CN117041089B - Equipment monitoring system and method for remote data center - Google Patents

Abstract

The invention relates to the technical field of remote equipment monitoring management, in particular to a remote data center-oriented equipment monitoring system and a remote data center-oriented equipment monitoring method, comprising the steps of carrying out centralized monitoring on all data centers in a data center topology network and carrying out remote response calling setting; performing evaluation of a first call stability index on each data center; according to the change condition of the calling sequence presented in the calling list of the corresponding data center when the other data centers are used as target data centers, the second calling stability index is evaluated for the data centers; and (3) carrying out state stability value evaluation on each data center by combining the first calling stability index and the second calling stability index of each data center, feeding back the data center with the evaluation result showing that the state stability value is smaller than the threshold value to a manager port, and prompting the manager to carry out performance detection or fault detection on gateway equipment of the corresponding data center.

Description

Equipment monitoring system and method for remote data center

Technical Field

The invention relates to the technical field of remote equipment monitoring management, in particular to a remote data center-oriented equipment monitoring system and a remote data center-oriented equipment monitoring method.

Background

In order to meet actual service demands, most enterprises often build data centers in different places, in the prior art, in order to realize effective routing, which communication link is required to be determined according to the area where a calling party is located and the data center where a service party is located, so once the gateway equipment of the data center is unavailable due to the problem of application of the data center where the service party is located, the calling party cannot access service resources of the data center where the service party is located, at this time, if the service resource of the data center can be accessed by switching the communication links to other available data centers and calling corresponding communication links, a certain help is provided for solving the technical problem that the calling party cannot access service resources of the data center where the service party is located when the problem of application of the current data center is located, meanwhile, if the calling situation and the access situation of each data center are combined on the basis, the monitoring of the gateway equipment of the data center is realized, labor force can be liberated to a certain extent, resources are saved, and efficiency is improved.

Disclosure of Invention

The invention aims to provide a device monitoring system and method for a remote data center, which are used for solving the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the method for monitoring the equipment facing the data center in different places comprises the following steps:

step S100: communication links are respectively built between data centers which contain the same service resources and are respectively arranged in different areas, the data centers are mutually communicated through the communication links to form a data center topology network, and all the data centers in the data center topology network are monitored in a centralized manner;

step S200: initiating any client to any data center in the data center topology network, marking the access request which is not responded by gateway equipment of any data center in unit time as a characteristic access request, and respectively setting the data center accessed by the targets of each characteristic access request as a target data center;

step S300: generating a data center calling list for a target data center corresponding to each characteristic access request according to the communication distribution condition presented among all data centers in the data center topology network, and performing remote response calling setting;

step S400: extracting all the remote response call history records existing in the topological network of the data center, and combing the remote response call distribution conditions of each data center; according to call sequence fluctuation presented by each data center when other data centers are used as target data centers, evaluating a first call stability index of each data center;

step S500: according to the change condition of the calling sequence presented in the calling list of the corresponding data center when the other data centers are used as target data centers, the second calling stability index is evaluated for the data centers;

step S600: and (3) carrying out state stability value evaluation on each data center by combining the first calling stability index and the second calling stability index of each data center, feeding back the data center with the evaluation result showing that the state stability value is smaller than the threshold value to a manager port, and prompting the manager to carry out performance detection or fault detection on gateway equipment of the corresponding data center.

Further, step S300 includes:

step S301: respectively sequencing all data centers except for corresponding target data centers in a data center topology network according to a preset priority strategy to generate a data center call list for responding to each feature access request in different places; the priority strategy comprises the steps that a monitoring terminal respectively carries out security evaluation on all data centers except for corresponding target data centers in a data center topology network, and priority ranking is carried out according to security evaluation results corresponding to the data centers; when the safety evaluation is carried out on each data center, acquiring network parameters of a communication link between each data center and a target data center, and obtaining a corresponding safety evaluation result of each data center according to a weight value preset for each network parameter; the network parameters comprise throughput, delay time, connection concurrency number, bit error rate and optical power loss; the security evaluation result shows that the higher the security is, the earlier the calling order is, and the smaller the corresponding serial number in the data center calling list is;

step S302: locking the data center with the highest priority in the data center calling list of each feature access request, setting a gateway device of the data center with the highest access priority through which the corresponding client calls a communication link between the data center with the highest priority and the corresponding target data center, and realizing that each feature access request accesses service resources of the corresponding target data center.

