CN109981371B - Processing method and electronic equipment - Google Patents

Abstract

The application discloses a processing method and electronic equipment.A controller of a server case sends control information to a plurality of servers with different architecture characteristics in the server case, and the plurality of servers with different architecture characteristics receive the control information. In the scheme, the controller of the server case sends control information to the plurality of servers with different architecture characteristics in the server case, so that the controller of the server case can uniformly control the plurality of servers in the server case, the plurality of servers in the server case are prevented from being separately controlled, convenience in controlling systems with different architectures in the server case is improved, and user experience is improved.

Description

Processing method and electronic equipment

Technical Field

The present disclosure relates to the field of processing, and in particular, to a processing method and an electronic device.

Background

At present, for systems with different architectures, only individual control can be performed inside respective system architectures, but unified control over the systems with different architectures cannot be achieved, which results in that when systems with different architectures are in a chassis, commands need to be sent to the systems respectively to achieve control over the systems, which results in inconvenience in controlling the systems in the chassis.

Disclosure of Invention

In view of the above, the present application provides a processing method and an electronic device, and the specific scheme is as follows:

a method of processing, comprising:

a controller of a server case sends control information to a plurality of servers with different architecture characteristics in the server case, so that the plurality of servers with different architecture characteristics receive the control information;

wherein the control information is capable of causing the plurality of servers having different architectural features to perform parameter setting or updating for the plurality of servers having different architectural features based on the received control information.

Further, wherein the plurality of servers with different architecture features comprises:

the plurality of servers using different system architectures;

and/or the presence of a gas in the gas,

the plurality of servers having different numbers of processors;

and/or the presence of a gas in the gas,

the plurality of servers having different types of processors.

Further, wherein, still include:

the method comprises the steps that a controller of a server case obtains a control instruction, and control information is generated according to the control instruction, wherein the control instruction comprises the following steps: the method comprises the steps of receiving a first control instruction, and/or generating a second control instruction according to the operation parameters of a plurality of servers with different architecture characteristics in the server chassis.

Further, wherein the controller of the server chassis sending control information to a plurality of servers with different architectural features within the server chassis comprises:

a controller of the server chassis determines a plurality of identification information of the plurality of servers with different architecture characteristics, which is indicated by the control instruction, wherein the control instruction carries the plurality of identification information;

and respectively sending the control information to a plurality of servers with different architecture characteristics in the server chassis according to the identification information.

Further, wherein the control information enables at least one of the plurality of servers having different architectural features to perform:

updating firmware or software of the plurality of servers having different architectural features;

or, setting parameters of the plurality of servers with different architecture characteristics;

or the plurality of servers with different architecture characteristics are enabled to send the log information of each server to the controller of the server case.

An electronic device, comprising: a controller of a server chassis and a plurality of servers having different architectural features within the server chassis, wherein:

the controller of the server chassis sends control information to a plurality of servers with different architectural features within the server chassis, such that the plurality of servers with different architectural features receive the control information,

wherein the control information is capable of causing the plurality of servers having different architectural features to perform parameter setting or updating for the plurality of servers having different architectural features based on the received control information.

Further, wherein the plurality of servers with different architectural features comprise:

the plurality of servers using different system architectures;

and/or the presence of a gas in the gas,

the plurality of servers having different numbers of processors;

and/or the presence of a gas in the gas,

the plurality of servers having different types of processors.

Further, wherein,

the controller of the server chassis is further configured to obtain a control instruction, and generate control information according to the control instruction, where the control instruction includes: the method comprises the steps of receiving a first control instruction, and/or generating a second control instruction according to the operation parameters of a plurality of servers with different architecture characteristics in the server chassis.

Further, wherein the controller of the server chassis sending control information to a plurality of servers with different architectural features within the server chassis comprises:

a controller of the server chassis determines a plurality of identification information of the plurality of servers with different architecture characteristics, which is indicated by the control instruction, wherein the control instruction carries the plurality of identification information; and respectively sending the control information to a plurality of servers with different architecture characteristics in the server chassis according to the identification information.

