CN113011845A - Equipment full life cycle management system - Google Patents

Abstract

The application provides a full life cycle management system of equipment, includes: the system comprises a goods arrival acceptance module, a power-on acceptance module, a resource distribution module, an equipment on-off line module, an equipment scrapping module and an equipment maintenance module. According to the system, the target equipment can be centralized to one system from each stage of receiving the goods and receiving the goods until the goods are scrapped through the goods receiving and accepting module, the power-on and accepting module, the resource distribution module, the equipment up-down line module, the equipment scrapping module and the equipment maintenance and maintenance module, namely, the data generated from each stage of receiving the goods and receiving the goods until the goods are scrapped can be unified to the equipment full life cycle management system, the unified management on each stage of the target equipment full life cycle is realized, the management level of the target equipment is improved, meanwhile, the data generated in each stage of the target equipment can be accurately transmitted to the subsequent stage, so that the data generated in each stage can be used and analyzed by the subsequent stage, and the data interactivity is good.

Description

Equipment full life cycle management system

Technical Field

The application relates to the technical field of equipment management, in particular to a full life cycle management system of equipment.

Background

The full life cycle of the computer equipment refers to each stage of the equipment, such as arrival, acceptance, warehousing, power-on acceptance, online, distribution to a business system according to needs, use, maintenance, offline, scrapping and the like.

At present, management of each stage of a full life cycle of computer equipment is completed by different information systems, and the mode of managing by adopting a plurality of different information systems results in that data generated by each stage from the time of receiving goods to the time of abandonment of one computer equipment are respectively dispersed in different information systems, and the information systems are independent and can not interact with each other, so that the data generated by each stage can not form standard and uniform standardized information, the data generated by each stage can not be used and analyzed by other stages, and the data interactivity is poor.

Disclosure of Invention

In view of this, the present application provides an equipment full-life-cycle management system to solve the problem in the prior art that data generated in each stage of a computer equipment full-life cycle is dispersed in different information systems, resulting in poor data interactivity, and the technical scheme is as follows:

a device full lifecycle management system, comprising: the system comprises an incoming goods acceptance module, a power-on acceptance module, a resource distribution module, an equipment on-off line module, an equipment scrapping module and an equipment maintenance module;

the goods arrival acceptance module is used for acquiring the equipment identification information of the target equipment and accepting the goods arrival condition of the target equipment based on the purchase order corresponding to the equipment identification information;

the power-on acceptance check module is used for acquiring the configuration information of the target equipment after the arrival condition of the target equipment is accepted by the arrival acceptance check module, and checking and accepting the power-on starting condition and the configuration information of the target equipment based on the purchase order;

the resource allocation module is used for determining a resource allocation scheme corresponding to the target equipment according to the computing resource allocation application, the currently available computing resources, the configuration information of the target equipment and the machine room environment information after the power-on starting condition and the configuration information of the target equipment are accepted by the power-on acceptance module;

the device online and offline module is used for performing online processing on the target device based on the resource allocation scheme;

the equipment maintenance module is used for performing daily maintenance and repair treatment on the target equipment after the target equipment is on line;

the device offline module is also used for performing offline processing on the target device when receiving an offline application for the target device;

and the equipment scrapping module is used for scrapping the target equipment if equipment scrapping application for the target equipment is received after the target equipment is offline.

Optionally, the arrived goods acceptance module is further configured to store the device identification information of the target device and an acceptance result of the arrived goods condition of the target device;

the power-on acceptance check module is also used for storing the configuration information of the target equipment, the power-on starting condition and the acceptance result of the configuration information;

the resource allocation module is also used for storing a resource allocation scheme corresponding to the target equipment;

the device online and offline module is also used for storing online processing information generated when the target device is subjected to online processing and offline processing information generated when the target device is subjected to offline processing;

the equipment maintenance module is also used for storing daily maintenance information generated during maintenance processing of the target equipment and maintenance processing information generated during maintenance processing of the target equipment;

the equipment scrapping module is also used for storing scrapping processing information generated when the target equipment is scrapped.

Alternatively to this, the first and second parts may,

the arrival acceptance module is specifically used for acquiring the equipment identification information of the target equipment by using identification acquisition equipment when acquiring the equipment identification information of the target equipment;

the power-on acceptance check module is specifically configured to collect the configuration information of the target device by using the configuration information collection device when acquiring the configuration information of the target device.

Optionally, the power-on acceptance module is further configured to acquire and store attribute information and maintenance and repair information of the target device, and store inventory location information of the target device.

Optionally, the resource allocation module is specifically configured to, after receiving the resource allocation application approval information indicating that the approval of the computing resource allocation application is passed, determine a resource allocation scheme corresponding to the target device according to the computing resource allocation application, the currently available computing resources, the configuration information of the target device, and the machine room environment information.

