TW202402019A - Intelligent test configuration and download synchronization system and method thereof - Google Patents
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本發明係有關於一種系統及方法,尤其是指一種智能自動化配對同步測試系統及其方法。The present invention relates to a system and a method, and in particular, to an intelligent automated pairing synchronization test system and a method thereof.
智能自動化測試系統(Intelligent Test Configuration and Download;ITCnD)係用以對待測伺服器進行性能測試作業。一般來說,性能測試作業通常包含內存測試作業、硬碟測試作業、中央處理單元(Central Processing Unit;CPU)測試作業、網路壓力測試作業、散熱組合測試作業、基板管理控制器(Board Management Controller;BMC)測試作業等。其中,各性能測試作業有其對應的性能測試工具,舉例來說,網路壓力測試作業通常是利用網路性能測試工具進行測試,常見的網路性能測試工具為Iperf。The intelligent automated test system (Intelligent Test Configuration and Download; ITCnD) is used to perform performance testing on the server under test. Generally speaking, performance testing operations usually include memory testing operations, hard disk testing operations, central processing unit (Central Processing Unit; CPU) testing operations, network stress testing operations, heat dissipation combination testing operations, and board management controller (Board Management Controller) testing operations. ; BMC) test operations, etc. Each performance testing job has its corresponding performance testing tool. For example, network stress testing jobs are usually tested using network performance testing tools. A common network performance testing tool is Iperf.
然而,在先前技術中,智能自動化測試系統測試複數個待測伺服器且進行性能測試作業中的網路壓力測試作業時,智能自動化測試系統針對單機網路壓力測試作業無法實現待測伺服器之間配對邏輯功能,並且需要等到複數個待測伺服器同步進行網路壓力測試作業的網路性能測試工具,才能使下一個待測伺服器進行網路壓力測試作業。因此,先前技術存在改善的空間。However, in the prior art, when the intelligent automated testing system tests multiple servers under test and performs network stress testing operations in performance testing operations, the intelligent automated testing system cannot implement the single-machine network stress testing operations of the servers under test. A network performance testing tool that uses matching logic functions and needs to wait for multiple servers under test to simultaneously perform network stress testing operations before the next server under test can perform network stress testing operations. Therefore, there is room for improvement in prior art.
有鑒於在先前技術中,智能自動化測試系統測試複數個待測伺服器且進行性能測試作業中的網路壓力測試作業時,一次僅能對一個待測伺服器進行網路壓力測試作業,並且需要等到該待測伺服器結束該網路壓力測試作業後,才能對下一個待測伺服器進行網路壓力測試作業及其衍生出的種種問題。本發明之一主要目的係提供一種智能自動化配對同步測試系統及其方法,用以解決先前技術中的至少一個問題。In view of the fact that in the previous technology, when the intelligent automated testing system tests multiple servers under test and performs network stress testing operations in performance testing operations, it can only perform network stress testing operations on one server under test at a time, and requires After the server under test completes the network stress test operation, the network stress test operation and various problems derived from it can be performed on the next server under test. One of the main purposes of the present invention is to provide an intelligent automated pairing synchronization test system and method thereof to solve at least one problem in the prior art.
