CN117592913A - Machine room management system and computer device - Google Patents

Abstract

The invention provides a machine room management system and a computer device, wherein the system comprises: the information management module is used for recording basic information of the assets in the machine room; the flow management module is used for recording the information of each link of purchasing, receiving, using, maintaining and scrapping each asset so as to trace the asset; the information identification module is used for locating the storage position and state of the asset by identifying the tag information on the asset; and a retrieval module for quickly and accurately searching the concerned asset object from the asset data. By adopting the invention, comprehensive asset information can be built, and the information of each link of purchasing, receiving, using, maintaining and scrapping each asset is recorded, so that the asset can be traced, and the asset management efficiency is improved. And the searching module is used for quickly and accurately searching the concerned asset object, and the asset information is not required to be searched by jumping to the asset account system for a plurality of times, so that the execution efficiency of the flow is not affected.

Description

Machine room management system and computer device

Technical Field

The present invention relates to the field of computer application technology, and more particularly, to a machine room management system and a computer device.

Background

The data center is an important foundation for enterprise informatization construction and is a core facility for supporting Internet and Internet of things applications. With the expansion of data center size and the increase of equipment quantity, the conventional manual management has not been able to meet the management requirements.

Disclosure of Invention

In order to solve the above technical problems, an embodiment of the present invention provides a machine room management system, including:

the information management module is used for recording basic information of the assets in the machine room, wherein the basic information comprises asset classification, model, specification, quantity, condition and position;

the flow management module is used for recording the information of each link of purchasing, receiving, using, maintaining and scrapping each asset so as to trace the asset;

the information identification module is used for locating the storage position and state of the asset by identifying the tag information on the asset; and

and the retrieval module is used for quickly and accurately searching the concerned asset object from the asset data.

By adopting the machine room management system, comprehensive asset information can be built, and the information of each link of purchasing, receiving, using, maintaining and scrapping of each asset is recorded, so that the asset can be traced, and the asset management efficiency is improved. And the concerned asset object can be quickly and accurately searched through the search module, and the asset information is not required to be searched by jumping to the asset ledger system for multiple times, so that the execution efficiency of the flow is not affected.

In some embodiments of the invention, the information management module is configured to build an asset data model based on the asset information obtained by the information identification module, the asset data model containing one or more of the following information: name, number, status, brand, specification, model, asset number, equipment height, date of purchase, price, maintenance provider, rack in which the equipment is located.

In some embodiments of the invention, the information management module is further configured to:

obtaining basic information of an asset device initiates an on-line device on-line application,

filtering out an idle U bit according to the height and the power of equipment, wherein the U bit represents the height occupied by the equipment in the cabinet;

communicating with a ledger administration system through an open API to cause the ledger administration system to preempt the filtered U bits;

if the online application is refused, the pre-occupied U-position is released; and if the on-line application passes the verification, the equipment is put on the shelf in the cabinet.

According to the invention, the machine room flow management and the asset ledger management system are organically unified through communication of the open API, so that the summary and flow of asset information are conveniently optimized.

In some embodiments of the invention, the information management module is further configured to:

judging whether the equipment is put on shelf to the pre-occupied U position according to the information identified by the information identification module,

if the equipment is not put on shelf to the pre-occupied U position, a prompt message of the put-on-shelf error is returned to the user,

and if the equipment is put on the shelf to the pre-occupied U position, enabling the equipment to be on line and updating the asset ledger information.

In some embodiments of the invention, the information management module is configured to:

obtaining basic information of an asset device initiates a device off-line and off-line application,

after the off-line application is completed, the U position of the pre-off-line equipment is marked,

judging whether the information is consistent with the equipment information of the pre-shelve U bit according to the information identified by the information identification module from the marked U bit,

if yes, marking the U bit as idle, updating the asset data model,

if not, a prompt message representing the off-shelf error is returned to the user.