Optionally, the device offline module is specifically configured to:

the method comprises the steps of (1) recycling computing resources in target equipment;

and after the computing resources in the target equipment are completely recovered, performing power-off and library-returning processing on the target equipment.

Optionally, the device discarding module is further configured to determine whether the target device is a device to be discarded after the target device is offline, and discard the target device if a device discarding application for the target device is received after the target device is the device to be discarded.

Optionally, the device discarding module is specifically configured to, when determining whether the target device is a device to be discarded:

acquiring a judgment result of whether the target equipment meets the development test requirement, wherein the judgment result is determined according to the service condition information of the target equipment;

if the judgment result is that the target equipment meets the development test requirement, the target equipment is not the equipment to be scrapped;

and if the judgment result is that the target equipment does not meet the development test requirement, the target equipment is to-be-scrapped equipment.

Optionally, when the device maintenance module performs maintenance processing on the target device, the device maintenance module is specifically configured to:

when the target equipment generates an alarm, acquiring alarm information corresponding to the target equipment;

acquiring influence condition information of the alarm information on the service in the target equipment, wherein the influence condition information is used for indicating whether the alarm information influences the service in the target equipment or not;

if the influence condition information indicates that the alarm information influences the service in the target equipment, maintaining the target equipment according to the emergency strategy and the maintenance strategy;

and if the influence condition information indicates that the alarm information does not influence the service in the target equipment, maintaining the target equipment according to the maintenance strategy.

Optionally, when the device maintenance module performs maintenance processing on the target device according to the emergency policy and the maintenance policy, the device maintenance module is specifically configured to:

limiting the service in the target equipment according to the emergency strategy, wherein the limiting is current limiting or shielding;

and maintaining the target equipment after the service is limited according to the maintenance strategy.

By the above technical solution, the device full-life-cycle management system provided by the present application includes: the system comprises a goods arrival acceptance module, an electrifying acceptance module, a resource distribution module, an equipment on-off line module, an equipment scrapping module and an equipment maintenance module, wherein the goods arrival acceptance module can accept the goods arrival condition of target equipment, the electrifying acceptance module can accept the electrifying starting condition and configuration information of the target equipment, the resource distribution module can determine the resource distribution scheme corresponding to the target equipment, the equipment on-off line module can carry out on-line processing and off-line processing on the target equipment, the equipment scrapping module can scrap the target equipment, and the equipment maintenance module can carry out daily maintenance and maintenance processing on the target equipment. According to the method and the system, the target equipment is concentrated into one system from each stage of accepting the goods until the goods are scrapped, namely, the data generated from each stage of accepting the goods until the goods are scrapped can be unified to the equipment full life cycle management system, so that the unified management of each stage of the full life cycle of the target equipment is realized, the management level of the target equipment is improved, meanwhile, the data generated from each stage of the target equipment can be accurately conducted to the subsequent stage, therefore, the data generated from each stage can be used and analyzed by the subsequent stage, and the data interactivity is good.

Drawings

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

Fig. 1 is a flowchart of a target device full lifecycle management provided in an embodiment of the present application;

FIG. 2 is a schematic diagram of a functional design model corresponding to a delivery acceptance check module and a power-on acceptance check module provided in an embodiment of the present application;

fig. 3 is a schematic view of a functional design model corresponding to a resource allocation module and an on-line module of a device provided in the embodiment of the present application;

fig. 4 is a schematic diagram of a functional design model corresponding to an equipment maintenance module according to an embodiment of the present application;

fig. 5 is a schematic view of a functional design model corresponding to an equipment offline module according to an embodiment of the present application;

fig. 6 is a schematic view of a functional design model corresponding to an equipment scrapping module provided 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 inventor finds that the currently known management of the whole life cycle of the computer equipment is completed by different information systems, and the information systems are independent from each other and can not interact with each other, so that data are dispersed in the different information systems in the whole process from the time of receiving the goods and the time of abandonment of one computer equipment, and the data in one information system can not be used and analyzed by other information systems, and the data interaction is poor.

In view of the problems of the existing full-life-cycle management of computer equipment, the inventor of the present application has conducted an intensive study and finally provides an equipment full-life-cycle management system, which can uniformly manage data of each stage of the full-life cycle of computer equipment. The device full-life-cycle management system provided by the present application is described in detail by the following embodiments.

The equipment full life cycle management system provided by the embodiment of the application comprises a goods acceptance module 1, an electricity acceptance module 2, a resource distribution module 3, an equipment online and offline module 4, an equipment maintenance module 5 and an equipment scrapping module 6, wherein the equipment online and offline module 4 comprises an equipment online module 41 and an equipment offline module 42, and management of target equipment from goods acceptance to scrapped full life cycle stages can be realized based on the modules. In order to more clearly understand the above modules and the interaction process among the modules, reference is made to fig. 1, and referring to fig. 1, a full lifecycle management flowchart of a target device is provided according to an embodiment of the present application.