本發明為解決先前技術之問題,所採用之必要技術手段為提供一種智能自動化配對同步測試系統,係用以對複數個待測伺服器進行複數個性能測試作業,且性能測試作業中至少包含一網路壓力測試作業,智能自動化配對同步測試系統係包含一接收模組、一配對模組、一狀態判定模組與一控制模組。接收模組用以接收待測伺服器之複數個伺服器識別碼。配對模組電性連接接收模組,用以接收伺服器識別碼,並利用一配對規則,將每一待測伺服器進行配對,且在偵測到每一待測伺服器及其配對之待測伺服器時,產生一配對成功信號。狀態判定模組電性連接接收模組,用以接收伺服器識別碼,並在判定每一待測伺服器及其配對之待測伺服器都位於待命進行網路壓力測試作業時,產生一待命成功信號。控制模組電性連接配對模組與狀態判定模組,用以在接收到配對成功信號與待命成功信號時,控制待測伺服器以及其配對之待測伺服器同時進行網路壓力測試作業,並同時完成網路壓力測試作業。In order to solve the problems of the prior art, the necessary technical means adopted by the present invention are to provide an intelligent automated pairing synchronization test system, which is used to perform multiple performance testing operations on multiple servers to be tested, and the performance testing operations include at least one For network stress testing operations, the intelligent automated pairing synchronization test system includes a receiving module, a pairing module, a status determination module and a control module. The receiving module is used to receive multiple server identification codes of the server under test. The pairing module is electrically connected to the receiving module to receive the server identification code, and uses a pairing rule to pair each server to be tested, and after detecting each server to be tested and its pairing When testing the server, a pairing success signal is generated. The status determination module is electrically connected to the receiving module to receive the server identification code, and generates a standby signal when determining that each server under test and its paired server under test are on standby for network stress testing operations. Success signal. The control module is electrically connected to the pairing module and the status determination module, and is used to control the server under test and its paired server under test to perform network stress testing operations at the same time when receiving the pairing success signal and the standby success signal. And complete the network stress test operation at the same time.
在上述必要技術手段的基礎下,本發明所衍生之一附屬技術手段為使智能自動化配對同步測試系統中之接收模組,更包含一接收單元,接收單元用以被動地接收伺服器識別碼。Based on the above necessary technical means, an ancillary technical means derived from the present invention is to make the receiving module in the intelligent automated pairing synchronization test system further include a receiving unit, and the receiving unit is used to passively receive the server identification code.
在上述必要技術手段的基礎下,本發明所衍生之一附屬技術手段為使智能自動化配對同步測試系統中之接收模組,更包含一詢問單元,詢問單元係用以主動地詢問待測伺服器,藉以接收伺服器識別碼。On the basis of the above necessary technical means, an ancillary technical means derived from the present invention is to enable the receiving module in the intelligent automated pairing and synchronization test system to further include an interrogation unit. The interrogation unit is used to actively interrogate the server under test. , to receive the server identifier.
在上述必要技術手段的基礎下,本發明所衍生之一附屬技術手段為使智能自動化配對同步測試系統中之配對模組,更包含一第一時間單元,第一時間單元用以計算一第一時間,並在計算完第一時間且並未偵測到每一待測伺服器及其配對之待測伺服器時,使配對模組產生一配對失敗信號。Based on the above necessary technical means, an ancillary technical means derived from the present invention is to make the pairing module in the intelligent automated pairing synchronization test system further include a first time unit, and the first time unit is used to calculate a first time unit. time, and when the first time is calculated and each server under test and its paired server under test are not detected, the pairing module generates a pairing failure signal.
在上述必要技術手段的基礎下,本發明所衍生之一附屬技術手段為使智能自動化配對同步測試系統中之狀態判定模組,更包含一第二時間單元,第二時間單元用以計算一第二時間,並在計算完第二時間且判定每一待測伺服器及其配對之待測伺服器並非都位於待命進行網路壓力測試作業時,產生一待命失敗信號。On the basis of the above necessary technical means, an ancillary technical means derived from the present invention is to enable the state determination module in the intelligent automated pairing synchronization test system to further include a second time unit, and the second time unit is used to calculate a first Two times, and after calculating the second time and determining that each server under test and its paired servers under test are not on standby for network stress testing operations, a standby failure signal is generated.
在上述必要技術手段的基礎下,本發明所衍生之一附屬技術手段為使智能自動化配對同步測試系統,更包含一警示模組,該警示模組係電性連接該控制模組,用以在該控制模組並未偵測到每一待測伺服器及其配對之待測伺服器時,或者在該控制模組判定每一待測伺服器及其配對之待測伺服器並非都位於待命進行該網路壓力測試作業時,產生一警示信號。On the basis of the above necessary technical means, an ancillary technical means derived from the present invention is an intelligent automated pairing and synchronization test system, which further includes a warning module. The warning module is electrically connected to the control module for use in When the control module does not detect each server under test and its paired servers under test, or when the control module determines that each server under test and its paired servers under test are not in standby. When performing the network stress test operation, a warning signal is generated.