Further, wherein the control information enables at least one of the plurality of servers having different architectural features to perform:

updating firmware or software of the plurality of servers having different architectural features;

or the plurality of servers with different architecture characteristics are enabled to send the log information of each server to the controller of the server case.

In the processing method and the electronic device disclosed by the application, the controller of the server case sends the control information to the plurality of servers with different architecture characteristics in the server case, and the plurality of servers with different architecture characteristics receive the control information. In the scheme, the controller of the server case sends control information to the plurality of servers with different architecture characteristics in the server case, so that the controller of the server case can uniformly control the plurality of servers in the server case, the plurality of servers in the server case are prevented from being separately controlled, convenience in controlling systems with different architectures in the server case is improved, and user experience is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow chart of a processing method disclosed in an embodiment of the present application;

FIG. 2 is a flow chart of a processing method disclosed in an embodiment of the present application;

fig. 3 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The application discloses a processing method, comprising the following steps:

the controller of the server chassis transmits control information to the plurality of servers having different architectural features within the server chassis so that the plurality of servers having different architectural features receive the control information, wherein the control information enables the plurality of servers having different architectural features to perform parameter setting or updating for the plurality of servers having different architectural features based on the received control information.

The server chassis is provided with a plurality of servers, and the plurality of servers can respectively have different architecture characteristics or part of the servers have the same architecture characteristics.

Specifically, the servers with different architecture characteristics may be all blade servers, so that multiple servers with different architecture characteristics may be managed in a unified manner in one server chassis, and space is saved.

The controller of each server chassis can control all servers in the chassis, and all the servers can be controlled simultaneously, can be controlled in a classified mode, and can be controlled independently.

The controller of the server case sends the control information to a plurality of servers with different architecture characteristics in the server case, the plurality of servers with different architecture characteristics in the case for receiving the control information can be all the servers in the case or can be part of the controllers in the case, and the servers can have different architecture characteristics no matter all the servers or part of the servers.

A plurality of servers with different architecture characteristics in the server chassis receive the control information, and perform parameter setting or updating for the plurality of servers with different architecture characteristics based on the received control information.

Specifically, each server in the chassis receives the control information and performs parameter setting or updating according to the control information, wherein parameters in the parameter setting according to the control information may be configuration parameters, or control parameters of the server, and the like; the updating according to the control information may be updating a system version of the server, or updating parameters in the server.

Furthermore, the controller of the server chassis sends control information of multiple servers with different architecture characteristics to the server chassis, and may be configured to uniformly send one control information to multiple servers in the chassis, where the control information received by the multiple servers is completely the same and does not specify a specific server, and then all the servers receiving the control information execute the control information;

or, the control information sent to the plurality of servers can indicate one or more servers which need to execute operations based on the control information, at this time, all the servers in the server case receive the control information, but only the one or more servers which need to execute operations and are indicated by the control information execute the operations based on the control information, and other servers which receive the control information do not need to execute the operations and can directly not respond to the control information;

alternatively, the one control information transmitted to the plurality of servers may be transmitted only to the server that needs to perform an operation based on the control information, and the other servers in the server chassis may not receive the control information.

Further, a plurality of servers with different architecture features in the server chassis may include:

multiple servers using different system architectures, and/or multiple servers having different numbers of processors, and/or multiple servers having different types of processors.

Among them, a plurality of servers using different system architectures, that is, a plurality of servers in a server chassis have different system architectures. The server architecture mainly comprises architecture types of a vertical extension architecture, a horizontal extension architecture and a super fusion architecture, and the same or different architecture types respectively comprise a plurality of different architectures.

For example: the intel architecture and the AMD architecture belong to different architectures, and for the P5 architecture, the P6 architecture, the NetBurst architecture, the Core architecture, and the like belonging to the intel architecture, they all belong to different architectures, such as: the server having the P5 architecture and the server having the P6 architecture belong to two servers using different system architectures.