Further, step S400 includes:

step S401: acquiring a target data center corresponding to a corresponding history feature access request in any remote response call history record, and capturing a data center call list generated when remote response call is set for the target data center corresponding to the corresponding history feature access request from the any remote response call history record; respectively collecting the same remote response call histories of the target data center to obtain a plurality of remote response call histories;

step S402: respectively traversing information of a data center call list generated in different-place response call histories in a different-place response call history record set corresponding to any target data center; is arranged in all data center call lists in a certain remote response call history record set A corresponding to a certain target data center, and the highest call sequence presented by the certain data center is R ¹ The lowest calling order is R ² Wherein, a certain data center is any data center except a certain target data center in the data center topology network; calculating to obtain a call sequence fluctuation value beta=R presented by a certain data center in the off-site response call history record set A ² -R ¹ ；

According to the remote response call setting, each feature access request is subjected to security evaluation on each data center except the corresponding target data center in the data center topology network, and a data center call list is correspondingly generated; the ordering of each data center call list is affected by the security assessment results presented by the current data centers and is not fixed, depending on the variation of the network parameters in the current communication link; that is, the data center call lists generated at different feature access requests initiated to access the same data center tend to be not all the same; in combination with the above, if the call sequence fluctuation value presented by a certain data center in the remote response call history collection a is larger, it is described that in the data center call list generated by the feature access request for accessing a certain target data center, the larger the sequence fluctuation of recommending and calling a certain data center is, that is, the larger the fluctuation of the security evaluation result of a certain data center is;

step S403: respectively acquiring call sequence fluctuation values presented by any data center in a remote response call history record set of other data centers except any data center; calculating a first stability index α1=1/[ (β1+β2+, +βn)/n ] exhibited by any data center when responding to a call ex situ; wherein β1, β2, & gt, βn represent call order fluctuation values presented by any data center within the set of ex-situ response call history records of the 1 st, 2 nd, & gt, n data centers, respectively, other than any data center; the total number of data centers contained in the topological network of the data center is m, and n and m meet m=n+1.

Further, step S500 includes:

step S501: the method comprises the steps that the call sequence presented by a certain data center d is captured and obtained from all data center call lists in a remote response call history record set B corresponding to a target data center B, wherein the call sequence comprises { L1, L2, L3, & gt, L (k-1) and Lk }; wherein L1, L2, L3, & gt, L (k-1), lk represent the 1 st, 2 nd, 3 rd, k-1, k call orders, respectively, obtained from high to low according to call ordering; setting a descending order adjustment between every two adjacent calling orders, setting the higher calling order as x and the lower calling order as y in each descending order adjustment; respectively adjusting the descending order of each time, capturing all data centers with the calling order of x when the calling order of the data center d is y;

step S502: class sorting is carried out on all the data centers captured in all the descending order adjustment, so that the total number M of the data center classes is obtained, the total number M of the data centers contained in the data center topology network is set, and the call replacement index delta=M/M presented by the data center d in a certain remote response call history record set B is calculated;

step S503: calculating a second stability index α2=1/[ (δ1+δ2+ & gt δn)/n ] exhibited by any data center when responding to a call ex situ; wherein δ1, δ2, & δn represent call replacement indexes presented by any data center within the set of offsite response call history records of any data center except any data center, respectively;

in the process of calling the replacement index for each data center, the method is equivalent to measuring which data centers can occupy the original higher calling order instead of each data center, if the more the types of the data centers which can occupy the original higher calling order instead of each data center, the data centers are relatively less stable than other data centers, and are easy to replace, and the data centers are possibly unstable in a personal reason.