In addition, the embodiment of the invention also provides a computer device for machine room management, which comprises a memory and a processor, wherein the memory is stored with computer readable instructions, and the processor executes the computer readable instructions to perform the following operations:

recording basic information of assets in a machine room, wherein the basic information comprises asset classification, model, specification, quantity, condition and position;

recording information of each link of purchasing, receiving, using, maintaining and scrapping each asset so as to trace the asset;

identifying tag information on the asset by the scanner to locate a storage location and status of the asset; and

the asset object of interest is quickly and accurately searched from the asset data.

In some embodiments of the invention, the processor executes the computer-readable instructions to:

establishing an asset data model based on the asset information obtained by the scanner, the asset data model comprising one or more of the following information: name, number, status, brand, specification, model, asset number, equipment height, date of purchase, price, maintenance provider, rack in which the equipment is located.

In some embodiments of the invention, the processor executes the computer-readable instructions to:

obtaining basic information of an asset device initiates an on-line device on-line application,

filtering out an idle U bit according to the height and the power of equipment, wherein the U bit represents the height occupied by the equipment in the cabinet;

communicating with a ledger administration system through an open API to cause the ledger administration system to preempt the filtered U bits;

if the online application is refused, the pre-occupied U-position is released; and if the on-line application passes the verification, the equipment is put on the shelf in the cabinet.

In some embodiments of the invention, the processor executes the computer-readable instructions to:

judging whether the equipment is put on shelf to the pre-occupied U position according to the information identified by the scanner,

if the equipment is not put on shelf to the pre-occupied U position, a prompt message of the put-on-shelf error is returned to the user,

and if the equipment is put on the shelf to the pre-occupied U position, enabling the equipment to be on line and updating the asset ledger information.

In some embodiments of the invention, the processor executes the computer-readable instructions to:

obtaining basic information of an asset device initiates a device off-line and off-line application,

after the off-line application is completed, the U position of the pre-off-line equipment is marked,

judging whether the information is consistent with the equipment information of the pre-shelve U bit according to the information identified by the scanner from the marked U bit,

if yes, marking the U bit as idle, updating the asset data model,

if not, a prompt message representing the off-shelf error is returned to the user.

Compared with the traditional flow management of a central machine room, the machine room management system and the computer device of the embodiment of the invention solve the problems that the conventional machine room flow management can only record basic information and cannot track the whole life cycle of equipment, lack sufficient accuracy and instantaneity and the like, and have the following advantages:

1. the embodiment of the invention can lead the flow management of enterprises to be more standardized and efficient, can improve the input and integration efficiency of IT asset data, reduce the management cost, can also ensure the accuracy and the safety of the data, realize quick inquiry and accurate generation of various reports, and improve the management level of enterprises;

2. the information management module and the information identification module use unique identification codes to identify each asset, ensure that the identification codes cannot be repeated or omitted, and realize unified management of machine room IT asset basic information, state information, position information, maintainer information, maintenance information and application information under the cooperation of the information identification module;

3. asset information in a machine room is combined with the scene flow management by means of a tag identification technology (such as a bar code scanning or RFID identification technology), so that the management of the whole life cycle of equipment assets in a data center machine room is realized, the scene flow lines such as on-line, off-line, personnel in and out of the machine room, shift on duty and the like can be realized, each state of the asset and the change of data are ensured to be controlled, the storage position and state of a certain asset can be quickly and accurately found, and the real-time monitoring and tracking functions are provided.

Various aspects, features, advantages, etc. of embodiments of the invention will be described in detail below with reference to the accompanying drawings. The above aspects, features, advantages and the like of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings.

Drawings

Fig. 1 is a block diagram of a room management system according to an embodiment of the present invention.

Fig. 2 is a flow chart of equipment set-up flow management according to an embodiment of the present invention.

Fig. 3 is a flow chart of equipment off-shelf flow management according to an embodiment of the present invention.

Fig. 4 is a block diagram of a computer apparatus for machine room management according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings.