A plurality of servers having different numbers of processors, i.e., a plurality of servers in a server chassis, each have a different number of processors.

For example: the first server in the server chassis has 2 CPUs, and the second server in the server chassis has 4 CPUs, and because the number of processors included in the first server and the second server is different, the first server and the second server can also be considered to belong to servers having different architecture characteristics.

A plurality of servers having different types of processors, i.e., a plurality of servers in a server chassis, each have a different type of processor. The server may include at least one or more of the following different types: intel's PXA family processor, MIPS processor, StrongARM processor, SH3 processor, OMAP processor, etc.

For example: since the first server in the server chassis includes the intel PXA-series processor and the second server in the server chassis includes the MIPS processor, the first server and the second server may be considered to belong to servers with different architecture features due to the different types of processors included in the first server and the second server.

Further, multiple servers with different architecture features may also have different numbers of processes even with different system architectures; or, both a different number of processors and a different type of processor; or, even with different system architectures, with different types of processors; alternatively, there may be a different number of processors, and different types of processors, even with different system architectures. In any of the above cases, the plurality of servers may be considered to have different architectural features.

Because the same server case comprises a plurality of servers, and a plurality of servers with different architecture characteristics can exist in the plurality of servers, the scheme disclosed by the embodiment can send a control message through the controller of the server case, so that the unified control of the plurality of servers with different architecture characteristics in the server case can be realized at the same time

In the processing method disclosed in this embodiment, the controller of the server chassis sends the control information to the plurality of servers with different architecture features in the server chassis, and the plurality of servers with different architecture features receive the control information. In the scheme, the controller of the server case sends control information to the plurality of servers with different architecture characteristics in the server case, so that the controller of the server case can uniformly control the plurality of servers in the server case, the plurality of servers in the server case are prevented from being separately controlled, convenience in controlling systems with different architectures in the server case is improved, and user experience is improved.

The embodiment discloses a processing method, a flowchart of which is shown in fig. 1, and the processing method includes:

step S11, the controller of the server chassis obtains a control instruction, and generates control information according to the control instruction, where the control instruction includes: the method comprises the steps of receiving a first control instruction and/or generating a second control instruction according to the operation parameters of a plurality of servers with different architecture characteristics in a server case;

in step S12, the controller of the server chassis transmits control information to the plurality of servers with different architectural features in the server chassis so that the plurality of servers with different architectural features receive the control information, the control information enabling the plurality of servers with different architectural features to perform parameter setting or updating for the plurality of servers with different architectural features based on the received control information.

The controller of the server case can send control information to a plurality of servers with different architecture characteristics in the server case, before the controller of the server case sends the control information, the controller of the server case can obtain a control instruction, and the control information is generated according to the control instruction, so that the control information can be sent to the plurality of servers with different architecture characteristics in the server case, and unified processing of the plurality of servers with different architecture characteristics is achieved.

The control instruction received by the controller of the server chassis may be: the user inputs a first control instruction sent to the controller of the server chassis.

For example: when a user wants to check the operation information of all the servers in the server case, the user sends a control instruction to the controller of the server case, the control instruction comprises control information, then the controller of the server case sends the control information to a plurality of servers with different architecture characteristics in the server case in a unified mode, the plurality of servers receive the control information, can respond to the control information and feed back the operation information of the plurality of servers to the controller of the server case, and the controller of the server case controls the received operation information of the plurality of servers to be displayed so as to be used for checking.

In addition, the control instruction received by the controller of the server chassis may also be: and generating a second control instruction according to the operation parameters of a plurality of servers with different architecture characteristics in the server chassis.