本發明為解決先前技術之問題,所採用之必要技術手段為另外提供一種智能自動化配對同步測試方法,係利用如上述之智能自動化配對同步測試系統加以實施,並包含以下步驟:利用接收模組接收伺服器識別碼;利用配對模組在偵測到每一待測伺服器及其配對之待測伺服器時,產生配對成功信號;利用狀態判定模組,在判定每一待測伺服器及其配對之待測伺服器都位於待命進行網路壓力測試作業時,產生待命成功信號;以及,利用控制模組,在接收到配對成功信號與待命成功信號時,控制待測伺服器以及其配對之待測伺服器同時進行網路壓力測試作業,並同時完成網路壓力測試作業。In order to solve the problems of the prior art, the necessary technical means adopted by the present invention are to provide an intelligent automated pairing synchronization test method, which is implemented using the above-mentioned intelligent automated pairing synchronization test system and includes the following steps: using a receiving module to receive Server identification code; use the pairing module to generate a pairing success signal when detecting each server to be tested and its paired server to be tested; use the status determination module to determine each server to be tested and its paired server When the paired servers under test are on standby for network stress testing, a standby success signal is generated; and the control module is used to control the server under test and its paired servers when receiving a pairing success signal and a standby success signal. The server under test simultaneously performs network stress testing operations and completes network stress testing operations at the same time.
承上所述,本發明所提供之智能自動化配對同步測試系統及其方法,利用接收模組、配對模組、狀態判定模組與控制模組,對複數個待測伺服器進行複數個性能測試作業。相較於先前技術,本發明可以達到控制每一待測伺服器及其配對之待測伺服器同時進行該網路壓力測試作業,並且同時完成並結束該網路壓力測試作業的功效。此外,接收模組的接收單元與詢問單元可以達到主動詢問或是被動接收伺服器識別碼的功效。警示模組更可以產生警示信號,達到提醒使用者的功效。較佳者,本發明還可以利用配對模組的第一時間單元與狀態判定模組的第二時間單元搭配警示模組。Based on the above, the intelligent automated pairing synchronization test system and method provided by the present invention use the receiving module, the pairing module, the status determination module and the control module to conduct multiple performance tests on multiple servers to be tested. Homework. Compared with the prior art, the present invention can achieve the effect of controlling each server under test and its paired server under test to simultaneously perform the network stress test operation, and simultaneously complete and end the network stress test operation. In addition, the receiving unit and the querying unit of the receiving module can achieve the function of actively querying or passively receiving the server identification code. The warning module can also generate warning signals to remind users. Preferably, the present invention can also use the first time unit of the pairing module and the second time unit of the status determination module to match the warning module.
下面將結合示意圖對本發明的具體實施方式進行更詳細的描述。根據下列描述和申請專利範圍,本發明的優點和特徵將更清楚。需說明的是,圖式均採用非常簡化的形式且均使用非精準的比例,僅用以方便、明晰地輔助說明本發明實施例的目的。Specific embodiments of the present invention will be described in more detail below with reference to the schematic diagrams. The advantages and features of the present invention will become clearer from the following description and patent claims. It should be noted that the drawings are in a very simplified form and use imprecise proportions, and are only used to conveniently and clearly assist in explaining the embodiments of the present invention.