At present, the flow management of a data center machine room and the asset ledger are generally independent, and the following problems exist: 1. because the asset account and the flow management system are mutually independent, the information of the asset cannot be mutually related with the flow information, so that the summary of the asset information and the optimization of the flow are difficult to carry out; 2. because of the lack of comprehensive asset information, management personnel often need to spend a great deal of time and effort to find asset equipment that needs maintenance and replacement, making asset management inefficient; 3. because the flow information and the asset information are mutually independent, when the manager executes the flow, the manager needs to jump to the asset ledger system for searching the asset information for a plurality of times, which also affects the flow execution efficiency.

The invention provides a flow management system and method of a data center machine room, comprising an information management module, a flow management module, an information identification module and a retrieval module, wherein the information management module is used for recording basic information of all assets, including asset classification, model, specification, quantity, status and position, the flow management module is used for recording information of each link of purchasing, receiving, using, maintaining, scrapping and the like of each asset, comprehensively tracing the asset, the information identification module is used for rapidly positioning the storage position and state of the asset by scanning a bar code on the asset or using an RFID (radio frequency identification) identification technology, and the retrieval module is used for rapidly and accurately searching concerned asset objects from asset data by asset management personnel; the management of the central machine room comprises modeling flow management, equipment loading flow management, equipment disabling flow management, equipment unloading flow management, machine room entering and exiting flow management and asset retrieval flow management.

In an exemplary embodiment, as shown in fig. 1, a room management system 100 may include, but is not limited to: information identification module 110, information management module 120, retrieval module 130, and flow management module 140. The information management module 120 is used to record basic information of assets in the machine room including, but not limited to, asset classification, model, specifications, quantity, status, and location. The process management module 140 is configured to record information of each asset in various links of purchasing, receiving, using, maintaining, scrapping, and the like, so as to trace the asset. The information identification module 110 is used to locate the storage location and status of an asset by identifying tag information on the asset. The retrieval module 130 is used to quickly and accurately find asset objects of interest from the asset data.

In some embodiments, the search module 130 includes a search engine and a database, and searches the asset information from the database by the search engine, and the search module includes a full text search for searching the asset information by fuzzy matching according to a keyword input by a user, and an accurate search for accurately searching detailed information of an asset according to the keyword input by the user and an asset unique identification code. The information management module 120 is used for configuring and managing the custom attributes and special requirements of different types of assets, recording and informing the change condition of the assets, and automatically reflecting the change condition to related information in a system, and providing a visual tracing function for the flowing path of the assets so as to track and monitor the flowing condition of the assets. The process management module 140 is further configured to perform asset maintenance management, set maintenance expiration reminders for each type of asset, and ensure that the key IT asset maintenance is not over-run. The information management module 120, the flow management module 140, the information identification module 110 and the retrieval module 130 are all connected to a remote server through a network for real-time asset information synchronization.

The machine room management system 100 of the present invention realizes the information correlation of the flow management and the asset ledger, and the specific modes include: integrating the flow and asset information, integrating a flow management system and an asset account system by using methods such as an open API (application programming interface) or middleware and the like, and realizing interaction and sharing between the two information; unified asset identification, establishing an asset identification system, assigning a unique identifier to each asset device, and connecting the unique identifier with a flow management system and an asset account system; the data visualization and analysis are carried out, so that the visual display and integration of asset information and flow information are realized, and the data are analyzed and mined through a data visualization and analysis tool, so that the subsequent management decision is facilitated; the automatic generation of the work order is realized, the automatic generation of the work order is realized through the information in the asset account system, the cost of manual intervention is reduced, and the working efficiency is improved.

By adopting the machine room management system, comprehensive asset information can be built, and the information of each link of purchasing, receiving, using, maintaining and scrapping of each asset is recorded, so that the asset can be traced, and the asset management efficiency is improved. And the concerned asset object can be quickly and accurately searched through the search module, and the asset information is not required to be searched by jumping to the asset ledger system for multiple times, so that the execution efficiency of the flow is not affected.

