TWI292091B - Computer performance evaluator and application method thereof - Google Patents

Description

1292091 IX. Description of the Invention [Technical Field of the Invention] The present invention relates to a computer performance evaluator (Performance Evaluates; PEV) and an application method thereof, and particularly relates to a method for detecting computer performance abnormality and predicting failure time (Time to The computer performance estimator of the ability to fail and its application method. [Prior Art] With the advancement of technology, information application systems play an important role for enterprises or individual users. Once the reliability of information application systems is poor, users will suffer serious losses. In recent years, the phenomenon of software aging has been proposed: information application systems suffer from performance degradation and failure due to the exhaustion of key resources. In the research of predicting information system failure due to "Software Aging", because the information system will be different due to the execution environment and application, the Measure-based method is proposed by several scholars, through the collected system parameters and according to the parameters. The trend to predict how long an application's resources will be exhausted. Such as Trivedi et al ("A Measurement-based

Model for Estimation of Resource Exhaustion in Operational Software Systems,” Proc. Of ISSRE 1999 Boca Raton, FL, Nov. 1999.) Use the no-parent method to calculate the resource consumption per unit time and estimate the resource consumption rate. Predicting the expiration time. However, this documentary technique does not distinguish the performance of the controlled computer into different states, and must constantly calculate the system failure time, and the 5 1292091 protocol is set up in SNMP (Simple Netw〇rk Management).

Protocol). The biggest advantage of SNMp is simplicity, because the operators are easy to install, and the network management platform and management personnel are also easy to use. The biggest disadvantage of SNMp is also simple, because it is too simple to make complex and large network systems aware of the application, no Efficiency, and the security of the defense is too simple, so that the network components and equipment of the enterprise are not safe. The new version of SNMp, called snmPv2, not only makes _ network management work more efficient, but also focuses on improving the lack of SNMP in network security. However, since snmPv2 has changed a lot and is too complicated, it cannot be fully accepted and widely used by many network equipment manufacturers, so that only a few network devices and components have all the functions of SNMPv2. Existing production. In terms of port technology, Sun Corporation's Solaris operating system proposes a Predictive Self-Healing (PSH) technology in a set of operating systems. The architecture of this technology includes 2 components. Solaris Fault Manager and Solaris Service Manager. This technology has the ability to automatically restart application services, as well as predictive self-healing for CPU, memory, and 1/〇 bus combination components. However, this technology only supports the Sun Solaris operating system, and the detector and the measured object exist in the same environment, which will cause the "player and referee" doubts. In the existing patent application, the "Retargetable computer design system" patent (US Patent Monthly 1J case ,6,7 7 2,1 〇6 5 tiger) used in computer performance simulation proposes a set of computer 1292991 combined with analog technology. Performance prediction method. This method sets the parameters to the simulator for simulation by collecting relevant performance parameters of the computer to be evaluated to understand the performance of the current computer. The Universal Service Management Department and the First Patent of the Republic of China Patent No. 573266, invented a Service W Scheme (SMS) that is architected in the Jini environment and uses Design • by Contract technology. The SMS contains a General purpose evaluator (1) café (EValUat〇r, GEV) to detect whether the execution of the Service is abnormal. In addition to detecting whether the Service is crashing (Crash), it also includes transmitting a wrong message or transmitting a message. Anomaly detection to the wrong node, etc., and anomaly detection for the performance degradation of the service. In addition, the universal evaluator has a backup function, which can back up all execution status and parameters of the service to the database, such as When the Service itself is out of order, these normal backup data will be taken out by the Client and transferred to the selected backup service, and the unfinished tasks will continue. However, φ GEV only uses the simple 3 〇: test to determine A single state of anomaly. Because the type of parameters required to diagnose a system's performance is not a single parameter, it can