 and 5, it is to be particularly described that in the detecting step 5, if a port 121 is connected to an incorrect (non-corresponding) serial port 131, the incorrectly connected port 121 does not completely receive and store corresponding detection information and does not return a corresponding response instruction to the server control unit 13, and in the reminding step 6, the operation interface 21 further displays a plurality of warning members 61, the executing module 151 marks each corresponding port 121 that does not return the response instruction according to the result of the detecting step 5 and matches with the wiring combination and the back view 411 of the image unit 41, and the warning members 61 respectively mark the incorrectly connected port 121 and the corresponding serial port 131, so that the user can quickly analyze and confirm the incorrectly connected port 121, and the user can find out the server unit 12 with incorrect wiring without comparing one by one, effectively save time and improve the detection efficiency of wiring by a wide margin.

In summary, in the wiring prompting method of the rack-mounted server system of the present invention, by the searching step 3, the executing module 151 searches the wiring combination, and in the wiring prompting step 4, the image unit 41 corresponding to the wiring combination is displayed on the operation interface 21, and the wiring information 42 is marked on the image unit 41, so as to prompt the user to correctly connect the wiring unit 14 with the port 121 and the corresponding serial port 131, thereby effectively ensuring the correctness of the wiring operation, accelerating the wiring operation and improving the detection efficiency of the wiring test, and thus the purpose of the present invention can be achieved.

The embodiments and examples of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the embodiments and examples, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (10)

1. A wiring prompting method of a rack server system is applied to the rack server system and is characterized in that the rack server system comprises a cabinet, a plurality of server units arranged in the cabinet, a server control unit arranged in the cabinet, a plurality of wiring units and a processing unit, wherein the server control unit is provided with a plurality of serial ports, each server unit comprises a port which can be connected with one of the serial ports, the wiring units are respectively used for connecting the ports of the server units with the corresponding serial ports, the processing unit comprises an execution module and a configuration module, the configuration module records a wiring combination, the wiring combination is provided with wiring information of the serial ports and the ports, and the wiring prompting method of the rack server system comprises the following steps:

a starting step, controlled to execute the executing module of the processing unit to generate an operation interface, and the operation interface controlled to input the identification information of the server control unit and the server unit one by one and transmit the identification information to the executing module;

a searching step, the executing module searches the corresponding connection combination from the configuration module according to the received identification information; and

and a wiring prompting step, wherein the execution module displays an image unit corresponding to the wiring combination on the operation interface, sequentially displays wiring information of the port of each server unit which needs to be connected to the corresponding serial port on the image unit, and the wiring units are respectively connected with the ports of the server units and the corresponding serial ports according to the wiring information.

2. The wiring prompting method of the rack-mounted server system according to claim 1, wherein in the wiring prompting step, the image unit comprises a back view corresponding to the wiring combination, the wiring information comprises a plurality of wiring markers and a plurality of wiring reminders, the rear view shows the serial port and the port, the wiring markers are respectively grouped in pairs, each wiring marker marked on the port corresponds to the other wiring marker marked on the serial port, the wiring reminder is respectively used for connecting the wiring markers grouped in pairs, the operation interface displays the back view of the image unit, the wiring mark piece and the wiring reminding piece, the execution module is used for connecting the wiring reminding pieces with the wiring marking pieces which are in a group in pairs in the rear view.

3. The method as claimed in claim 2, wherein each server unit of the rack-mounted server system comprises a baseboard management controller, a port of each server unit is connected to the baseboard management controller, the processing unit is electrically connected to the server control unit, the method further comprises a detection step following the wiring prompt step, the image unit further comprises a plurality of detection markers, the execution module of the processing unit is controlled to issue a plurality of detection commands to the server control unit one by one and sequentially transmitted to the corresponding ports from the serial port, and the execution module sequentially marks the serial port and the port corresponding to the detection command when receiving and performing the detection command in the rear view, the baseboard management controller of each server unit receives the corresponding detection instruction from the corresponding port, and when the port of each server unit is connected to the corresponding serial port, each server unit returns a response instruction to the server control unit; when the port of each server unit is not connected to the corresponding serial port, the response command is not returned to the server control unit.

4. The method as claimed in claim 3, wherein the condition that the port of each server unit is not connected to the corresponding serial port is that the port of the server unit is normally connected to the serial port of the server control unit and when the port of each server unit is not connected to the corresponding serial port, the server unit with the connection error does not return the response command to the server control unit.

5. The method as claimed in claim 3, wherein the condition that the port of each server unit is not connected to the corresponding serial port is that the port of the server unit is not connected to the serial port of the server control unit, and in the detecting step, the detecting commands are not transmitted to the corresponding ports respectively by the serial ports.

6. The method as claimed in claim 2, wherein each server unit of the rack-mounted server system comprises a baseboard management controller, the port of each server unit is connected to the baseboard management controller, the processing unit is electrically connected to the server control unit, wherein the method further comprises a detection step following the wiring prompting step, in the detection step, the execution module of the processing unit is controlled to issue a plurality of detection commands one by one to the server control unit and the serial ports sequentially pass through the wiring unit and then to the corresponding ports, when the port of each server unit is connected to the corresponding serial port, each server unit will return a response command to the server control unit through the corresponding wiring unit, when each wiring unit transmits the corresponding detection command and the corresponding response command, each wiring unit emits light; when the port of each server unit is not connected to the corresponding serial port, the response command cannot be returned to the server control unit.

7. The method according to claim 3 or 6, further comprising a reminding step following the detecting step, wherein in the reminding step, the operation interface further displays a plurality of warning members, and the executing module of the processing unit marks each port not returning the response command and matches the rear view of the image unit to mark the port not correctly connected with the warning member according to the result of the detecting step.

8. The method according to claim 3 or 6, wherein in the detecting step, the detecting commands are respectively detecting information corresponding to the network addresses of the server units, the detecting information is respectively transmitted from the corresponding serial ports to the corresponding ports, and the baseboard management controller of each server unit receives the corresponding detecting information from the corresponding port and then transmits a corresponding response command back to the server control unit.

9. The method according to claim 3 or 6, wherein in the detecting step, the detecting commands are respectively detecting information corresponding to MAC addresses of the server units, the detecting information is respectively transmitted from the corresponding serial ports to the corresponding ports, and the BMC of each server unit receives the corresponding detecting information from the corresponding port and then transmits a corresponding response command back to the server control unit.

10. The method according to claim 3 or 6, wherein in the detecting step, the detecting commands are respectively detecting information corresponding to hardware product numbers of the server units, the detecting information is respectively transmitted from the corresponding serial ports to the corresponding ports, and the baseboard management controller of each server unit receives the corresponding detecting information from the corresponding port and then transmits a corresponding response command back to the server control unit.

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