In some embodiments of the invention, the information identification module 110 may include a scanner or RFID reader that obtains information about an asset (e.g., a machine room device) by scanning a tag (e.g., a two-dimensional code, bar code, or RFID tag) on the asset.

In some embodiments of the present invention, the information management module 120 is configured to build an asset data model based on the asset information obtained by the information identification module 110, and perform modeling process management, where the asset data model includes one or more of the following information: name, number, status, brand, specification, model, asset number, equipment height, date of purchase, price, maintenance provider, rack in which the equipment is located. One or more of these information is obtained by the information identification module 110 scanning a two-dimensional code, bar code, RFID tag, or the like. In some embodiments, the modeling flow management includes the steps of: establishing an asset data model within the information management module 120 based on the barcode/RFID identification; the common asset types are preset within the asset data model. The modeling process manages an asset data model for defining each type of asset, including information such as name, number, status, brand, specification, model number, asset number, device height, date of purchase, price, maintenance provider, rack in which the asset is located, etc. The asset data model is internally preset with a plurality of common asset types such as a server, a storage, a network and the like, and is configured to support a user to quickly define new asset types according to requirements, and the attributes of the assets support data types such as text, drop-down text, text area, time/time, IP, mac address, integer, decimal, attachment and the like. Asset data models are divided into servers, network devices, storage, security, machine room environments, and other resources. The asset objects corresponding to the server are PC servers, minicomputers, other devices and virtual machines. The asset objects corresponding to the network devices are routers and switches. The corresponding asset objects are stored as disk arrays, fibre switches and tape libraries. The security-corresponding asset objects are firewalls and other security devices. Asset objects corresponding to the machine room environment are a machine room and a machine cabinet. The key attributes of the server in the account information are equipment name, IP address, manufacturer, brand, model, SN number, weight, power, equipment height, data center, cabinet, initial U position, preassembled operating system, memory, CPU, hard disk capacity, asset number, purchasing time, loading time, unloading time, purchasing price, maintenance expiration time, maintenance provider contact telephone, maintenance responsibility person, state and description. The key attributes of the network equipment in the ledger information are equipment name, IP address, manufacturer, brand, model, SN number, weight, power, equipment height, data center, cabinet, initial U position, port number, asset number, purchasing time, shelf time, purchasing price, maintenance expiration time, maintenance provider contact telephone, maintenance responsible person, state and description.

In some embodiments of the present invention, the information management module 120 is further configured to perform device-on-shelf process management. In an exemplary embodiment, as shown in fig. 2, the device-on-shelf process management includes:

s201, obtaining basic information of asset equipment initiates an online application of equipment. In some embodiments, the device on-line device basic information is obtained, the device is selected (not enabled, off-shelf), the application is submitted, and the on-line application is completed through the CMDB asset information initiation device on-line flow application of the information management module 120. CMDB is an abbreviation for configuration management database (Configuration Management Database) that contains information on the full lifecycle of configuration items and relationships between configuration items.

S202, filtering out an idle U bit according to the height and the power of the equipment, wherein the U bit represents the height occupied by the equipment in the cabinet.

S203, communicating with a ledger management system through an open API to enable the ledger management system to pre-occupy the filtered U bit.

In some embodiments, the U-bit recommendation/preemption is performed in the flow work order, in the asset management process, the triggering U-bit recommendation can filter the idle U-bit meeting the requirement according to the parameters such as the height and the power of the overhead equipment, the U-bit preemption can be performed in the ledger administration system, and the U-bit preemption information actually corresponding to the cabinet can be seen in the asset visualization of the asset monitoring. For example, by sending a light command to the indicator lights of the corresponding U-bits of the rack indicating that the U-bits are preempted, the indicator lights receiving the command will light up (e.g., light up blue light).

S204, confirming whether the online application passes or not, and if the online application is refused, releasing the pre-occupied U bit in S205.

If the on-line application audit passes, the equipment is on-line in the cabinet at S206. In some embodiments, the equipment is scanned with the code binding SN number and the label number, then the label is attached to the equipment to form a correlation, and finally the equipment enters a machine room to be put on shelf.