In the embodiment of the application, the arrival acceptance module 1 can acquire the device identification information of the target device, and accept the arrival condition of the target device based on the purchase order corresponding to the device identification information.

Optionally, the arrival acceptance module 1 may acquire the device identification information of the target device by using the identification acquisition device, so as to obtain the device identification information of the target device. Optionally, the identifier acquisition device may be a mobile terminal, and the identifier acquisition tool installed on the mobile terminal may be used to acquire the device identifier information of the target device.

It can be understood that, when purchasing equipment by a financial institution, a large number of purchase orders are generally generated for each supplier, each arrival place, each purchase demand, and the like, and then when the arrival acceptance is performed on a target equipment, the purchase order in which the target equipment is located needs to be searched from the large number of purchase orders. According to the embodiment of the application, the purchase order corresponding to the equipment identification information can be quickly positioned based on the equipment identification information obtained by the arrival acceptance module 1, so that the arrival condition of the target equipment can be accepted based on the purchase order corresponding to the equipment identification information, and if the arrival condition of the target equipment is consistent with the purchase order corresponding to the equipment identification information, the arrival condition of the target equipment is accepted.

When the arrival acceptance module 1 accepts the arrival condition of the target equipment, the quantity of the target equipment qualified in acceptance can be counted in real time and matched with the purchasing plan, in addition, the arrival acceptance module 1 supports the arrival acceptance of a plurality of contracts, a plurality of orders, a plurality of suppliers and a plurality of arrival places, and the arrival acceptance efficiency of the target equipment is improved.

In this embodiment of the application, the power-on acceptance check module 2 may obtain the configuration information of the target device after the arrival condition of the target device is accepted by the arrival acceptance check module 1, and accept the power-on starting condition and the configuration information of the target device based on the purchase order corresponding to the device identification information.

Optionally, the power-on acceptance module 2 may collect the configuration information of the target device by using the configuration information collecting device to obtain the configuration information of the target device. Optionally, the configuration information acquisition device may be a mobile terminal, and the configuration information of the target device may be acquired by using a configuration information acquisition tool installed on the mobile terminal or by using a model specification data dictionary stored on the mobile terminal.

When the power-on acceptance module 2 performs power-on acceptance on the target equipment, firstly, the target equipment is powered on and started to verify whether the working state of the target equipment is good or not, if the working state of the target equipment is good, the power-on acceptance of the target equipment is qualified, secondly, whether the configuration information of the target equipment obtained by the power-on acceptance module 2 is consistent with the configuration information of the target equipment in the purchase order corresponding to the equipment identification information or not is verified, and if the configuration information of the target equipment obtained by the power-on acceptance module 2 is consistent with the configuration information of the target equipment in the purchase order corresponding to the equipment identification information, the configuration information of the target equipment is qualified.

Optionally, in the embodiment of the present application, the power-on acceptance module 2 may further obtain attribute information and maintenance and repair information of the target device.

Here, the configuration information of the target device includes, but is not limited to, the number of CPU cores and the storage capacity, the attribute information of the target device includes, but is not limited to, a device class and a device model, and the maintenance warranty information of the target device includes, but is not limited to, the maintenance warranty time of the target device.

After the power-on acceptance module 2 accepts the power-on starting condition and the configuration information of the target device, the target device may be used as a computing resource, and resource allocation is performed on the target device when there is a service demand. Here, the computer resource allocation application is obtained according to a service requirement, and the computer room environment information is environment information of a computer room in which the target device is deployed, for example, information such as a physical distribution situation of used resources of the computer room, a power resource situation of the computer room, a temperature and humidity situation of the computer room, a space of the computer room, and a space of a cabinet.

Optionally, the resource allocation module 3 may perform resource allocation on the target device by using the intelligent machine room system to comprehensively analyze currently available computing resources, configuration information of the target device, and machine room environment information according to the computing resource allocation application, so as to obtain a resource allocation scheme corresponding to the target device. Optionally, the resource allocation scheme includes, but is not limited to, the number of target devices to be deployed, the storage capacity, and the specific installation location information of the target devices to be deployed in the computer room. For example, the computing resource allocation application includes 5 target devices, if only 4 target devices can be deployed in a certain area space of the computer room, the remaining 1 target device needs to be deployed in another area, and at this time, the intelligent computer room system is used to perform comprehensive analysis on the currently available computing resources, the configuration information of the target devices, and the computer room environment information, so that the optimal installation location can be calculated in another area to deploy the remaining 1 target device.

When the resource allocation module 3 allocates resources to the target device, the currently available computing resources, the configuration information of the target device and the machine room environment information are comprehensively analyzed, so that an optimal target device deployment scheme can be obtained, and the use efficiency of the machine room environment resources is improved.

In this embodiment of the application, after obtaining the resource allocation scheme corresponding to the target device, the device online module 41 may perform online processing on the target device based on the resource allocation scheme.