Specifically, a plurality of servers with different architecture characteristics in a server case send their own operating parameters to a controller of the server case, the controller of the server case receives the operating parameters of the plurality of servers with different architecture characteristics, and if it is detected that at least part of the received operating parameters are abnormal or need to be adjusted, the controller of the server case actively generates a second control instruction, the second control instruction comprises control information and sends the control information to the plurality of servers with at least part of the operating parameters being abnormal or need to be adjusted, so that the plurality of servers with at least part of the operating parameters being abnormal or need to be adjusted receive the control information and respond to the control information to perform parameter adjustment or other operations to solve the abnormality or complete the adjustment.

In the processing method disclosed in this embodiment, the controller of the server chassis sends the control information to the plurality of servers with different architecture features in the server chassis, and the plurality of servers with different architecture features receive the control information. In the scheme, the controller of the server case sends control information to the plurality of servers with different architecture characteristics in the server case, so that the controller of the server case can uniformly control the plurality of servers in the server case, the plurality of servers in the server case are prevented from being separately controlled, convenience in controlling systems with different architectures in the server case is improved, and user experience is improved.

The embodiment discloses a processing method, a flowchart of which is shown in fig. 2, and the processing method includes:

step S21, the controller of the server chassis obtains a control instruction, and generates control information according to the control instruction, where the control instruction includes: the method comprises the steps of receiving a first control instruction and/or generating a second control instruction according to the operation parameters of a plurality of servers with different architecture characteristics in a server case;

step S22, the controller of the server case determines a plurality of identification information of a plurality of servers with different architecture characteristics indicated by a control instruction, wherein the control instruction carries the plurality of identification information;

and step S23, sending control information to the plurality of servers with different architecture characteristics in the server chassis according to the plurality of identification information, so that the plurality of servers with different architecture characteristics receive the control information, wherein the control information enables the plurality of servers with different architecture characteristics to execute parameter setting or updating for the plurality of servers with different architecture characteristics based on the received control information.

The control instruction obtained by the controller of the server chassis carries a plurality of identification information, and the plurality of identification information are used for determining a plurality of servers with different architecture characteristics which need to respond to the control instruction.

Specifically, the identification information carried in the control instruction may be address information of a plurality of servers that need to respond to the control instruction, or may be other information for uniquely determining the plurality of servers.

The servers which need to respond to the control instruction can be determined through the identification information carried in the control instruction, and the identification information has directivity, so that the control information sent by the controller of the server case can accurately reach the servers which need to respond to the control instruction and have different architecture characteristics, the servers with different architecture characteristics can respond to the control information and execute corresponding control operation, and other servers in the server case cannot receive the control information.

The multiple pieces of identification information carried in the control instruction may be: when the control instruction is generated, the identification information is determined according to the parameter information of the servers with different architecture characteristics, and then the determined identification information is added into the control instruction, so that the control instruction can carry the identification information of the servers with different architecture characteristics which need to respond to the control instruction. Specifically, the process of generating the control instruction, determining the parameter information as the identification information, and adding the identification information to the control instruction may be completed by a controller of the server chassis, or may be the identification information added to the control instruction by the user.

Further, the control information enables at least one of a plurality of servers having different architectural features to perform:

updating firmware or software of a plurality of servers having different architectural features; or setting parameters of a plurality of servers with different architecture characteristics; alternatively, a plurality of servers having different architecture characteristics are caused to transmit log information of each server to a controller of the server chassis.

Wherein the control information causes firmware or software updates for a plurality of servers having different architectural features, such as: the software version is updated from an old version to a new version or directly from first software to second software by a plurality of servers with different architecture characteristics, so that different functions can be realized; the update to the firmware may be specifically an update to a server underlying driver.

The control information sets parameters of the plurality of servers having different architectural features, that is, adjusts internal parameters of the plurality of servers having different architectural features, for example: adjusting configuration parameters of the fan, such as: starting the number of fans in the server, or adjusting the rotating speed of the fans in the server to the number of the fans; for example: adjustment of the cooling temperature inside the server, such as: adjusting the temperature inside the server; for example: adjusting the pressure inside the server; or adjusting the power of the server by which way to adjust the power of the server; alternatively, adjustments to power control, such as: one power supply can control several servers; alternatively, the following may be used: adjustment of underlying configuration parameters, and the like.