In some embodiments of the present invention, the information management module 120 is further configured to:

s207, judging whether the equipment is put on shelf to the pre-occupied U bit according to the information identified by the information identification module 110. In some embodiments, the barcode information is obtained by scanning a tag of the racking device with a scanner, and the information management module 120 compares the identified barcode information with the device barcode information for the preempted U-bit to determine whether to racking in the predetermined U-bit.

S209, if the bar code of the on-shelf equipment is inconsistent with the bar code of the preset U-bit equipment, the equipment is not on-shelf to the pre-occupied U-bit, the flow work order cannot flow downwards, the prompting information of the on-shelf error is returned to the user,

s208, if the on-shelf equipment bar code is consistent with the equipment bar code of the preset U position, the equipment is on-line started and the asset account information is updated when the equipment is on-shelf to the pre-occupied U position. In some embodiments, the indication lamp receiving the command may be lit (e.g., green light on) by sending a light command to the indication lamp of the corresponding U-bit of the rack to indicate that the U-bit is occupied.

In some embodiments of the present invention, the information management module 120 is further configured to perform device off-shelf flow management. The equipment off-shelf process management comprises application (on-shelf, in-operation and off-use), approval, implementation and off-shelf, and all equipment off-shelf processes are required to be started. In an exemplary embodiment, as shown in fig. 3, the device off-shelf process management includes:

s301, obtaining basic information of asset equipment initiates an equipment off-line and off-line application. In some embodiments, the CMDB asset information through the information management module 120 initiates a device offline flow application, e.g., obtains offline device basic information, selects a device, submits an application, and completes the offline application.

S302, after the offline application is finished, marking the U position of the pre-offline equipment. In some embodiments, the indication lamp receiving the command may be lit (e.g., a yellow light) by sending a light command to the indication lamp of the corresponding U-bit of the rack to indicate that the U-bit is pre-shelved.

S303, judging whether the information is consistent with the equipment information of the pre-shelved U bit according to the information identified by the information identification module 110 from the marked U bit. In some embodiments, during the racking process, the barcode of the racking device is identified by the electronic scanning device, and the information management module 120 compares the identified barcode information with the barcode information of the device in the U-bit of the pre-racking to determine whether the pre-racking device is correct.

And S305, if yes, marking the U bit as idle, and updating the asset data model.

S306, if the judgment is negative, a prompt message representing the error of the off-shelf is returned to the user, and the flow work order cannot flow downwards.

In some embodiments, the room management system 100 also performs equipment deactivation process management. The equipment deactivation flow management comprises application (in operation), approval, implementation and deactivation, and when the equipment running on the shelf has a problem, the deactivation flow is started to carry out the deactivation operation on the equipment. In some embodiments, the room management system 100 also performs in-out room flow management. The machine room access flow management is used for realizing the standard management of machine room access through the flow and the work order, and all machine room access activities must be filed in advance and used together with the information management module. In some embodiments, the room management system 100 also performs search flow management. The search flow management is used for quickly and accurately searching the concerned asset objects from the asset database by the asset manager through the search module.

As will be appreciated from the above description, the room management system 100 may be implemented by one or more computer devices. For example, one or more of the information identification module 110, the information management module 120, the retrieval module 130, and the flow management module 140 may be implemented by one or more computer devices.

As shown in fig. 4, in an exemplary embodiment, computer devices for room management include, but are not limited to, a memory 401 and a processor 402. Stored on memory 401 are computer readable instructions that are executed by processor 402 to implement some or all of the operations performed by one or more of information identification module 110, information management module 120, retrieval module 130, and flow management module 140 described above.

In some implementations, the processor 402 executes computer readable instructions on the memory 401 to record basic information of assets in the machine room, including asset classification, model, specification, quantity, status, and location. In some implementations, the processor 402 executes instructions on the memory 401 to receive basic information of an asset entered by a user through the I/O interface 403 or to receive basic information of an asset sent remotely via a network through the network interface 404.