請參閱第一圖與第二圖,其中,第一圖係顯示本發明較佳實施例所提供之智能自動化配對同步測試系統之方塊圖;以及,第二圖係顯示本發明較佳實施例所提供之智能自動化配對同步測試方法之流程圖。如圖所示,一種智能自動化配對同步測試系統1用以對複數個待測伺服器S1、S2、S3(圖式繪製三個示意)進行複數個性能測試作業,並包含一接收模組11、一配對模組12、一狀態判定模組13與一控制模組14。其中,性能測試作業至少包含一網路壓力測試作業。Please refer to the first and second figures. The first figure is a block diagram showing the intelligent automated pairing synchronization test system provided by the preferred embodiment of the present invention; and the second figure is a block diagram showing the intelligent automated pairing synchronization test system provided by the preferred embodiment of the present invention. Provides a flow chart of the intelligent automated pairing and synchronization test method. As shown in the figure, an intelligent automated pairing and synchronization testing system 1 is used to perform multiple performance testing operations on a plurality of servers to be tested S1, S2, and S3 (three diagrams are drawn), and includes a
一般來說,性能測試作業通常包含內存測試作業、硬碟測試作業、中央處理單元(Central Processing Unit;CPU)測試作業、網路壓力測試作業、散熱組合測試作業、基板管理控制器(Board Management Controller;BMC)測試作業等。其中,各性能測試作業有其對應的性能測試工具,舉例來說,網路壓力測試作業通常是利用網路性能測試工具進行測試,常見的網路性能測試工具為Iperf。Generally speaking, performance testing operations usually include memory testing operations, hard disk testing operations, central processing unit (Central Processing Unit; CPU) testing operations, network stress testing operations, heat dissipation combination testing operations, and board management controller (Board Management Controller) testing operations. ;BMC) test operations, etc. Each performance testing job has its corresponding performance testing tool. For example, network stress testing jobs are usually tested using network performance testing tools. A common network performance testing tool is Iperf.
一種智能自動化配對同步測試方法係利用智能自動化配對同步測試系統1加以實施,並包含以下步驟S101至步驟S104。An intelligent automated pairing synchronization test method is implemented using the intelligent automated pairing synchronization test system 1 and includes the following steps S101 to S104.
步驟S101:利用接收模組接收待測伺服器之伺服器識別碼。Step S101: Use the receiving module to receive the server identification code of the server to be tested.
接收模組11電性連接待測伺服器S1、S2、S3,用以接收每一待測伺服器S1、S2、S3的每一個伺服器識別碼SC1、SC2、SC3,藉以接收到複數個上述的伺服器識別碼SC1、SC2、SC3。每個待測伺服器S1、S2、S3會有其對應的伺服器識別碼SC1、SC2、SC3,藉以對應其身分。伺服器識別碼SC1、SC2、SC3可以是數字、英文或是其組合,藉以對應其所代表的待測伺服器S1、S2、S3。The receiving
在本實施例中,接收模組11更包含一接收單元111。接收單元111用以被動地接收待測伺服器S1、S2、S3的伺服器識別碼SC1、SC2、SC3。In this embodiment, the
在本實施例中,接收模組11更包含一詢問單元112。詢問單元112用以主動地詢問待測伺服器S1、S2、S3,藉以接收伺服器識別碼SC1、SC2、SC3。In this embodiment, the
雖然本實施例中,接收模組11同時包含接收單元111與詢問單元112,但不以此為限。接收模組11可以僅包含接收單元111與詢問單元112中的一者。Although in this embodiment, the receiving
步驟S102:利用配對模組判斷是否配對。Step S102: Use the pairing module to determine whether to pair.