be multi-dimensional (Mul ti-Dimensional Vectors), therefore, the system performance evaluation capability of this general-purpose evaluator is not enough. A patent for the "Prevention and Maintenance Time Prediction Method" for semiconductor process equipment (Republic of China Patent No. 533352) The method for predicting the maintenance time of the machine. The first step of this method is to receive the historical data of the semiconductor process equipment, and then to retrieve the historical data set of the 1292891 analysis. The complex data set contains one parameter and one Time, then a regression line of the data set is obtained by the least square approximation method. For different parameter groups, 'regression lines will be estimated. Finally, based on these regression lines, the machine can be used to prevent maintenance time. This method uses multiple parameters. To predict the maintenance time of the machine, but the method of individual analysis and parameters, there is no further application of multivariate analysis method will not analyze the same parameter to produce a unified output. • Applied to semiconductor fabs Performance of the "Semiconductor Fab Performance Index Prediction System" patent (Zhong Huamin) National Patent No. 459269, based on queuing theory, includes a System Analyzer Module and a Predictor M〇dule, which analyzes each machine in the plant. Group wafers • Arrival pattern and processing pattern (Service • Pattern), and accurately predict various performance indicators including product processing time. This system features the machine into two categories according to the operating characteristics, respectively Modeling the appropriate queuing theory models for various types of machines in Lu, taking into account the characteristics of different machine unavailability events and wafer priority levels. The system analysis module of this invention is an "Empirical Distribution Analysis, and Goodness-of-fit Test" approach. However, this patent cannot predict the state of the computer that has failed due to resource exhaustion. In addition, the Microsoft Cluster Service (MSCS) architecture of fault-tolerant Microsoft Cluster Service (MSCS) proposed by Microsoft Corporation of the United States is a solution for comprehensive fault-tolerant management of platform resources. It not only manages the fault tolerance of the application, but also manages the magnetic 8 8 1292091 drives, printers, and other soft systems developed by Microsoft, such as SQL Server 2000 and Exchange Server 2000. When MSCS's node detection mechanism is applied to a more complex cluster environment, 'all its nodes will periodically send heartbeats to notify other nodes of the message "I am alive !!," The load is heavy. • Please refer to Figure 5A, which shows the three-tier system architecture of the application cluster service φ (ApPllcatl〇n Cluster Service; APCS). This three-tier system architecture is based on the customer. The terminal, the application terminal, and the database end are composed. As shown in FIG. 5A, in the architecture of the conventional cluster service, the controlled node 7〇_74 in the cluster environment is divided into a master node (Master Node; 70) and the secondary node (slave N〇de; such as 71_74) two roles 'the master node 70 will use the heartbeat mechanism to detect the secondary node 7} _74. Has it failed? And if the primary node 70 fails, the m secondary node 71_74 The new master node will be automatically re-coordinated to replace the failed node: This conventional cluster service technology only sends the heartbeat heart to the secondary node to relieve the network. ^ ^ ^ ^ ^ ^ ^ ^ and the application of the knowledge Cong Falcon Service u soft cluster service Fortunately, Qian services is hereby set 4 White > another controlled node detection due to resource consumption cover caused performance in the month when the dagger, "the month, power, and the ability to predict time to failure. Therefore, it is very urgent to develop a 1 用 1 1 δ δ δ 效能 效能 效能 效能 效能 效能 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The performance of the computer from the time of the skin of the squatting state of the squad... "The state of the state to the state of the failure state, the 瞽 σ detection node anomaly and the prediction failure" 'help cluster service software determines the appropriate node transfer time 9 1292091 Machine and strategy, and thus improve the reliability of the software system. SUMMARY OF THE INVENTION The application method of the present invention, the new architecture is to provide a computer performance estimator and a device for predicting the failure of the computer due to the secret The basin--the purpose of providing a computer-efficiency evaluation time method to provide information on the abnormality of the debt measurement node and the prediction of computer misconduct, to help the cluster service software determine the appropriate time, time and strategy, and thus improve the software