In some embodiments, processor 402 executes computer readable instructions on memory 401 to record information about each asset in various links of procurement, reception, use, maintenance, and scrapping in order to trace the asset. In some embodiments, processor 402 executes instructions on memory 401 to receive user-entered work order information via I/O interface 403, which records information for various links to purchase, receive, use, maintain, discard, or receive work order information via network interface 404 that is sent remotely via a network.

In some implementations, the processor 402 executes computer readable instructions on the memory 401 to identify tag information on the asset through a scanner to locate the storage location and status of the asset. In some embodiments, the processor 402 is communicatively coupled to the scanner via the I/O interface 403 and/or the network interface 404 to obtain information identified by the scanner and process the identified information to locate the asset on the rack and to operate the status.

In some implementations, the processor 402 executes computer readable instructions on the memory 401 to quickly and accurately find asset objects of interest from the asset data. In some implementations, the processor 402 executes instructions on the memory 401 to receive a query request entered by a user through the I/O interface 403 or to receive a query request sent remotely via a network through the network interface 404. The processor 402 responds to the query request to quickly and accurately find the asset object of interest in the asset data.

In some embodiments of the invention, the processor 402 executes computer readable instructions on the memory 401 to:

establishing an asset data model based on the asset information obtained by the scanner, the asset data model comprising one or more of the following information: name, number, status, brand, specification, model, asset number, equipment height, date of purchase, price, maintenance provider, rack in which the equipment is located.

In some embodiments, the processor 402 is communicatively coupled to the scanner via the I/O interface 403 or the network interface 404, and the scanner identifies information on the asset tag and sends the identified information to the processor 402 to facilitate execution of computer readable instructions on the memory 401 by the processor 402 to build the asset data model.

In some embodiments of the invention, the processor 402 executes computer readable instructions on the memory 401 to:

obtaining basic information of asset devices initiates a device on-line application, e.g., the processor 402 receives on-line device basic information input via the I/O interface 403, selects devices (not enabled, off-line), submits the application, completes the on-line application;

filtering out an idle U bit according to the height and the power of equipment, wherein the U bit represents the height occupied by the equipment in the cabinet;

communicating with a ledger administration system through an open API to cause the ledger administration system to preempt the filtered U bits;

if the online application is refused, the pre-occupied U-position is released; and if the on-line application passes the verification, the equipment is put on the shelf in the cabinet.

In some embodiments of the invention, the processor 402 executes computer readable instructions on the memory 401 to:

judging whether the equipment is put on shelf to the pre-occupied U position according to the information identified by the scanner,

if the equipment is not put on shelf to the pre-occupied U position, a prompt message of the put-on-shelf error is returned to the user,

and if the equipment is put on the shelf to the pre-occupied U position, enabling the equipment to be on line and updating the asset ledger information.

In some embodiments of the invention, the processor 402 executes computer readable instructions on the memory 401 to:

obtaining basic information of an asset device initiates a device off-line and off-line application,

after the off-line application is completed, the U position of the pre-off-line equipment is marked,

judging whether the information is consistent with the equipment information of the pre-shelve U bit according to the information identified by the scanner from the marked U bit,

if yes, marking the U bit as idle, updating the asset data model,

if not, a prompt message representing the off-shelf error is returned to the user.

In some embodiments, the steps, operations, or processes of the methods according to the foregoing embodiments are not necessarily performed by one computer device, but may be performed by cooperation of multiple different computer devices, where data may be interacted between the different computer devices through wired or wireless communication manners.

It will be appreciated by those skilled in the art that the foregoing disclosure is merely illustrative of the present invention and that no limitation on the scope of the claimed invention is intended, as defined by the appended claims and equivalents thereof.

Claims (10)

1. A machine room management system, comprising:

the information management module is used for recording basic information of the assets in the machine room, wherein the basic information comprises asset classification, model, specification, quantity, condition and position;

the flow management module is used for recording the information of each link of purchasing, receiving, using, maintaining and scrapping each asset so as to trace the asset;

the information identification module is used for locating the storage position and state of the asset by identifying the tag information on the asset; and

and the retrieval module is used for quickly and accurately searching the concerned asset object from the asset data.