配對模組12電性連接接收模組11,用以接收待測伺服器S1、S2、S3的伺服器識別碼SC1、SC2、SC3,並利用一配對規則,將每一待測伺服器S1、S2、S3進行配對,且在偵測到每一待測伺服器S1、S2、S3及其配對之待測伺服器時,產生一配對成功信號。The
舉例說明,如果待測伺服器的數量如圖所繪製的大於1的奇數個,即待測伺服器S1、待測伺服器S2與待測伺服器S3。配對模組12的配對規則即為待測伺服器S1與待測伺服器S2配對,待測伺服器S2與待測伺服器S3配對,待測伺服器S3與待測伺服器S1配對。因此,配對模組12在偵測到待測伺服器S1、待測伺服器S2與待測伺服器S3後,才會產生配對成功信號。For example, if the number of servers to be tested is an odd number greater than 1 as shown in the figure, that is, the server to be tested S1, the server to be tested S2, and the server to be tested S3. The pairing rules of the
也就是說,若配對模組12沒有偵測到待測伺服器S1、待測伺服器S2或待測伺服器S3的任一個,便不會產生配對成功信號。舉例來說,若配對模組12沒有偵測到待測伺服器S2,表示只有待測伺服器S3與待測伺服器S1配對,待測伺服器S1與待測伺服器S2並沒有配對,待測伺服器S2也沒有與待測伺服器S3配對,故配對模組12不會產生配對成功信號。That is to say, if the
另外,以圖式的待測伺服器S1與待測伺服器S2舉例說明,待測伺服器的數量為偶數個,即待測伺服器S1與待測伺服器S2。配對模組12的配對規則即為待測伺服器S1與待測伺服器S2配對。因此,配對模組12在偵測到待測伺服器S1與待測伺服器S2後,才會產生配對成功信號。也就是說,若配對模組12沒有偵測到待測伺服器S1或待測伺服器S2的任一個,便不會產生配對成功信號。In addition, taking the server to be tested S1 and the server to be tested S2 as an example, the number of servers to be tested is an even number, that is, the server to be tested S1 and the server to be tested S2. The pairing rule of the
進一步說明,待測伺服器的數量若為十個,則配對模組12的配對規則便會將十個待測伺服器分為五組,每組的兩個待測伺服器互相配對;待測伺服器的數量若為十一個,則配對模組12的配對規則便會將十一個待測伺服器分為五組,前面四組中每組的待測伺服器的數量為兩個且互相配對,第五組的待測伺服器的數量為三個且彼此互相配對。To further explain, if the number of servers to be tested is ten, the pairing rules of the
步驟S103:利用狀態判定模組判斷是否待命進行網路壓力測試作業。Step S103: Use the status determination module to determine whether to be on standby for network stress testing operations.
狀態判定模組13電性連接接收模組11,用以接收待測伺服器S1、S2、S3的伺服器識別碼SC1、SC2、SC3,並在判定每一待測伺服器S1、S2、S3及其配對之待測伺服器都位於待命進行網路壓力測試作業時,產生一待命成功信號。舉例來說,狀態判定模組13在判定待測伺服器S1、待測伺服器S2與待測伺服器S3都位於待命進行網路壓力測試作業時,並會產生待命成功信號。因為待測伺服器S1位於待命進行網路壓力測試作業,待測伺服器S1所配對的待測伺服器S2也位於待命進行網路壓力測試作業,且待測伺服器S2所配對的待測伺服器S3也位於待命進行網路壓力測試作業,故狀態判定模組13會產生待命成功信號。The
同理,如上所述,若待測伺服器的數量為偶數個,即待測伺服器S1與待測伺服器S2,則狀態判定模組13在判定待測伺服器S1與待測伺服器S2都位於待命進行網路壓力測試作業時,並會產生待命成功信號。Similarly, as mentioned above, if the number of servers to be tested is an even number, that is, the server to be tested S1 and the server to be tested S2, then the
步驟S104:利用控制模組控制待測伺服器以及其配對之待測伺服器同時進行網路壓力測試作業,並同時完成網路壓力測試作業。Step S104: Use the control module to control the server under test and its paired server under test to perform network stress testing operations at the same time, and complete the network stress testing operations at the same time.