The control information acquires logs of a plurality of servers with different architecture characteristics, specifically, the logs are stored in the running process of the plurality of servers with different architecture characteristics and used for recording event information of the servers in the running process, and the historical running states of the plurality of servers with different architecture characteristics are acquired by acquiring the logs of the plurality of servers with different architecture characteristics, so that the plurality of servers with different architecture characteristics can be controlled subsequently.

In the processing method disclosed in this embodiment, the controller of the server chassis sends the control information to the plurality of servers with different architecture features in the server chassis, and the plurality of servers with different architecture features receive the control information. In the scheme, the controller of the server case sends control information to the plurality of servers with different architecture characteristics in the server case, so that the controller of the server case can uniformly control the plurality of servers in the server case, the plurality of servers in the server case are prevented from being separately controlled, convenience in controlling systems with different architectures in the server case is improved, and user experience is improved.

The embodiment discloses an electronic device, a schematic structural diagram of which is shown in fig. 3, and the electronic device includes:

a controller 31 of a server chassis, and a plurality of servers 32 having different architectural features within the server chassis.

Wherein the controller 31 of the server chassis sends control information to the plurality of servers 32 with different architectural features within the server chassis, such that the plurality of servers 32 with different architectural features receive the control information,

wherein the control information is capable of causing the plurality of servers 32 having different architectural features to perform parameter setting or updating for the plurality of servers 32 having different architectural features based on the received control information.

The server chassis is provided with a plurality of servers, and the plurality of servers can respectively have different architecture characteristics or part of the servers have the same architecture characteristics.

Specifically, the servers with different architecture characteristics may be all blade servers, so that multiple servers with different architecture characteristics may be managed in a unified manner in one server chassis, and space is saved.

The controller of each server chassis can control all servers in the chassis, and all the servers can be controlled simultaneously, can be controlled in a classified mode, and can be controlled independently.

The controller of the server case sends the control information to a plurality of servers with different architecture characteristics in the server case, the plurality of servers with different architecture characteristics in the case for receiving the control information can be all the servers in the case or can be part of the controllers in the case, and the servers can have different architecture characteristics no matter all the servers or part of the servers.

A plurality of servers with different architecture characteristics in the server chassis receive the control information, and perform parameter setting or updating for the plurality of servers with different architecture characteristics based on the received control information.

Specifically, each server in the chassis receives the control information and performs parameter setting or updating according to the control information, wherein parameters in the parameter setting according to the control information may be configuration parameters, or control parameters of the server, and the like; the updating according to the control information may be updating a system version of the server, or updating parameters in the server.

Furthermore, the controller of the server chassis sends control information of multiple servers with different architecture characteristics to the server chassis, and may be configured to uniformly send one control information to multiple servers in the chassis, where the control information received by the multiple servers is completely the same and does not specify a specific server, and then all the servers receiving the control information execute the control information;

or, the control information sent to the plurality of servers can indicate one or more servers which need to execute operations based on the control information, at this time, all the servers in the server case receive the control information, but only the one or more servers which need to execute operations and are indicated by the control information execute the operations based on the control information, and other servers which receive the control information do not need to execute the operations and can directly not respond to the control information;

alternatively, the one control information transmitted to the plurality of servers may be transmitted only to the server that needs to perform an operation based on the control information, and the other servers in the server chassis may not receive the control information.

Further, a plurality of servers with different architecture features in the server chassis may include:

multiple servers using different system architectures, and/or multiple servers having different numbers of processors, and/or multiple servers having different types of processors.

Among them, a plurality of servers using different system architectures, that is, a plurality of servers in a server chassis have different system architectures. The server architecture mainly comprises architecture types of a vertical extension architecture, a horizontal extension architecture and a super fusion architecture, and the same or different architecture types respectively comprise a plurality of different architectures.