Further, step S600 includes:

step S601: respectively acquiring the total number W1 of access requests initiated to gateway equipment of each data center in a unit period, and respectively acquiring the total number W2 of access requests marked as characteristics in all the access requests initiated to gateway equipment of any data center in the unit period;

step S602: respectively extracting a first stable index alpha 1 and a second stable index alpha 2 which are presented by each data center when responding to a call in different places in a unit period; calculating a state stability value ψ= (W2/W1) ×α1×α2 of each data center in a unit period.

For better implementing the method, a device monitoring system is also provided, and the system comprises: the system comprises a data center supervision setting module, a remote response calling setting management module, a calling stability index evaluation management module, a state stability value evaluation management module and a device monitoring management module;

the data center supervision setting module is used for respectively setting up communication links between data centers which contain the same service resources and are respectively arranged in different areas, and the data centers are mutually communicated through the communication links to form a data center topology network, and all the data centers in the data center topology network are monitored in a centralized manner;

the remote response call setting management module is used for generating a data center call list for a target data center corresponding to each characteristic access request according to the communication distribution condition presented among all data centers in the data center topology network, and performing remote response call setting;

the call stability index evaluation management module is used for evaluating the call stability index of each data center according to call order fluctuation and call order change conditions presented by each data center when other data centers are used as target data centers;

the state stability value evaluation management module is used for carrying out state stability value evaluation on each data center by combining the first calling stability index and the second calling stability index of each data center;

the equipment monitoring management module is used for receiving the data in the state stability value evaluation management module, feeding back the data center with the evaluation result displaying state stability value smaller than the threshold value to the manager port, and prompting the manager to perform performance detection or fault detection on the gateway equipment of the corresponding data center.

Further, the remote response call setting management module comprises a request capturing marking unit and a call setting unit;

the request capturing and marking unit is used for initiating any client to any data center in the data center topological network, marking the access request which is not responded by gateway equipment of any data center in unit time as a characteristic access request, respectively setting the data center which is accessed by each characteristic access request as a target data center, and combing communication distribution conditions which are presented among all the data centers in the data center topological network;

and the call setting unit is used for generating a data center call list for the target data center corresponding to each characteristic access request and performing remote response call setting.

Further, the state stability value evaluation management module comprises a first call stability index evaluation unit and a second call stability index evaluation unit;

the first call stability index evaluation unit is used for evaluating the first call stability index of each data center according to call sequence fluctuation presented by each data center when other data centers are taken as target data centers;

and the second call stability index evaluation unit is used for evaluating the second call stability index of each data center according to the call sequence change condition presented in the call list of the corresponding data center when the other data centers are taken as target data centers.

Compared with the prior art, the invention has the following beneficial effects: the invention realizes access path switching among data centers by constructing the topology network of the data centers, so that a plurality of data centers can be mutually reserved, different places and multiple activities are realized, and the intelligent state monitoring of each gateway device is realized on the basis of realizing the different places and the multiple activities of the data centers.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a flow chart of a method for monitoring equipment for a data center in different places;

fig. 2 is a schematic structural diagram of an equipment monitoring system for a remote data center according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-2, the present invention provides the following technical solutions: the method for monitoring the equipment facing the data center in different places comprises the following steps:

step S100: communication links are respectively built between data centers which contain the same service resources and are respectively arranged in different areas, the data centers are mutually communicated through the communication links to form a data center topology network, and all the data centers in the data center topology network are monitored in a centralized manner;

step S200: initiating any client to any data center in the data center topology network, marking the access request which is not responded by gateway equipment of any data center in unit time as a characteristic access request, and respectively setting the data center accessed by the targets of each characteristic access request as a target data center;

step S300: generating a data center calling list for a target data center corresponding to each characteristic access request according to the communication distribution condition presented among all data centers in the data center topology network, and performing remote response calling setting;

wherein, step S300 includes:

step S301: respectively sequencing all data centers except for corresponding target data centers in a data center topology network according to a preset priority strategy to generate a data center call list for responding to each feature access request in different places; the priority strategy comprises the steps that a monitoring terminal respectively carries out security evaluation on all data centers except for corresponding target data centers in a data center topology network, and priority ranking is carried out according to security evaluation results corresponding to the data centers; when the safety evaluation is carried out on each data center, acquiring network parameters of a communication link between each data center and a target data center, and obtaining a corresponding safety evaluation result of each data center according to a weight value preset for each network parameter; the network parameters comprise throughput, delay time, connection concurrency number, bit error rate and optical power loss; the security evaluation result shows that the higher the security is, the earlier the calling order is, and the smaller the corresponding serial number in the data center calling list is;

step S302: locking the data center with the highest priority in a data center calling list of each feature access request, setting a gateway device of the data center with the highest access priority through which a corresponding client calls a communication link between the data center with the highest priority and a corresponding target data center, and realizing that each feature access request accesses service resources of the corresponding target data center;

step S400: extracting all the remote response call history records existing in the topological network of the data center, and combing the remote response call distribution conditions of each data center; according to call sequence fluctuation presented by each data center when other data centers are used as target data centers, evaluating a first call stability index of each data center;

wherein, step S400 includes:

step S401: acquiring a target data center corresponding to a corresponding history feature access request in any remote response call history record, and capturing a data center call list generated when remote response call is set for the target data center corresponding to the corresponding history feature access request from the any remote response call history record; respectively collecting the same remote response call histories of the target data center to obtain a plurality of remote response call histories;

step S402: respectively traversing information of a data center call list generated in different-place response call histories in a different-place response call history record set corresponding to any target data center; is arranged in all data center call lists in a certain remote response call history record set A corresponding to a certain target data center, and the highest call sequence presented by the certain data center is R ¹ The lowest calling order is R ² Wherein, a certain data center is a data center topology network except for certain target dataAny data center outside the heart; calculating to obtain a call sequence fluctuation value beta=R presented by a certain data center in the off-site response call history record set A ² -R ¹ ；

Step S403: respectively acquiring call sequence fluctuation values presented by any data center in a remote response call history record set of other data centers except any data center; calculating a first stability index α1=1/[ (β1+β2+, +βn)/n ] exhibited by any data center when responding to a call ex situ; wherein β1, β2, & gt, βn represent call order fluctuation values presented by any data center within the set of ex-situ response call history records of the 1 st, 2 nd, & gt, n data centers, respectively, other than any data center; the total number of data centers contained in the topological network of the data centers is m, and n and m meet m=n+1;

step S500: according to the change condition of the calling sequence presented in the calling list of the corresponding data center when the other data centers are used as target data centers, the second calling stability index is evaluated for the data centers;

wherein, step S500 includes:

step S501: the method comprises the steps that the call sequence presented by a certain data center d is captured and obtained from all data center call lists in a remote response call history record set B corresponding to a target data center B, wherein the call sequence comprises { L1, L2, L3, & gt, L (k-1) and Lk }; wherein L1, L2, L3, & gt, L (k-1), lk represent the 1 st, 2 nd, 3 rd, k-1, k call orders, respectively, obtained from high to low according to call ordering; setting a descending order adjustment between every two adjacent calling orders, setting the higher calling order as x and the lower calling order as y in each descending order adjustment; respectively adjusting the descending order of each time, capturing all data centers with the calling order of x when the calling order of the data center d is y;

for example, the set of ex-place response call histories B corresponding to the target data center B includes { ex-place response call history 1, ex-place response call history 2, ex-place response call history 3};

the data center call list in the remote response call history record 1 is { data center a, data center c, data center d, data center e };

the data center call list in the remote response call history record 2 is { data center c, data center a, data center d, data center e };

the data center call list in the remote response call history record 3 is { data center d, data center a, data center e, data center c };

in summary, the call order presented from high to low in call order in the offsite response call history set B for data center a includes {1,2}; for the data center a, only one descending adjustment exists, x=1 and y=2 are set, and when the calling order of the data center a is y=2, the data center with the calling order of x=1 comprises a data center d and a data center c;

the call order presented from high to low according to the call order in the offsite response call history record set B for the data center c comprises {1,2,4}; the data center c is subjected to two-time descending adjustment of 1-2 and 2-4;