The process of performing online processing on the target device includes, but is not limited to, deploying and installing the target device, powering on, starting up the target device, connecting the target device to a network, installing software and hardware, and accessing a service system.

After the device is online, the target device may process various services, and a failure of the target device may occur in the process of processing the services by the target device, at this time, the device maintenance module 5 may perform maintenance processing on the target device, and in addition, the device maintenance module 5 may perform daily maintenance on the target device.

Optionally, the equipment maintenance and repair module 5 performs repair processing on the target equipment, including but not limited to: restarting and repairing various software problems in target equipment, isolating and switching fault points, restarting a service system, maintaining and replacing various hardware damages, repairing a network link and replacing the whole equipment; the device maintenance and repair module 5 performs routine maintenance processing on the target device, including but not limited to: upgrading various basic software versions, upgrading service systems, installing patches, upgrading equipment microcodes, performing emergency and switching circuits. Optionally, in this embodiment of the application, the device maintenance and repair module 5 may perform routine maintenance and repair processing on the target device by changing an approval mode, for example, when a target device fails, a repair application for the target device may be provided, and after the repair application is approved, the target device may be repaired.

In this embodiment of the present application, the application management department may submit an offline application to the target device that is no longer used, and then the device offline module 41 may perform offline processing on the target device when receiving the offline application for the target device.

Optionally, the process of performing offline processing on the target device includes, but is not limited to, exiting the service system, disconnecting the network connection, powering off and leaving the machine room after being off-shelf.

According to the embodiment of the application, various operations in the offline processing process need to be controlled through changing examination and approval, for example, an offline application for the target device is firstly examined and approved, and then the target device is offline processed if the examination and approval is passed. According to the embodiment of the application, various operations in the offline processing process are controlled through changing approval, so that various operations can be guaranteed to be safe and compliant, and the operation process can be traced.

After the target device is offline, the device scrapping application for the offline target device can be obtained in the embodiment of the application, and then the device scrapping module 6 can scrap the target device after receiving the device scrapping application for the offline target device.

In the embodiment of the present application, the equipment scrapping application is provided based on scrapping rules, and optionally, the equipment scrapping application provided based on scrapping rules includes: if the target equipment reaches the scrapping condition, equipment scrapping application aiming at the target equipment is provided; and if the target equipment reaches the limit time and replaces the corresponding limit time, providing an equipment scrapping application aiming at the target equipment.

In an optional embodiment, in consideration that after the target device is offline, the offline target device may still have a use value, and direct scrapping may cause waste of the target device, based on this, the device scrapping module 6 in this embodiment may further determine whether the offline target device is a device to be scrapped after the target device is offline, so that when the offline target device is the device to be scrapped, if a device scrapping application for the offline target device is received, the target device is scrapped.

Optionally, the process of determining, by the device discarding module 6, whether the offline target device is a device to be discarded may include: and acquiring a judgment result of whether the offline target equipment meets the development test requirement, if the judgment result is that the offline target equipment meets the development test requirement, determining that the offline target equipment is not the equipment to be scrapped, wherein the offline target equipment can be used in the development test field, and if the judgment result is that the offline target equipment does not meet the development test requirement, determining that the offline target equipment is the equipment to be scrapped. Here, the determination result may be that the equipment scrapping module 6 is determined according to the information of the use condition of the offline target equipment, and/or that an engineer is determined according to the information of the use condition of the offline target equipment. For example, in some cases, the device scrapping module 6 may determine whether the offline target device meets the development test requirement according to the service life information of the offline target device, and in some cases, the engineer may determine whether the offline target device meets the development test requirement according to the service life information, the failure rate, the operating state, and other information of the offline target device.

In the embodiment of the present application, the device discarding module 6 may automatically calculate and mark the life cycle stage of the target device based on the provision of the life cycle of each product in the information technology product classification catalog, automatically count the target devices that reach the discarding condition or enter the replacement stage of the deadline, and provide a basis for making a device update plan and purchasing budget according to the statistical result.

The utility model provides an equipment full life cycle management system, the arrival goods acceptance module can be checked the arrival goods condition of target device, add the power-on start-up condition and the configuration information of acceptance module can be checked target device, the resource allocation scheme that the target device corresponds can be confirmed to the resource allocation module, the equipment is gone up the line module and can be gone up the line and handle and roll off the line to target device, the equipment is scrapped the module and can be scrapped target device, the equipment maintenance module can carry out routine maintenance and maintenance to target device and handle. According to the method and the system, the target equipment is concentrated into one system from each stage of accepting the goods until the goods are scrapped, namely, the data generated from each stage of accepting the goods until the goods are scrapped can be unified to the equipment full life cycle management system, so that the unified management of each stage of the full life cycle of the target equipment is realized, the management level of the target equipment is improved, meanwhile, the data generated from each stage of the target equipment can be accurately conducted to the subsequent stage, therefore, the data generated from each stage can be used and analyzed by the subsequent stage, and the data interactivity is good.