For example: the intel architecture and the AMD architecture belong to different architectures, and for the P5 architecture, the P6 architecture, the NetBurst architecture, the Core architecture, and the like belonging to the intel architecture, they all belong to different architectures, such as: the server having the P5 architecture and the server having the P6 architecture belong to two servers using different system architectures.

A plurality of servers having different numbers of processors, i.e., a plurality of servers in a server chassis, each have a different number of processors.

For example: the first server in the server chassis has 2 CPUs, and the second server in the server chassis has 4 CPUs, and because the number of processors included in the first server and the second server is different, the first server and the second server can also be considered to belong to servers having different architecture characteristics.

A plurality of servers having different types of processors, i.e., a plurality of servers in a server chassis, each have a different type of processor. The server may include at least one or more of the following different types: intel's PXA family processor, MIPS processor, StrongARM processor, SH3 processor, OMAP processor, etc.

For example: since the first server in the server chassis includes the intel PXA-series processor and the second server in the server chassis includes the MIPS processor, the first server and the second server may be considered to belong to servers with different architecture features due to the different types of processors included in the first server and the second server.

Further, multiple servers with different architecture features may also have different numbers of processes even with different system architectures; or, both a different number of processors and a different type of processor; or, even with different system architectures, with different types of processors; alternatively, there may be a different number of processors, and different types of processors, even with different system architectures. In any of the above cases, the plurality of servers may be considered to have different architectural features.

Because the same server case comprises a plurality of servers, and a plurality of servers with different architecture characteristics can exist in the plurality of servers, the scheme disclosed by the embodiment can send a control message through the controller of the server case, so that the unified control of the plurality of servers with different architecture characteristics in the server case can be realized at the same time

Further, the controller 31 of the server chassis is further configured to obtain a control instruction, and generate control information according to the control instruction, where the control instruction includes: the method comprises the steps of receiving a first control instruction and/or generating a second control instruction according to the operation parameters of a plurality of servers with different architecture characteristics in a server case.

The controller of the server case can send control information to a plurality of servers with different architecture characteristics in the server case, before the controller of the server case sends the control information, the controller of the server case can obtain a control instruction, and the control information is generated according to the control instruction, so that the control information can be sent to the plurality of servers with different architecture characteristics in the server case, and unified processing of the plurality of servers with different architecture characteristics is achieved.

The control instruction received by the controller of the server chassis may be: the user inputs a first control instruction sent to the controller of the server chassis.

For example: when a user wants to check the operation information of all the servers in the server case, the user sends a control instruction to the controller of the server case, the control instruction comprises control information, then the controller of the server case sends the control information to a plurality of servers with different architecture characteristics in the server case in a unified mode, the plurality of servers receive the control information, can respond to the control information and feed back the operation information of the plurality of servers to the controller of the server case, and the controller of the server case controls the received operation information of the plurality of servers to be displayed so as to be used for checking.

In addition, the control instruction received by the controller of the server chassis may also be: and generating a second control instruction according to the operation parameters of a plurality of servers with different architecture characteristics in the server chassis.

Specifically, a plurality of servers with different architecture characteristics in a server case send their own operating parameters to a controller of the server case, the controller of the server case receives the operating parameters of the plurality of servers with different architecture characteristics, and if it is detected that at least part of the received operating parameters are abnormal or need to be adjusted, the controller of the server case actively generates a second control instruction, the second control instruction comprises control information and sends the control information to the plurality of servers with at least part of the operating parameters being abnormal or need to be adjusted, so that the plurality of servers with at least part of the operating parameters being abnormal or need to be adjusted receive the control information and respond to the control information to perform parameter adjustment or other operations to solve the abnormality or complete the adjustment.

Further, the sending of the control information by the controller 31 of the server chassis to the plurality of servers 32 with different architecture features in the server chassis includes:

the method comprises the steps that a controller 31 of a server case determines a plurality of identification information of a plurality of servers with different architecture characteristics indicated by a control instruction, wherein the control instruction carries the plurality of identification information; the control information is sent to a plurality of servers 32 with different architectural features within the server chassis, respectively, based on the plurality of identification information.