system. Reliability 51.: According to the above invention (4), a computer performance evaluation is provided to detect a computer factor located in at least one controlled node. Abnormal performance caused by exhausted resources. According to a preferred embodiment of the present invention, the computer performance estimator includes at least one data collection module, a detection module, and a prediction module. Interconnecting with the controlled node to collect a plurality of system resource parameters of the controlled node. The detecting module estimates the performance status of the controlled node according to the system resource parameters, and generates a status indicator for each controlled node. When the detection module determines that the performance status of one of the controlled nodes is an abnormal state based on the status indicator, the prediction module is activated to perform a prediction step to predict how long the controlled node will be after Failure due to depletion of resources, wherein the prediction step is based on, for example, a software aging phenomenon with a strict reduction (Monotonic-Decay) characteristic and a prediction method of mean time to failure (MTTF). The above object provides a computer performance evaluator group (G_p) 'where there are a plurality of 丛 = preferred embodiments of the present invention In the shore method of the computer performance estimator, first, a computer performance evaluator is provided, wherein the computer evaluator includes at least a plurality of data collector modules, (4) a module rent, and a prediction module. , respectively, installing the data collector module to the controlled node. Then, the data collection module separately collects a plurality of system resource parameters of the controlled node, and transmits the system resource parameters to the 模组j module for analysis and judgment, and each - A controlled node generates a status indicator. Then, when the predicate module determines that the performance status of one of the controlled nodes is a binormal state based on the status indicator ', the prediction module is activated to perform the prediction step. , in advance = how long after this controlled node will expire due to running out of resources, to perform the section = replacement in time. • Therefore, the application of the present invention can effectively and timely predict the failure of the computer due to resource exhaustion; it can effectively provide the ability to predict the time of failure of the computer to help the cluster service software determine the appropriate node transfer timing and strategy. Improve the reliability of the software system. [Embodiment] The problem to be solved by the computer performance evaluator proposed by the present invention is how to predict that the controlled node (computer) is inefficient or even crashed due to resource exhaustion. In order to achieve the foreseeable realm, the present invention proposes a system resource reference architecture combining detection mode and prediction point, which can immediately collect the performance state of the remaining two T points of the controlled node prediction controlled node and further铢可〒, the expiration time.

Please refer to Figure 1 for a schematic diagram of the architecture of the A-A system. The computer performance evaluator of the present invention includes a plurality of 鼻", groups 21 and 22, a detection module 30, and a prediction module 5 〇. 2 1 and 22 are installed in controlled nodes 7 1 and 72 respectively, which call the operating system application interface (Operating System API; os

^ # 82 collects the system resource parameters of the node, and transmits the system resource parameters to the detection module through the CORBA and the hole infrastructure 91 and 92. - One of the features of the present invention is that the process of exposing a controlled node to failure is defined as a number of states. Please refer to FIG. 2, which is a schematic diagram showing the state of the controlled node of the present invention. The controlled node of the present invention comprises five states, namely, an initialization state, an active state, an inactive state, a "hanging (k) state, and a dead state, wherein the controlled node is just starting. When the application of the controlled node is started, the control point enters the active state. Under normal conditions, the controlled node is in the active state; when the application is suspended, the application is suspended. The control node enters the inactive sorrow, and when the application restarts, it returns to the active state; when the available resources of the controlled node are abnormal, for example, the software aging, the controlled point will be active. Entering the abnormal state, and when the available resources of the controlled node return to normal, the controlled node can return to the active state; when the available resources of the controlled node are exhausted, the controlled