控制模組14電性連接配對模組12與狀態判定模組13,用以在接收到配對成功信號與待命成功信號時,控制待測伺服器S1、S2、S3同時進行網路壓力測試作業,並同時完成該網路壓力測試作業。The
控制模組14接收到配對成功信號與待命成功信號,表示配對模組12已經偵測到每一待測伺服器(如待測伺服器S1、S2、S3)及其配對之待測伺服器(如配對的待測伺服器S2、S3、S1),而且,狀態判定模組13已經判定每一待測伺服器(如待測伺服器S1、S2、S3)及其配對之待測伺服器(如配對的待測伺服器S2、S3、S1)都位於待命進行該網路壓力測試作業。因此,控制模組14可以控制每一待測伺服器(如待測伺服器S1、S2、S3)及其配對之待測伺服器(如配對的待測伺服器S2、S3、S1)同時進行該網路壓力測試作業,並且同時完成並結束該網路壓力測試作業。The
因此,相較於先前技術一次僅能對一個待測伺服器進行網路壓力測試作業,本發明所提供之智能自動化配對同步測試系統及其方法可以達到控制每一待測伺服器(如待測伺服器S1、S2、S3)及其配對之待測伺服器(如配對的待測伺服器S2、S3、S1)同時進行該網路壓力測試作業,並且同時完成並結束該網路壓力測試作業的功效。Therefore, compared with the previous technology that can only perform network stress testing operations on one server under test at a time, the intelligent automated pairing synchronization test system and method provided by the present invention can control each server under test (such as the server under test). Servers S1, S2, S3) and their paired servers under test (such as paired servers under test S2, S3, S1) simultaneously perform the network stress test operation, and complete and end the network stress test operation at the same time effect.
在本實施例中,智能自動化配對同步測試系統1更包含一警示模組15。智能自動化配對同步測試方法更包含以下步驟S105。In this embodiment, the intelligent automated pairing synchronization test system 1 further includes a
步驟S105:利用控制模組控制警示模組產生警示信號。Step S105: Use the control module to control the warning module to generate a warning signal.
警示模組15電性連接控制模組14,用以在控制模組14並未偵測到每一待測伺服器(如待測伺服器S1、S2、S3)及其配對之待測伺服器(如配對的待測伺服器S2、S3、S1)時,或者在控制模組14判定每一待測伺服器(如待測伺服器S1、S2、S3)及其配對之待測伺服器(如配對的待測伺服器S2、S3、S1)並非都位於待命進行該網路壓力測試作業時,產生一警示信號。因此,警示模組15可以藉由警示信號達到警示使用者的功效。The
較佳者,在本實施例中,配對模組12更包含一第一時間單元121。第一時間單元121用以計算一第一時間,並在計算完第一時間且並未偵測到每一待測伺服器及其配對之待測伺服器時,使配對模組12產生一配對失敗信號。在控制模組14接收到配對失敗信號之後,便會控制警示模組15產生警示信號。也就是說,在步驟S102判斷為否時,也可以進入步驟S105。實務上,第一時間通常為5秒、10秒不等。Preferably, in this embodiment, the
較佳者,在本實施例中,狀態判定模組13更包含一第二時間單元131。第二時間單元131用以計算一第二時間,並在計算完第二時間且判定每一待測伺服器(如待測伺服器S1、S2、S3)及其配對之待測伺服器(如配對的待測伺服器S2、S3、S1)並非都位於待命進行該網路壓力測試作業時,產生一待命失敗信號。在控制模組14接收到待命失敗信號之後,便會控制警示模組15產生警示信號。也就是說,在步驟S103判斷為否時,也可以進入步驟S105。實務上,第二時間通常為5秒、10秒不等。Preferably, in this embodiment, the
因此,相較於先前技術一次僅能對一個待測伺服器進行網路壓力測試作業,本發明所提供之智能自動化配對同步測試系統及其方法不僅可以達到控制每一待測伺服器(如待測伺服器S1、S2、S3)及其配對之待測伺服器(如配對的待測伺服器S2、S3、S1)同時進行該網路壓力測試作業,並且同時完成並結束該網路壓力測試作業的功效外,還可以在配對失敗或是待命失敗時,產生警示信號,以達到提醒使用者的功效。Therefore, compared with the previous technology that can only perform network stress testing operations on one server to be tested at a time, the intelligent automated pairing synchronization test system and method provided by the present invention can not only control each server to be tested (such as the server to be tested). The test servers S1, S2, S3) and their paired servers under test (such as the paired servers under test S2, S3, S1) perform the network stress test operation at the same time, and complete and end the network stress test at the same time. In addition to the function of operation, it can also generate a warning signal to remind the user when pairing fails or when standby fails.