2. The room management system of claim 1, wherein the information management module is configured to build an asset data model based on asset information obtained by the information identification module, the asset data model comprising one or more of the following information: name, number, status, brand, specification, model, asset number, equipment height, date of purchase, price, maintenance provider, rack in which the equipment is located.

3. The room management system of claim 2, wherein the information management module is further configured to:

obtaining basic information of an asset device initiates an on-line device on-line application,

filtering out an idle U bit according to the height and the power of equipment, wherein the U bit represents the height occupied by the equipment in the cabinet;

communicating with a ledger administration system through an open API to cause the ledger administration system to preempt the filtered U bits;

if the online application is refused, the pre-occupied U-position is released; and if the on-line application passes the verification, the equipment is put on the shelf in the cabinet.

4. The room management system of claim 3, wherein the information management module is further configured to:

judging whether the equipment is put on shelf to the pre-occupied U position according to the information identified by the information identification module,

if the equipment is not put on shelf to the pre-occupied U position, a prompt message of the put-on-shelf error is returned to the user,

and if the equipment is put on the shelf to the pre-occupied U position, enabling the equipment to be on line and updating the asset ledger information.

5. The room management system of claim 1, wherein the information management module is configured to:

obtaining basic information of an asset device initiates a device off-line and off-line application,

after the off-line application is completed, the U position of the pre-off-line equipment is marked,

judging whether the information is consistent with the equipment information of the pre-shelve U bit according to the information identified by the information identification module from the marked U bit,

if yes, marking the U bit as idle, updating the asset data model,

if not, a prompt message representing the off-shelf error is returned to the user.

6. A computer apparatus for machine room management comprising a memory and a processor, wherein the memory has stored thereon computer readable instructions that are executed by the processor to:

recording basic information of assets in a machine room, wherein the basic information comprises asset classification, model, specification, quantity, condition and position;

recording information of each link of purchasing, receiving, using, maintaining and scrapping each asset so as to trace the asset;

identifying tag information on the asset by the scanner to locate a storage location and status of the asset; and

the asset object of interest is quickly and accurately searched from the asset data.

7. The computer apparatus of claim 6, wherein the processor executes the computer-readable instructions to:

establishing an asset data model based on the asset information obtained by the scanner, the asset data model comprising one or more of the following information: name, number, status, brand, specification, model, asset number, equipment height, date of purchase, price, maintenance provider, rack in which the equipment is located.

8. The computer apparatus of claim 7, wherein the processor executes the computer-readable instructions to:

obtaining basic information of an asset device initiates an on-line device on-line application,

filtering out an idle U bit according to the height and the power of equipment, wherein the U bit represents the height occupied by the equipment in the cabinet;

communicating with a ledger administration system through an open API to cause the ledger administration system to preempt the filtered U bits;

if the online application is refused, the pre-occupied U-position is released; and if the on-line application passes the verification, the equipment is put on the shelf in the cabinet.

9. The computer apparatus of claim 8, wherein the processor executes the computer-readable instructions to:

judging whether the equipment is put on shelf to the pre-occupied U position according to the information identified by the scanner,

if the equipment is not put on shelf to the pre-occupied U position, a prompt message of the put-on-shelf error is returned to the user,

and if the equipment is put on the shelf to the pre-occupied U position, enabling the equipment to be on line and updating the asset ledger information.

10. The computer apparatus of claim 6, wherein the processor executes the computer-readable instructions to:

obtaining basic information of an asset device initiates a device off-line and off-line application,

after the off-line application is completed, the U position of the pre-off-line equipment is marked,

judging whether the information is consistent with the equipment information of the pre-shelve U bit according to the information identified by the scanner from the marked U bit,

if yes, marking the U bit as idle, updating the asset data model,

if not, a prompt message representing the off-shelf error is returned to the user.