node will enter the failed state (ie, Therefore, the main function of the detection module of the present invention is to detect whether the 12 1292091 control node has entered an abnormal state. Referring to FIG. 3, the detection mode of the present invention is illustrated. The detection module of the present invention is a fuzzy detection module, which estimates a state indicator according to some key resource effects - and according to the indicator Judging the state of the controlled node _ currently. The fuzzy logic detection module includes at least: a screening device (not drawn), a fuzzifier 33, a fuzzy rule base 37, a deduction engine 35, and a defuzzifier (Defuzzifier) 39. The screening device is used to perform grouping and screening of the data collection modules and the collected system resource parameters, and select a plurality of key parameters. First, refer to Micr〇s〇ft Wind〇ws 2〇 〇〇Technical information, system resource parameters for observing conditions related to computer performance, including evaluation memory and cache memory usage, analysis processor activity, auditing and tuning hard Disk performance, - and monitoring network performance, etc. In order to reduce the complexity of computer performance monitoring problems, the present invention can only consider the software ageing The resource parameters of the system, however, the present invention may also consider other system resource parameters related to computer performance, so the invention is not limited thereto. Software aging is caused by the depletion of key resources, causing node performance to decay or even fail. The main factors related to software aging are the processor and the memory. According to the Microsoft technical report, the system resource parameters related to the processor, memory, and virtual memory, that is, the processor time, the priority time (Privileged Time) ), Non-paged Memory Pool Bytes, Available Mbytes, Working Set, Pages/sec, Paged/sec, Non-paged Memory Pool Configuration ( P〇〇1 Nonpaged 13 1292091

Allocations), paged memory pool bytes (p00i paged Bytes), paged input per second (Pages Input/sec), output per page (pages Output/sec), etc., and multivariate Analysis of the factors of life " name method to parameterize the action of grouping and screening. Finally, the screening device selects four key parameters': Processor Time, Privileged Time, unpaged memory pool bytes (p0〇i Nonpaged - Bytes), memory usable (Available) Mbytes) is used as input data for the fuzzer 33 φ. In these input data, the processor time and priority time are mainly used to check whether the processor performance has reached the bottleneck; the unpaged memory pool configuration is used to determine whether there is a serious memory Leak condition; and the memory The usable amount is used to determine whether the remaining main memory is insufficient. The fuzzer 33 assigns a set of input data to the key parameter _ 31 (XProcessor-Time, XPrivileged-Time, XPool-Nonpaged-Bytes, XAvailable-Mbytes) according to the fuzzy rule base 37 (// (Processor) A Time), "Privileged-Time", // (Pool-Nonpaged-Bytes), u (Available-Mbytes), are input to the inference engine 35. The inference engine 35 then infers whether or not based on the input data of the group. The key parameters are close to the gate value, and an output value (State_Index) is generated and input to the defuzzifier 39. Next, the defuzzifier 39 converts the inferred output value into a state indicator 32 (YState-Index) to Determine the status of the current controlled node. The value of the status indicator 32 is usually between 〇1, and if the status indicator 32 is between 0.3 and 1, it is normal; if the status indicator is 32 14 1292091 Between 〇 and 3, it is an abnormal state. As shown in Figure 1, when the detection module 30 determines the state of a controlled node - the abnormal state of the evil 2, the prediction module will be started. 50 to predict this controlled node is more After the time, it will be invalidated due to depletion of resources. If the software aging phenomenon has strict-decreasing characteristics, the prediction method of the mean time to failure (MTTF) is explained as follows. Referring to FIG. 4, the predicted failure time of the present invention is illustrated. The evaluation curve of (Μττρ). In the software aging system that meets the strict degressive type, there are 3 parameters related to the predicted mean time to failure (MTTF) curve, and the corresponding ^ and less of the curve respectively represent the time and the resources left by the system. If there are enough sample numbers (7), less /==1, 2,...,w, and simple linear regression can be used to judge the relationship between less and /, then a simple linear model can be established, and the estimation formula is as follows:

AA where, 2, 3,··, ί>,-View-〇/=1__ (1) ±yt β〇-y-βχ'ty ~ , n , and n The prediction interval (Predicti〇n(4)(10)) The concept of the 2nd and 3rd curves in Fig. 4··· and & respectively represent the lower and upper bounds of the evaluation value. If the detection module detects the time of the node amp & and enters the abnormal state, the average failure time of the 彳 (European W) can be output by the following =:. The hypothesis does not show the remaining resources when entering the failure state, the observation "4th and the application formula (1) and the use of correction ((3) plus μ (four) of the inverse regression method, then W, W and ' can be respectively from ☆ and I The outer set, and the parent set of D and Ru are derived. Therefore, the most likely average is 15 1292091 Dead Time (MTTF) value: Hu Jing, Ping 4 · Lower limit of 4^ dry time to failure (MTTF): ;: the upper limit value of the average failure one), above, the present invention provides a method, the application error of the juice specific evaluator is applied to the application cluster service, applicable to:::= In the plex, there are a number of (10) $ At Q # different machine estimator and application cluster services in the environment, and the computer 2: evaluator replaces the function of the master node shown in Figure 5A. Become a role such as the main point and the secondary node. In the cluster ring #自即点6 * Install and execute the computer performance evaluation 11

After the Hr group, there is no need to know the application cluster service r to detect the heartbeat mechanism of the node failure. Estimated number, 5β map's edge shows the integrated computer performance evaluation of the present invention - a three-layer system architecture diagram using the knowledge cluster service, the basin 70=computer performance evaluator 10 installed in the cluster environment One of the control nodes is quite productive (for example: 7〇) and then the data collection modules 21-24 are respectively clustered with other controlled nodes in the soil (for example, 71_74). The controlled node (for example, through the data collection module 21_24, its system resource parameter = to the computer performance evaluator to analyze and judge, in order to know whether there is: the control node whose performance is abnormal and has to be replaced, and is subject to If the control node is really invalid, it can be replaced, so that the service can be uninterrupted. The invention of the computer performance estimator is universal, and can be applied to various information technology industries such as the semiconductor Xiao TFT_LCD industry, etc. 16 1292091 If the integration of the computer performance evaluator of the present invention and the application clustering service is applied to the manufacturing execution system of the semiconductor manufacturing factory, the proper rate and reliability of the manufacturing execution system can be improved. The following is performed using the semiconductor manufacturing factory. The present invention is described by taking the example of the Equipment Manager (EM) and the WIP Tracking (WT) module. 凊 弟 6 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图And integrate the architecture diagram of the manufacturing execution system with the ability of the valley fault, in which the manufacturing execution system includes the machine Two application modules, such as administrator (EM) and product tracking (WT), em module and WT module are placed in two application servers 83 and 84, namely EM1 module and The WT2 module is placed in the application server 83 at the same time; the EM2 module and the WT1 module are placed in the application server 84 at the same time, wherein the EM1 module is in the working state 'EM2 module is the backup of the EM1 module The WT1 module is in the working state, the WT2 module is the backup of the WT1 module, and the CORBA ORB is used as the basic communication architecture to exchange information between the modules. The EMi • module manages multiple parts at the same time. The main function of the machine 86 is to monitor the processing behavior and status of the machine 86. The capabilities of the machine 86 include machine setting and remote remote control σ operation, machine dispatching, processing (recipe) management, and collecting machine status. And the warnings of data and machine errors; and the main work of the WT module is to track and manage the work in progress of the whole factory. It is necessary to record how many products are currently processed in the factory, and it is necessary to record all current WIP products. Or Track 〇ut status, etc. Application server 83 and The cluster service software ApCSl is installed to detect the status of the EM1 module and the WT2 module; the server 84 is installed and the cluster service software APCS2 is installed to detect the state of the EM2 module and the wn 17 1292091 module. The reliability requirements of the evaluator must approach 1%%. Therefore, the computer performance evaluator of this application uses mapping (Mirro〇 architecture to improve reliability), that is, two computer performance evaluation evaluators using mutual mapping. And 