In an optional embodiment, the embodiment of the present application may store the data generated by the cargo acceptance module 1, the power-on acceptance module 2, the resource allocation module 3, the equipment offline module 4, the equipment maintenance and repair module 5, and the equipment scrapping module 6 for subsequent operation and analysis.

Specifically, the arrival acceptance module 1 is further configured to store the device identification information of the target device and an acceptance result of the arrival situation of the target device.

The power-on acceptance check module 2 is also used for storing the configuration information of the target equipment, the power-on starting condition and the acceptance result of the configuration information. Optionally, the power-on acceptance check module 2 is further configured to store attribute information and maintenance information of the target device, and store the stock position information of the target device when the power-on acceptance check module 1 accepts the arrival condition of the target device, and the power-on acceptance check module 2 accepts the power-on startup condition and the configuration information of the target device.

In this embodiment of the application, the power-on acceptance check module 2 may store the configuration information, the attribute information, and the maintenance warranty information of the target device, so that the target device may be counted according to the configuration information, the attribute information, or the maintenance warranty information when needed subsequently, for example, the target device that needs to be purchased for a continuous warranty service is counted according to the maintenance warranty time of the target device. And, the power-on acceptance check module 2 can store the stock location information of the target device, so that the target device can be quickly found from the warehouse when the target device has the warehouse-out requirement.

The resource allocation module 3 is further configured to store a resource allocation scheme corresponding to the target device.

The device offline module 4 is further configured to store online processing information generated by the target device during online processing and offline processing information generated by the target device during offline processing.

In the embodiment of the application, the device offline module 4 stores data generated in all operation processes when performing online processing and offline processing on the target device, so that the data stored in the device offline module 4 can be checked in subsequent needs.

The equipment maintenance and repair module 5 is also used for storing daily maintenance information generated by the target equipment during the maintenance process and repair process information generated by the target equipment during the repair process.

In the embodiment of the present application, the device maintenance module 5 stores data generated in all operation processes when performing daily maintenance and repair processing on the target device, so that the data stored in the device maintenance module 5 can provide a basis for reviewing occurrence, evolution, influence and handling processes of various events. In addition, the equipment maintenance and repair module 5 will form a knowledge base for the summarized successful treatment schemes, so that when the same fault occurs in the target equipment, the fault can be repaired and processed based on the knowledge base. The embodiment of the application can also perform statistics on the maintenance records of the target equipment based on the data stored by the equipment maintenance module 5, for example, the fault rate is counted according to the brand, the model, the component, the deployment position and the like, thereby providing a basis for product model selection, machine room modification and the like.

The equipment scrapping module 6 is also used for storing scrapping processing information generated when the target equipment is scrapped.

In the embodiment of the application, the equipment scrapping module 6 stores data such as value evaluation, bidding results, disposal schemes and the like in the scrapping treatment process when scrapping treatment is performed on the target equipment, and the stored data can complete asset expenditure through linkage with a financial system.

According to the embodiment of the application, the operation data of each module on each stage of the full life cycle of the target equipment is recorded in detail, so that the implementation departments corresponding to the modules are closely connected, and the working efficiency of the implementation departments corresponding to the modules is improved.

In another optional embodiment, the embodiment of the present application further provides functional design models corresponding to the goods acceptance module 1, the power-on acceptance module 2, the resource allocation module 3, the device offline module 4, the device maintenance and repair module 5, and the device scrapping module 6, and the functional design models corresponding to the goods acceptance module 1, the power-on acceptance module 2, the resource allocation module 3, the device offline module 4, the device maintenance and repair module 5, and the device scrapping module 6 are described in detail below with reference to fig. 2 to 6.

Functional design model 1: and the corresponding functional design models of the goods acceptance module 1 and the power-on acceptance module 2.

Referring to fig. 2, a schematic diagram of a functional design model corresponding to the goods acceptance module 1 and the power-on acceptance module 2 is provided for the embodiment of the present application. Firstly, in a storehouse management link, the target equipment is subjected to arrival acceptance check (namely, the arrival condition of the target equipment is accepted) based on the arrival acceptance check module 1, after the arrival acceptance check of the target equipment is qualified, a product management link is subjected to power-on acceptance check (namely, the power-on starting condition and the configuration information of the target equipment are accepted) based on the power-on acceptance check module 2 on the target equipment, and finally, after the power-on acceptance check of the target equipment is qualified, the stock position information of the target equipment is stored based on the power-on acceptance check module 2.

The functional model shown in fig. 2 can realize the acceptance of the arrival of the goods and the acceptance of the power-on of the target device, and after the acceptance of both the arrival of the goods and the acceptance of the power-on is qualified, the stock position information of the target device is stored, so that the target device which is qualified in the acceptance can be quickly found in the warehouse.