The control instruction obtained by the controller of the server chassis carries a plurality of identification information, and the plurality of identification information are used for determining a plurality of servers with different architecture characteristics which need to respond to the control instruction.

Specifically, the identification information carried in the control instruction may be address information of a plurality of servers that need to respond to the control instruction, or may be other information for uniquely determining the plurality of servers.

The servers which need to respond to the control instruction can be determined through the identification information carried in the control instruction, and the identification information has directivity, so that the control information sent by the controller of the server case can accurately reach the servers which need to respond to the control instruction and have different architecture characteristics, the servers with different architecture characteristics can respond to the control information and execute corresponding control operation, and other servers in the server case cannot receive the control information.

The multiple pieces of identification information carried in the control instruction may be: when the control instruction is generated, the identification information is determined according to the parameter information of the servers with different architecture characteristics, and then the determined identification information is added into the control instruction, so that the control instruction can carry the identification information of the servers with different architecture characteristics which need to respond to the control instruction. Specifically, the process of generating the control instruction, determining the parameter information as the identification information, and adding the identification information to the control instruction may be completed by a controller of the server chassis, or may be the identification information added to the control instruction by the user.

Further, the control information enables at least one of a plurality of servers having different architectural features to perform:

updating firmware or software of a plurality of servers having different architectural features; or setting parameters of a plurality of servers with different architecture characteristics; alternatively, a plurality of servers having different architecture characteristics are caused to transmit log information of each server to a controller of the server chassis.

Wherein the control information causes firmware or software updates for a plurality of servers having different architectural features, such as: the software version is updated from an old version to a new version or directly from first software to second software by a plurality of servers with different architecture characteristics, so that different functions can be realized; the update to the firmware may be specifically an update to a server underlying driver.

The control information sets parameters of the plurality of servers having different architectural features, that is, adjusts internal parameters of the plurality of servers having different architectural features, for example: adjusting configuration parameters of the fan, such as: starting the number of fans in the server, or adjusting the rotating speed of the fans in the server to the number of the fans; for example: adjustment of the cooling temperature inside the server, such as: adjusting the temperature inside the server; for example: adjusting the pressure inside the server; or adjusting the power of the server by which way to adjust the power of the server; alternatively, adjustments to power control, such as: one power supply can control several servers; alternatively, the following may be used: adjustment of underlying configuration parameters, and the like.

The control information acquires logs of a plurality of servers with different architecture characteristics, specifically, the logs are stored in the running process of the plurality of servers with different architecture characteristics and used for recording event information of the servers in the running process, and the historical running states of the plurality of servers with different architecture characteristics are acquired by acquiring the logs of the plurality of servers with different architecture characteristics, so that the plurality of servers with different architecture characteristics can be controlled subsequently.

In the electronic device disclosed in this embodiment, the controller of the server chassis sends the control information to the plurality of servers with different architecture features in the server chassis, and the plurality of servers with different architecture features receive the control information. In the scheme, the controller of the server case sends control information to the plurality of servers with different architecture characteristics in the server case, so that the controller of the server case can uniformly control the plurality of servers in the server case, the plurality of servers in the server case are prevented from being separately controlled, convenience in controlling systems with different architectures in the server case is improved, and user experience is improved.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A method of processing, comprising:

the method comprises the steps that a controller of a server case obtains a control instruction, and control information is generated according to the control instruction, wherein the control instruction comprises the following steps: the received first control instruction and a second control instruction generated according to the operation parameters of a plurality of servers with different architecture characteristics in the server chassis, or the control instruction comprises: specifically, the controller of the server chassis receives the operating parameters of the plurality of servers with different architecture characteristics, and if it is detected that at least part of the received operating parameters are abnormal or need to be adjusted, the controller of the server chassis actively generates a second control instruction;