14, to the debt test application servers 83 and 84. As shown in the dotted line block diagram of FIG. 6, the application server 83 and the application server periodically report the computer performance evaluation value to the computer performance evaluator 12 or 14 (step • (10)) 'computer performance evaluator 12 Or 14 according to the performance detection value to determine whether there is an application 祠 service $ has entered an abnormal state. If it is determined that a certain application server abnormality has entered an abnormal state, the application server that immediately notifies the abnormality executes the application error post-transfer mechanism (step 11). After the abnormal application server receives the notification to the computer performance evaluator 12 or 14, it will close the executing application (such as EM1*WT1) and notify another application server to start the backup application (such as EM2 or WT2). The following further describes the operation of the Computer Performance Evaluator (PEV) plus Application Cluster Service (APCS) system as shown in Figure 6: Under normal conditions, the EM1 module and the WT1 module are respectively in the application server. 83 (node 1) and application server 84 (node 2) are executed (ie, in operation). When the right APCS2 detects that the WT1 module is invalid, APCS2 will notify APCS1 to evoke the WT2 module to restore the service provided by the WT1 module. In addition, if the computer performance evaluator 12 or 14 detects that the node 1 is in an abnormal state and predicts the failure time of the node 1, at this time, the computer performance evaluator 12 or 14 notifies the APCS2 to the EM2 module, and the node 1 is completely The service originally provided by node 1 (ie, EM1 module) is taken over before failure. In this way, 18 1292091 ensures that the service of the machine manager (EM) is continuously provided. It can be seen from the above preferred embodiments of the present invention that the present invention can effectively and timely make the computer fail due to resource exhaustion; and can effectively provide the ability of pre-::=machine failure time to help the cluster service software determine the appropriate- Node transfer timing and strategy to improve the reliability of the software system. Although the present invention has been described above in terms of a preferred embodiment, it is not intended to limit the invention, and various modifications and refinements may be made without departing from the spirit and scope of the invention. The scope of the invention is defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS For a more complete understanding of the present invention and its advantages, reference is made to the above description in conjunction with the following drawings, wherein: FIG. 1 is a schematic diagram showing the system architecture of the computer performance estimator of the present invention. FIG. 2 is a schematic diagram showing the state of the controlled node of the present invention. FIG. 3 is a block diagram showing the detection module of the present invention. Figure 4 is a three-layer diagram showing the evaluation of the predicted time to failure (MTTF) of the present invention. Figure 5A is a schematic diagram showing the architecture of a conventional application cluster service system. FIG. 5B is a schematic diagram showing the architecture of the integrated computer performance evaluator and the three-layer system using the 丛 clustering service of the present invention. Figure 6 is a block diagram showing the architecture of a manufacturing execution system in which the computer performance evaluator of the present invention is applied and which is fault tolerant. [Main component symbol description] ίο Computer performance evaluator 21, 22, 23, 24 Data collection module 30 Detection module 31 Key parameters 32 Status indicator 33 Fuzzy device 35 Inference engine 37 Fuzzy rule library 39 Defuzzifier 50 Prediction mode Group 70, 71, 72, 73, 74 Controlled Node 81 > 82 Operating System Application Interface 83, 84 Application Server 91, 92 CORBA Communication Infrastructure 100 Reporting Computer Performance Detection Value 110 Performing Application Error Post-Transfer Mechanism 20

Claims (1)