Functional design model 2: and the resource allocation module 3 and the on-line module 41 correspond to functional design models.

Referring to fig. 3, a schematic diagram of a functional design model corresponding to the resource allocation module 3 and the device online module 41 provided in the embodiment of the present application is shown. The method comprises the steps that firstly, an application management department can provide a computing resource allocation application according to business increase or capacity expansion requirements, then a system manager submits the computing resource allocation application to a responsible person in the office for initial review, if the initial review passes, a central-level expert reviews the computing resource allocation application which passes the initial review, and submits the computing resource allocation application which passes the initial review to a center leader for final review, and if the initial review and the final review pass, the computing resource allocation application is approved. In the embodiment of the application, resource allocation application approval information indicating whether the computing resource allocation application is approved or not is obtained after the computing resource allocation application is subjected to initial review and final review, wherein if the computing resource allocation application is subjected to both the initial review and the final review, the resource allocation application approval information indicates that the computing resource allocation application is approved, and if the computing resource allocation application is not approved in the initial review or the computing resource allocation application is not approved in the final review, the resource allocation application approval information indicates that the computing resource allocation application is approved.

In the embodiment of the present application, after receiving the resource allocation application approval information indicating that the approval of the computing resource allocation application is passed, the resource allocation module 3 may determine the resource allocation scheme corresponding to the target device according to the computing resource allocation application, the currently available computing resource, the configuration information of the target device, and the machine room environment information. Referring to fig. 3, the process of determining, by the resource allocation module 3, the resource allocation scheme corresponding to the target device according to the computing resource allocation application, the currently available computing resources, the configuration information of the target device, and the machine room environment information includes: in a resource management link, according to a computing resource allocation application, currently available computing resources, configuration information of target equipment and machine room environment information, determining a resource allocation type, and further determining a resource allocation scheme corresponding to the target equipment. Here, the resource allocation types mainly include device allocation and already available resource allocation (note that the sum of the computing resources in the allocated device and the already available resources should be greater than or equal to the computing resources applied in the computing resource allocation application, so that the allocated total computing resources meet the business requirement), where the device allocation includes target device allocation and original device adjustment, and the already available resource allocation includes new logical partitions (new logical partitions on the original device or the target device), original partition adjustment and already available partition allocation. It should be understood that, if a specific target device needs to be allocated, the resource allocation scheme includes a detailed installation location of the target device to be allocated in the computer room (i.e. a certain U bit of a certain cabinet of a certain computer room).

After the resource allocation is completed, the computer room management link is configured to power up the allocated computing resources and to bring the system online (i.e., the device online module 41 performs online processing on the target device). And if the distributed computing resources meet the business requirements, confirming the distributed computing resources by the application management department.

The functional model shown in fig. 3 can implement resource allocation and online processing on the target device, and the target device can process the related services after being online.

Functional design model 3: and the functional design model corresponds to the equipment maintenance module.

In the embodiment of the present application, the process of performing maintenance processing on the target device by the device maintenance module 5 can be as shown in fig. 4, and various alarm settings of the system can be deployed in an alarm management link to monitor the target device and the operation conditions of the services therein in an all-around manner. In the monitoring management link, the alarm information is received through various ways, including that the application department receives an alarm that the operation of the service in the target equipment is abnormal, the equipment maintenance department receives an alarm that the operation of the target equipment is abnormal, and the alarm of software and hardware in the target equipment is actively discovered in the routine inspection process, and the alarm information received by the monitoring management link can be known by the equipment maintenance module 5, that is, the equipment maintenance module 5 can obtain the alarm information corresponding to the target equipment when the alarm is generated by the target equipment. In the device maintenance and repair management link, the device maintenance and repair module 5 may further obtain influence condition information for indicating whether the alarm information affects the service in the target device, where the influence condition information may be obtained by analyzing the alarm information and determining whether the alarm information affects the service in the target device for the device maintenance and repair module 5 itself, or may be obtained by analyzing the alarm information and determining whether the alarm information affects the service in the target device for the device maintenance department. If the influence condition information indicates that the alarm information influences the service in the target equipment, maintaining the target equipment according to the emergency strategy and the maintenance strategy; and if the influence condition information indicates that the alarm information does not influence the service in the target equipment, maintaining the target equipment according to the maintenance strategy.

Optionally, if the influence condition information indicates that the alarm information influences the service in the target device, the embodiment of the application may first perform the limiting processing on the service in the target device according to the emergency policy, and then perform the maintenance processing on the target device after the service is limited according to the maintenance policy. Namely, the process of the equipment maintenance module 5 performing maintenance processing on the target equipment according to the emergency strategy and the maintenance strategy is as follows: firstly, limiting the service in the target equipment according to the emergency strategy, and secondly, maintaining the target equipment after the service is limited according to the maintenance strategy. Alternatively, the limiting process may be a current limiting process or a shielding process.