in the descending order adjustment 1- > 2, x=1 and y=2 are set, and when the calling order of the data center c is y=2, only the data center a located in the data center with the calling order of x=1 appears;

in the descending order adjustment 2- > 4, let x=2 and y=4, when the calling order of the data center c is y=4, only the data center a exists in the data center with the calling order of x=2;

the call order presented from high to low according to the call order in the offsite response call history record set B for the data center d comprises {1,3}; adjusting 1 to 3 in a descending order for the data center d;

in the descending order adjustment 1- > 3, let x=1 and y=3, when the calling order of the data center d is y=3, the data center located in the calling order of x=1 comprises a data center a and a data center c;

the call order presented from high to low according to the call order in the offsite response call history record set B for the data center e comprises {3,4}; adjusting 3 to 4 in a descending order aiming at the data center e;

in the descending order adjustment 3 to 4, x=3 and y=4 are set, and when the calling order of the data center e is y=4, only the data center d positioned in the data center with the calling order of x=3 appears;

step S502: class sorting is carried out on all the data centers captured in all the descending order adjustment, so that the total number M of the data center classes is obtained, the total number M of the data centers contained in the data center topology network is set, and the call replacement index delta=M/M presented by the data center d in a certain remote response call history record set B is calculated;

step S503: calculating a second stability index α2=1/[ (δ1+δ2+ & gt δn)/n ] exhibited by any data center when responding to a call ex situ; wherein δ1, δ2, & δn represent call replacement indexes presented by any data center within the set of offsite response call history records of any data center except any data center, respectively;

step S600: the method comprises the steps of carrying out state stability value evaluation on each data center by combining a first call stability index and a second call stability index of each data center, feeding back the data center with the evaluation result showing that the state stability value is smaller than a threshold value to a manager port, and prompting a manager to carry out performance detection or fault investigation on gateway equipment of the corresponding data center;

wherein, step S600 includes:

step S601: respectively acquiring the total number W1 of access requests initiated to gateway equipment of each data center in a unit period, and respectively acquiring the total number W2 of access requests marked as characteristics in all the access requests initiated to gateway equipment of any data center in the unit period;

step S602: respectively extracting a first stable index alpha 1 and a second stable index alpha 2 which are presented by each data center when responding to a call in different places in a unit period; calculating a state stability value ψ= (W2/W1) ×α1×α2 of each data center in a unit period.

For better implementing the method, a device monitoring system is also provided, and the system comprises: the system comprises a data center supervision setting module, a remote response calling setting management module, a calling stability index evaluation management module, a state stability value evaluation management module and a device monitoring management module;

the data center supervision setting module is used for respectively setting up communication links between data centers which contain the same service resources and are respectively arranged in different areas, and the data centers are mutually communicated through the communication links to form a data center topology network, and all the data centers in the data center topology network are monitored in a centralized manner;

the remote response call setting management module is used for generating a data center call list for a target data center corresponding to each characteristic access request according to the communication distribution condition presented among all data centers in the data center topology network, and performing remote response call setting;

the remote response call setting management module comprises a request capturing marking unit and a call setting unit;

the request capturing and marking unit is used for initiating any client to any data center in the data center topological network, marking the access request which is not responded by gateway equipment of any data center in unit time as a characteristic access request, respectively setting the data center which is accessed by each characteristic access request as a target data center, and combing communication distribution conditions which are presented among all the data centers in the data center topological network;

the call setting unit is used for generating a data center call list for the target data center corresponding to each characteristic access request and performing remote response call setting;

the call stability index evaluation management module is used for evaluating the call stability index of each data center according to call order fluctuation and call order change conditions presented by each data center when other data centers are used as target data centers;

the state stability value evaluation management module is used for carrying out state stability value evaluation on each data center by combining the first calling stability index and the second calling stability index of each data center;

the state stability value evaluation management module comprises a first call stability index evaluation unit and a second call stability index evaluation unit;

the first call stability index evaluation unit is used for evaluating the first call stability index of each data center according to call sequence fluctuation presented by each data center when other data centers are taken as target data centers;