1292091 /〇/]ή r,, 修ρό正本 I X. Applying for a patent garden 1. A Computer Efficient Evaluator (PEV) is used to detect that a computer at at least one controlled node is exhausted due to resources. The computer performance evaluator includes: at least one data collection module, interconnecting with at least one controlled node, to collect a plurality of system resource parameters of the at least one controlled node; a detection module, evaluating performance states of the at least one controlled node according to the system resource parameters, and generating a status indicator for each of the at least one controlled node; and a prediction module, when the detection module When the group determines, according to the status indicator, that the performance status of one of the at least one controlled node is an abnormal state, the prediction module is started to perform a prediction step to predict the at least one controlled node. How long after one of these will expire due to running out of resources. 2. The computer performance evaluator according to claim 1, wherein the performance state of each of the at least one controlled node includes: an initialization state, wherein each of the at least one controlled node is just started Entering the initialization state; an active state, wherein when one of the at least one controlled node is launched, the active state is entered; an inactive state, wherein each of the at least one When the application of the control node is suspended, the inactive state is entered, and when the application is restarted, the active state is returned; the abnormal state, wherein each of the at least one controlled node has available resources 21 1292091 When an abnormal condition occurs, the abnormal state is entered from the active state, and when the available resources of each of the at least one controlled node are restored, then the active state is returned; and a failed state 'where each When the available resources of the at least one controlled node are exhausted, then the failure state is entered. 3. The computer performance evaluator of claim 1, wherein the at least one data collection module is installed in the at least one controlled node, and the at least one data collection module transmits the at least one data collection module At least one operating system interface (OS API) of a controlled node collects the system resource parameters. 4. The computer performance evaluator according to claim 1, wherein the system resource parameters are parameters related to a processor, a memory, and a virtual memory. 5. The computer performance evaluator according to claim 1, wherein the detection module generates a status indicator by using a fuzzy logic detection module (Fuzzy Logic Detection Module), the fuzzy logic detection The module includes at least: a screening device for performing grouping and screening of the system resource parameters, and selecting a plurality of key parameters; a fuzzer (FuzziHer) for each of the fuzzy rule bases 'The key parameters are assigned a weight recombination to produce a set of input data; 22 1292091 An inference engine that infers whether the key parameters are close to the threshold value based on the set of input data, and produces an output value; and a defuzzifier ( Defuzzifier), which deduces the output value into a state indicator. 6. The computer performance evaluator according to claim 5, wherein the key parameters are a processor time, a priority time (Privileged Time), and a non-paged memory pool byte (Pool). Nonpaged Bytes), and a memory available (Avaiiable Mbytes), the processor time and the priority time are used to check whether the processor performance has reached the bottleneck; the non-paged memory pool byte is used to determine whether there is A serious memory loss (Memory Leak) condition, and the memory usable amount is used to determine whether the remaining main memory is insufficient. 7. The computer performance evaluator according to claim 1, wherein the predicting step is based on a software aging phenomenon with a strict decreasing (M〇n〇t〇nic_DeCay) characteristic, and adopting an average time to failure (Mean) Time to ; / TF) predictive s method, the curve corresponds to, and 丨 respectively represent time and system resources, when there are enough sample numbers: ("), Bu 1, 2, ···, w, and When the early linear regression is used to judge the relationship between V and , the linear model is estimated as follows: M, 2, 3, . . . , 〇 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 — F = ^i— η , and η where the most likely MTTF value is detected when the detection module detects that one of the at least one controlled node enters the abnormal state at the time point of ^ : The lower limit value of Attf and MTTF: & and the upper limit value of MTTF··匕 can be derived by the following formula: Tmttf -h^MTTF -ts ^LB = ^DM ^ ts 5 ^UB ~ ^DJUB h where the economy, w and. It can be derived from the intersection of h and j), ~ and 4, and heart and plus, respectively, 沁 and I represent the lower and upper bounds of the evaluation value f, respectively, and the heart represents the remaining 10 sources when entering the failure state. . The application method of the computer performance evaluator is to integrate an application cluster service (Application Cluster Service), which is applicable to a group of a cluster environment, wherein the cluster environment has a plurality of controlled nodes, The application method of the different machine performance evaluator includes at least: providing a computer performance evaluator, wherein the computer performance evaluator comprises at least a plurality of data collector modules, a detection module, and a module; # j 24 1292091 respectively, the