Optionally, the process of performing, by the device maintenance and repair module 5, repair processing on the target device after the service is limited according to the repair policy is as follows: determining a maintenance time window and a maintenance scheme corresponding to the maintenance of the target equipment according to a maintenance strategy in a knowledge base stored in advance in the equipment maintenance module 5, and determining whether the cooperation of an application department is needed, if the cooperation of the application department is needed, suspending the use of computing resources in the target equipment by the application department, and if the cooperation of the application department is not needed, maintaining the target equipment according to the maintenance scheme when the maintenance time corresponding to the maintenance time window is reached.

In this embodiment of the application, the process of the equipment maintenance module 5 maintaining the target equipment according to the maintenance scheme may be: and determining whether the whole machine needs to be replaced, if so, replacing the spare machine according to the change process, if not, further determining whether parts need to be replaced, and if so, replacing the spare parts according to the change process.

Functional design model 4: the device offline module 42 corresponds to a functional design model.

The process of the offline processing of the target device by the device offline module 42 can be shown in fig. 5, and the application management department can submit the offline application to the target device that is no longer used, and further can perform preliminary review on the offline application, if the preliminary review passes, the application management responsible person performs final review on the offline application, and if the preliminary review and the final review both pass, the offline application passes the approval. In the embodiment of the application, the offline application can obtain the offline application approval information indicating whether the offline application is approved or not after the offline application is subjected to initial review and final review, wherein if the initial review and the final review of the offline application are passed, the offline application approval information indicates that the offline application is approved, and if the initial review of the offline application is not passed or the final review of the offline application is not passed, the offline application approval information indicates that the offline application is not approved.

In this embodiment, the device offline module 42 may perform offline processing on the target device after receiving the offline application approval information indicating that the offline application approval is passed. Referring to fig. 4, the process of the device offline module 42 offline the target device may include: and recovering the computing resources in the target equipment, and after the computing resources in the target equipment are recovered, performing power-off and library-returning processing on the target equipment. Here, the process of the device offline module 42 performing the recycling process on the computing resource in the target device includes: and carrying out recovery processing on the storage resource in the target equipment and carrying out recovery processing on the network resource in the target equipment.

And after the machine room management link carries out offline processing on the target equipment, the storehouse management link can recover the offline target equipment, the application management department confirms that the offline is completed after all the operations are completed, and then the offline application can be closed.

Functional design model 5: and the equipment scrapping module 6 corresponds to a functional design model.

After the target equipment is off-line, if an equipment scrapping application for the off-line target equipment is received, the process of scrapping the target equipment can be seen as shown in figure 6, a resource management link can provide the equipment scrapping application for the off-line target equipment, a resource management department can further perform preliminary examination on the equipment scrapping application, if the preliminary examination passes, the resource management department performs final examination on the equipment scrapping application, if the final examination passes, a data center responsible person approves the equipment scrapping application, if the data center responsible person passes the examination and approval of the equipment scrapping application, the financial technology management department performs examination and approval on the equipment scrapping application, if the resource management passes the final examination of the equipment scrapping application, the examination and approval of the data center responsible person on the equipment scrapping application and the examination and approval of the equipment scrapping application by the financial technology management department, the equipment scrapping application is approved. In the embodiment of the application, the resource management department carries out final examination on the equipment scrapping application, the data center responsible person examines and approves the equipment scrapping application, and the financial science and technology management department obtains scrapping application examination and approval information indicating whether the equipment scrapping application is approved or not after examining and approving the equipment scrapping application, wherein if the final examination of the equipment scrapping application by the resource management department, the examination and approval of the equipment scrapping application by the data center responsible person and the examination and approval of the equipment scrapping application by the financial science and technology management department pass, the scrapping application approval information indicates that the scrapping application of the equipment is approved, and if the resource management department fails to approve the scrapping application of the equipment or the data center responsible person fails to approve the scrapping application of the equipment or the financial technology management department fails to approve the scrapping application of the equipment, the scrapping application approval information indicates that the scrapping application of the equipment is not approved.

In the embodiment of the application, the equipment scrapping module 6 can scrap the offline target equipment after receiving scrapping application approval information indicating that the equipment scrapping application approval is passed. Optionally, if the offline target device still has value, the discarding process performed on the offline target device may be to donate an external contact by the enterprise public relations department, and if the offline target device has no value, the discarding process performed on the offline target device may be to dispose the offline target device as electronic waste.

According to the embodiment of the application, through the functional design models respectively corresponding to the goods acceptance module 1, the power-on acceptance module 2, the resource distribution module 3, the equipment offline module 4, the equipment maintenance module 5 and the equipment scrapping module 6, all stages of the full life cycle of the target equipment can be better managed.