the second call stability index evaluation unit is used for evaluating the second call stability index of each data center according to the call sequence change condition presented in the call list of the corresponding data center when the other data centers are used as target data centers;

the equipment monitoring management module is used for receiving the data in the state stability value evaluation management module, feeding back the data center with the evaluation result displaying state stability value smaller than the threshold value to the manager port, and prompting the manager to perform performance detection or fault detection on the gateway equipment of the corresponding data center.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A method for monitoring equipment oriented to a data center in a different place, the method comprising:

step S100: communication links are respectively built between data centers which contain the same service resources and are respectively arranged in different areas, the data centers are mutually communicated through the communication links to form a data center topology network, and all the data centers in the data center topology network are monitored in a centralized manner;

step S200: initiating any client to any data center in the data center topology network, marking an access request which is not responded by gateway equipment of the any data center in unit time as a characteristic access request, and respectively setting the data center accessed by each characteristic access request as a target data center;

step S300: generating a data center calling list for a target data center corresponding to each characteristic access request according to the communication distribution condition presented among all data centers in the data center topology network, and performing remote response calling setting;

step S400: extracting all the remote response call history records existing in the topological network of the data center, and combing the remote response call distribution conditions of each data center; according to call sequence fluctuation presented by each data center when other data centers are used as target data centers, evaluating a first call stability index of each data center;

step S500: according to the change condition of the calling sequence presented in the calling list of the corresponding data center when the other data centers are used as target data centers, the second calling stability index is evaluated for the data centers;

step S600: the method comprises the steps of carrying out state stability value evaluation on each data center by combining a first call stability index and a second call stability index of each data center, feeding back the data center with the evaluation result showing that the state stability value is smaller than a threshold value to a manager port, and prompting a manager to carry out performance detection or fault investigation on gateway equipment of the corresponding data center;

the step S300 includes:

step S301: respectively sequencing all data centers except for corresponding target data centers in a data center topology network according to a preset priority strategy to generate a data center call list for responding to each feature access request in different places; the priority strategy comprises the steps that a monitoring terminal respectively carries out security evaluation on all data centers except for corresponding target data centers in a data center topological network, and priority ranking is carried out according to security evaluation results corresponding to the data centers;

step S302: locking the data center with the highest priority in a data center calling list of each feature access request, setting a gateway device of the data center with the highest access priority through which a corresponding client calls a communication link between the data center with the highest priority and a corresponding target data center, and realizing that each feature access request accesses service resources of the corresponding target data center.

2. The method for monitoring equipment of a data center in different places according to claim 1, wherein the step S400 includes:

step S401: acquiring a target data center corresponding to a corresponding history feature access request in any remote response call history record, and capturing a data center call list generated when remote response call is set for the target data center corresponding to the corresponding history feature access request from the any remote response call history record; respectively collecting the same remote response call histories of the target data center to obtain a plurality of remote response call histories;

step S402: respectively traversing information of a data center call list generated in different-place response call histories in a different-place response call history record set corresponding to any target data center; all of the call history record sets A corresponding to a certain target data centerIn the data center call list, the highest call order presented by a certain data center is R ¹ The lowest calling order is R ² Wherein, the certain data center is any data center except the certain target data center in the data center topology network; calculating to obtain a call sequence fluctuation value beta=R presented by a certain data center in the off-site response call history record set A ² -R ¹ ；

Step S403: respectively acquiring call sequence fluctuation values presented by any data center in a remote response call history record set of other data centers except the any data center; calculating a first stability index α1=1/[ (β1+β2+, +βn)/n ] exhibited by any data center when responding to a call ex situ; wherein β1, β2, & gt, βn represent call order fluctuation values presented by any data center within the set of ex-situ response call history records of the 1 st, 2 nd, & gt, n data centers, respectively, other than any data center; the total number of data centers contained in the topological network of the data center is m, and n and m meet m=n+1.