data is collected to collect the crying state module to the controlled nodes; the > materials are collected, and the number of moxibustion moxibustions respectively, the parotid gland / / ] / 该 该 该 该 该 该 该A plurality of system shell source parameters and the parameters of the silk thread, the shop a soil, the soil and the shell source are transmitted to the detection module for analysis and judgment, and each of the 虺 虺 铭 铭 铭Knife analysis - control and point to generate a state indicator; and start the prediction module to push # „ , wood into a prediction step, wherein when the debt test is based on the state indicator, to determine 屮兮 $, furniture, The performance state of one of the at least one controlled node is an abnormality away from w π −> and the predicted 杈 group is activated to perform the prediction step to predict the 虺 柝 一 一If the one of the paths is one of the points, it will be invalidated due to the exhaustion of resources, and the node replacement will be performed in time. 9. The application method of the computer performance evaluator according to claim 8 of the patent application, wherein each of the methods The performance states of the controlled nodes include at least an initialization state, wherein each of the controlled nodes enters the initialization state upon initial startup; θ an active state, wherein each of the controlled nodes After an application is started by φ, it enters the active state; an inactive state, wherein when the application of each of the controlled nodes is suspended, the inactive state is entered, and when the application is restarted Reverting to the active state; the different $ state, wherein when the available resources of each of the controlled nodes are abnormal, the active state will be entered to the different state a normal state, and when the available resources of each of the controlled nodes are restored, then returning to the active state; and a failure state, wherein when the available resources of each of the controlled nodes are consumed by 25 1292091 & Entering the failure state. 1〇·If the patent application scope is used by the party, it is “丨处”, the scare of the Feihuan energy evaluator should be recorded, /·, the (four) system resource parameter system and processor , memory, virtual (10) body (Virtual Memory) related parameters. 11. The computer performance evaluator according to the eighth aspect of the patent application, wherein the detection module uses a fuzzy logic detection module to generate the status indicator 'the fuzzy logic detection module The method includes at least: a screening device, configured to perform grouping and screening operations on the system resource parameters, and select a plurality of key parameters; and a fuzzy device to assign a weight to each of the key parameters according to a fuzzy rule base Planting, and generating a set of input data; a deduction engine, inferring whether the key parameters are close to the threshold value according to the input data of the group, and generating an output value; and a defuzzifier, converting the inferred output value into The status indicator. 12. The application method of the computer performance evaluator according to claim π, wherein the key parameters are a processor time (Pr0cessor Time), a priority time (Privileged Time), and a non-paged memory pool word. (Pool Nonpaged Bytes), and a memory available (Available Mbytes), the processor time and the priority time are used to check whether the processor performance has reached the bottleneck; the non-paged memory pool byte is used Determine whether there is a serious memory loss (Memory Leak) condition, and the memory usable amount 26 1292091 is used to determine whether the remaining main memory is insufficient. L3 · For example, please refer to item 8 of the patent scope. The computer performance evaluator should be 'in the prediction step based on one of the strict degradation characteristics of the software aging phenomenon' and adopt the -mean time to failure (MTTF) prediction method, the curve is less than the time and the remaining resources of the system When there is enough water/~, brother), ί=1, 2, ···, ", and you can use simple linear regression to judge the relationship between ί and ί, you can create a simple line. Model that estimates the formula: Formula brother-Bu = 1,2, 3, ···, "(1) A ηΣ,,· where 7 / , where =歹一成', and when the detection module detects that one of the at least one controlled node enters the abnormal state at the time point of G, The most likely MTTF values are: /, the lower bound of the MTTF: &, and the upper bound of mttf: the heart, which can be derived from the following formula: y η TmTF = tDMTTF - ts 5 AP A. A where k, M77F, and '峨 can be derived from the intersection of % and }, % and &, and A and eve (10) respectively, and the lower and upper bounds of & and 'representing the evaluation value j respectively, respectively, ☆ indicates that when entering Remaining capital in the state of failure 27 1292091