the method comprises the steps that a controller of a server case sends control information to a plurality of servers with different architecture characteristics in the server case, so that the plurality of servers with different architecture characteristics receive the control information and control the plurality of servers simultaneously; the method comprises the following steps: the controller of the server case sends control information generated according to the second control instruction to a plurality of servers in the server case, wherein at least part of operation parameters of the servers are abnormal or need to be adjusted, so that the plurality of servers, at least part of which have the abnormality or need to be adjusted, receive the control information and simultaneously control the plurality of servers;

wherein the control information is capable of causing the plurality of servers having different architectural features to perform parameter setting or updating for the plurality of servers having different architectural features based on the received control information.

2. The method of claim 1, wherein the plurality of servers having different architectural features comprises:

the plurality of servers using different system architectures;

and/or the presence of a gas in the gas,

the plurality of servers having different numbers of processors;

and/or the presence of a gas in the gas,

the plurality of servers having different types of processors.

3. The method of claim 1, wherein the controller of the server chassis sending control information to a plurality of servers having different architectural features within the server chassis comprises:

a controller of the server chassis determines a plurality of identification information of the plurality of servers with different architecture characteristics, which is indicated by the control instruction, wherein the control instruction carries the plurality of identification information;

and respectively sending the control information to a plurality of servers with different architecture characteristics in the server chassis according to the identification information.

4. The method of claim 1, wherein the control information enables at least one of the plurality of servers having different architectural features to perform:

updating firmware or software of the plurality of servers having different architectural features;

or, setting parameters of the plurality of servers with different architecture characteristics;

or the plurality of servers with different architecture characteristics are enabled to send the log information of each server to the controller of the server case.

5. An electronic device, comprising: a controller of a server chassis and a plurality of servers having different architectural features within the server chassis, wherein:

the controller of the server case obtains a control instruction and generates control information according to the control instruction, wherein the control instruction comprises: the received first control instruction and a second control instruction generated according to the operation parameters of a plurality of servers with different architecture characteristics in the server chassis, or the control instruction comprises: specifically, the controller of the server chassis receives the operating parameters of the plurality of servers with different architecture characteristics, and if it is detected that at least part of the received operating parameters are abnormal or need to be adjusted, the controller of the server chassis actively generates a second control instruction;

the method for controlling the plurality of servers simultaneously by sending control information to the plurality of servers with different architecture characteristics in the server chassis by the controller of the server chassis so that the plurality of servers with different architecture characteristics receive the control information includes: the controller of the server case sends control information generated according to the second control instruction to a plurality of servers in the server case, wherein at least part of operation parameters of the servers are abnormal or need to be adjusted, so that the plurality of servers, at least part of which have the abnormality or need to be adjusted, receive the control information and simultaneously control the plurality of servers;

wherein the control information is capable of causing the plurality of servers having different architectural features to perform parameter setting or updating for the plurality of servers having different architectural features based on the received control information.

6. The electronic device of claim 5, wherein the plurality of servers having different architectural features comprises:

the plurality of servers using different system architectures;

and/or the presence of a gas in the gas,

the plurality of servers having different numbers of processors;

and/or the presence of a gas in the gas,

the plurality of servers having different types of processors.

7. The electronic device of claim 5, wherein the controller of the server chassis sending control information to a plurality of servers having different architectural features within the server chassis comprises:

a controller of the server chassis determines a plurality of identification information of the plurality of servers with different architecture characteristics, which is indicated by the control instruction, wherein the control instruction carries the plurality of identification information; and respectively sending the control information to a plurality of servers with different architecture characteristics in the server chassis according to the identification information.

8. The electronic device of claim 5, wherein the control information is capable of causing the plurality of servers having different architectural features to perform at least one of:

updating firmware or software of the plurality of servers having different architectural features;

or the plurality of servers with different architecture characteristics are enabled to send the log information of each server to the controller of the server case.

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