綜上所述,本發明所提供之智能自動化配對同步測試系統及其方法,利用接收模組、配對模組、狀態判定模組與控制模組,對複數個待測伺服器進行複數個性能測試作業。相較於先前技術,本發明可以達到控制每一待測伺服器及其配對之待測伺服器同時進行該網路壓力測試作業,並且同時完成並結束該網路壓力測試作業的功效。此外,接收模組的接收單元與詢問單元可以達到主動詢問或是被動接收伺服器識別碼的功效。警示模組更可以產生警示信號,達到提醒使用者的功效。較佳者,本發明還可以利用配對模組的第一時間單元與狀態判定模組的第二時間單元搭配警示模組。In summary, the intelligent automated pairing synchronization test system and method provided by the present invention use the receiving module, the pairing module, the status determination module and the control module to conduct multiple performance tests on multiple servers to be tested. Homework. Compared with the prior art, the present invention can achieve the effect of controlling each server under test and its paired server under test to simultaneously perform the network stress test operation, and simultaneously complete and end the network stress test operation. In addition, the receiving unit and the querying unit of the receiving module can achieve the function of actively querying or passively receiving the server identification code. The warning module can also generate warning signals to remind users. Preferably, the present invention can also use the first time unit of the pairing module and the second time unit of the status determination module to match the warning module.
藉由以上較佳具體實施例之詳述,係希望能更加清楚描述本發明之特徵與精神,而並非以上述所揭露的較佳具體實施例來對本發明之範疇加以限制。相反地,其目的是希望能涵蓋各種改變及具相等性的安排於本發明所欲申請之專利範圍的範疇內。Through the above detailed description of the preferred embodiments, it is hoped that the characteristics and spirit of the present invention can be more clearly described, but the scope of the present invention is not limited by the above disclosed preferred embodiments. On the contrary, the intention is to cover various modifications and equivalent arrangements within the scope of the patent for which the present invention is intended.
1:智能自動化配對同步測試系統 11:接收模組 111:接收單元 112:詢問單元 12:配對模組 121:第一時間單元 13:狀態判定模組 131:第二時間單元 14:控制模組 15:警示模組 S1,S2,S3:待測伺服器 S101~S105:步驟 SC1,SC2,SC3:伺服器識別碼 1: Intelligent automated pairing and synchronization test system 11:Receive module 111: Receiving unit 112: Inquiry unit 12: Matching module 121: First time unit 13: Status determination module 131: Second time unit 14:Control module 15: Alert module S1, S2, S3: Server to be tested S101~S105: steps SC1, SC2, SC3: server identification code
第一圖係顯示本發明較佳實施例所提供之智能自動化配對同步測試系統之方塊圖;以及 第二圖係顯示本發明較佳實施例所提供之智能自動化配對同步測試方法之流程圖。 The first figure is a block diagram showing an intelligent automated pairing synchronization test system provided by a preferred embodiment of the present invention; and The second figure is a flow chart showing an intelligent automated pairing synchronization test method provided by a preferred embodiment of the present invention.
1:智能自動化配對同步測試系統 1: Intelligent automated pairing and synchronization test system
11:接收模組 11:Receive module
111:接收單元 111: Receiving unit
112:詢問單元 112: Inquiry unit
12:配對模組 12: Matching module
121:第一時間單元 121: First time unit
13:狀態判定模組 13: Status determination module
131:第二時間單元 131: Second time unit
14:控制模組 14:Control module
15:警示模組 15: Alert module
S1,S2,S3:待測伺服器 S1, S2, S3: Server to be tested
SC1,SC2,SC3:伺服器識別碼 SC1, SC2, SC3: server identification code
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