3. The method for monitoring equipment of a data center in different places according to claim 2, wherein the step S500 includes:

step S501: the method comprises the steps that the call sequence presented by a certain data center d is captured and obtained from all data center call lists in a remote response call history record set B corresponding to a target data center B, wherein the call sequence comprises { L1, L2, L3, & gt, L (k-1) and Lk }; wherein L1, L2, L3, & gt, L (k-1), lk represent the 1 st, 2 nd, 3 rd, k-1, k call orders, respectively, obtained from high to low according to call ordering; setting a descending order adjustment between every two adjacent calling orders, setting the higher calling order as x and the lower calling order as y in each descending order adjustment; respectively adjusting the descending order of each time, capturing all data centers with the calling order of x when the calling order of the data center d is y;

step S502: class sorting is carried out on all the data centers captured in all the descending order adjustment, so that the total number M of the data center classes is obtained, the total number M of the data centers contained in the data center topology network is set, and the call replacement index delta=M/M presented by the data center d in a certain remote response call history record set B is calculated;

step S503: calculating a second stability index α2=1/[ (δ1+δ2+ & gt δn)/n ] exhibited by any data center when responding to a call ex situ; wherein δ1, δ2,..δn represent call replacement indices presented by any data center within the set of offsite response call history records of 1 st, 2 nd,., n data centers, respectively, other than any data center.

4. A method for monitoring equipment in a data center in a different place according to claim 3, wherein the step S600 includes:

step S601: respectively acquiring the total number W1 of access requests initiated to gateway equipment of each data center in a unit period, and respectively acquiring the total number W2 of access requests marked as characteristics in all the access requests initiated to gateway equipment of any data center in the unit period;

step S602: respectively extracting a first stable index alpha 1 and a second stable index alpha 2 which are presented by each data center when responding to a call in different places in a unit period; calculating a state stability value ψ= (W2/W1) ×α1×α2 of each data center in a unit period.

5. An equipment monitoring system for performing an off-site data center oriented equipment monitoring method as set forth in any one of claims 1-4, the system comprising: the system comprises a data center supervision setting module, a remote response calling setting management module, a calling stability index evaluation management module, a state stability value evaluation management module and a device monitoring management module;

the data center supervision setting module is used for respectively constructing communication links between data centers which contain the same service resources and are respectively arranged in different areas, and the data centers are mutually communicated through the communication links to form a data center topology network, and all the data centers in the data center topology network are monitored in a centralized manner;

the remote response call setting management module is used for generating a data center call list for a target data center corresponding to each characteristic access request according to the communication distribution condition presented among all data centers in the data center topology network, and performing remote response call setting;

the call stability index evaluation management module is used for evaluating the call stability index of each data center according to call order fluctuation and call order change conditions presented by each data center when other data centers are used as target data centers;

the state stability value evaluation management module is used for evaluating the state stability value of each data center by combining the first calling stability index and the second calling stability index of each data center;

the equipment monitoring management module is used for receiving the data in the state stability value evaluation management module, feeding back the data center with the evaluation result displaying the state stability value smaller than the threshold value to the manager port, and prompting the manager to perform performance detection or fault investigation on the gateway equipment of the corresponding data center.

6. The device monitoring system of claim 5, wherein the off-site response call setup management module comprises a request capture tagging unit, a call setup unit;

the request capturing and marking unit is used for initiating any client to any data center in the data center topological network, marking the access request which is not responded in unit time by gateway equipment of the any data center as a characteristic access request, respectively setting the data center which is accessed by each characteristic access request as a target data center, and combing communication distribution conditions which are presented among the data centers in the data center topological network;

the call setting unit is used for generating a data center call list for the target data center corresponding to each characteristic access request and performing remote response call setting.

7. The device monitoring system of claim 5, wherein the state stability value evaluation management module comprises a first call stability index evaluation unit, a second call stability index evaluation unit;

the first call stability index evaluation unit is used for evaluating the first call stability index of each data center according to call sequence fluctuation presented by each data center when other data centers are taken as target data centers;

the second call stability index evaluation unit is configured to evaluate the second call stability index for each data center according to the call order change condition presented in the call list of the corresponding data center when each data center is used as the target data center.