Finally, it is further noted that, herein, relational terms such as, for example, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

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 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 (10)

1. A device full lifecycle management system, comprising: the system comprises an incoming goods acceptance module, a power-on acceptance module, a resource distribution module, an equipment on-off line module, an equipment scrapping module and an equipment maintenance module;

the arrival acceptance module is used for acquiring equipment identification information of the target equipment and accepting the arrival condition of the target equipment based on the purchase order corresponding to the equipment identification information;

the power-on acceptance check module is used for acquiring the configuration information of the target equipment after the arrival condition of the target equipment is accepted by the arrival acceptance check module, and checking and accepting the power-on starting condition and the configuration information of the target equipment based on the purchase order;

the resource allocation module is used for determining a resource allocation scheme corresponding to the target equipment according to a computing resource allocation application, currently available computing resources, configuration information of the target equipment and machine room environment information after the power-on startup condition and the configuration information of the target equipment are accepted by the power-on acceptance module;

the device online and offline module is used for performing online processing on the target device based on the resource allocation scheme;

the equipment maintenance module is used for performing daily maintenance and repair treatment on the target equipment after the target equipment is on line;

the device offline module is further configured to perform offline processing on the target device when receiving an offline application for the target device;

and the equipment scrapping module is used for scrapping the target equipment if equipment scrapping application for the target equipment is received after the target equipment is offline.

2. The device full-life-cycle management system according to claim 1, wherein the arrival acceptance module is further configured to store device identification information of the target device and an acceptance result of the arrival situation of the target device;

the power-on acceptance check module is also used for storing the configuration information of the target equipment, the power-on starting condition and the acceptance result of the configuration information;

the resource allocation module is further configured to store a resource allocation scheme corresponding to the target device;

the device online and offline module is further used for storing online processing information generated by the target device during online processing and offline processing information generated by the target device during offline processing;

the equipment maintenance and repair module is also used for storing daily maintenance information generated during maintenance processing of the target equipment and maintenance processing information generated during maintenance processing of the target equipment;

the equipment scrapping module is also used for storing scrapping treatment information generated when the target equipment is scrapped.

3. The device full lifecycle management system of claim 1,

the arrival acceptance module is specifically used for acquiring the equipment identification information of the target equipment by utilizing identification acquisition equipment when acquiring the equipment identification information of the target equipment;

the power-on acceptance check module is specifically configured to acquire the configuration information of the target device by using a configuration information acquisition device when acquiring the configuration information of the target device.

4. The device lifecycle management system of claim 1, wherein the power-on acceptance module is further configured to obtain and store attribute information and maintenance warranty information of the target device, and store inventory location information of the target device.

5. The device life cycle management system according to claim 1, wherein the resource allocation module is specifically configured to, after receiving resource allocation application approval information indicating that the approval of the computing resource allocation application is passed, determine a resource allocation scheme corresponding to the target device according to the computing resource allocation application, currently available computing resources, configuration information of the target device, and machine room environment information.

6. The device full-lifecycle management system of claim 1, wherein the device offline module, when offline processing the target device, is specifically configured to:

carrying out recovery processing on the computing resources in the target equipment;

and after the recovery of the computing resources in the target equipment is finished, performing power-off library returning processing on the target equipment.

7. The device full-life-cycle management system according to claim 1, wherein the device scrapping module is further configured to determine whether the target device is a device to be scrapped after the target device is offline, so that if a device scrapping application for the target device is received after the target device is the device to be scrapped, the target device is scrapped.

8. The device full-life-cycle management system of claim 7, wherein the device scrapping module, when determining whether the target device is a device to be scrapped, is specifically configured to:

acquiring a judgment result of whether the target equipment meets the development test requirement, wherein the judgment result is determined according to the service condition information of the target equipment;

if the judgment result is that the target equipment meets the development test requirement, the target equipment is not the equipment to be scrapped;

and if the judgment result is that the target equipment does not meet the development test requirement, the target equipment is the equipment to be scrapped.

9. The device life cycle management system according to claim 1, wherein the device maintenance and repair module, when performing repair processing on the target device, is specifically configured to:

when the target equipment generates an alarm, acquiring alarm information corresponding to the target equipment;

acquiring influence condition information of the alarm information on the service in the target equipment, wherein the influence condition information is used for indicating whether the alarm information influences the service in the target equipment;

if the influence condition information indicates that the alarm information influences the service in the target equipment, maintaining the target equipment according to an emergency strategy and a maintenance strategy;

and if the influence condition information indicates that the alarm information does not influence the service in the target equipment, maintaining the target equipment according to the maintenance strategy.

10. The system for managing the full life cycle of the device according to claim 9, wherein the device maintenance and repair module, when performing the repair process on the target device according to the emergency policy and the repair policy, is specifically configured to:

limiting the service in the target equipment according to the emergency strategy, wherein the limiting is current limiting or shielding;

and maintaining the target equipment after the service is limited according to the maintenance strategy.

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