CN101710301B - Method and system for evaluating virtualization capability of physical server of CRM system - Google Patents

Method and system for evaluating virtualization capability of physical server of CRM system Download PDF

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CN101710301B
CN101710301B CN 200910180708 CN200910180708A CN101710301B CN 101710301 B CN101710301 B CN 101710301B CN 200910180708 CN200910180708 CN 200910180708 CN 200910180708 A CN200910180708 A CN 200910180708A CN 101710301 B CN101710301 B CN 101710301B
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performance
physical
physical server
server
maximum
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CN101710301A (en )
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朱源
段勇
石屹嵘
闻剑峰
龚德志
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中国电信股份有限公司
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Abstract

The invention discloses a method and system for evaluating the virtualization capability of a physical server of a CRM system. The invention is characterized by computing the maximum performance index value of each logical unit or computing at least any one technical index in the complex performance index values of a single physical server or a physical server group to provide a basis for judgingwhether the resource allocation proportion of the physical server is reasonable and whether the virtualization capability meets the demand of the user, thus effectively solving the technical problem encountered by the IT infrastructure management department in such links as model selection, move, capacity expansion, acceptance and the like of the virtualization software and hardware platforms of the CRM system and meeting the demand of the user for evaluating the virtualization capability of the physical server; furthermore, the technicians in the field can optimize the physical server according to the evaluation effects in order to achieve the demand of the pre-determined performance.

Description

评估CRM系统物理服务器虚拟化能力的方法及系统 Assess the physical server CRM system method and system virtualization capabilities

技术领域 FIELD

[0001] 本发明涉及信息技术基准测试体系技术,尤其涉及一种评估客户关系管理(CRM, Customer Relationship Management)系统物理服务器虚拟化能力的方法及系统。 [0001] The present invention relates to information technology benchmarking system technology, and particularly relates to a method for evaluating customer relationship management (CRM, Customer Relationship Management) system, a physical server virtualization capabilities and systems.

背景技术 Background technique

[0002] 近年来,物理硬件的虚拟化技术不断成熟,原先构建在物理服务器上的CRM系统应用也开始逐步向虚拟化技术平台上迁移。 [0002] In recent years, physical hardware virtualization technology continues to mature, originally built on a physical server CRM system applications also began a gradual migration to the virtualization technology platform. 物理硬件平台的性能的评估标准和方法已经由许多业界公认的组织制定并发布实施。 Performance evaluation criteria and methods of physical hardware platform has been developed and promulgated by a number of industry-recognized organization. 但是随着虚拟化技术的不断发展和广泛应用,原先基于物理服务器环境的性能评估标准和方法无法直接应用于虚拟机环境,无法对虚拟化技术的性能做出准确评估,因而也不能为进一步的优化技术提供可靠的参考依据。 But with the development of virtualization technology and extensive application of the original can not be applied based on the performance evaluation criteria and methods of direct physical server environment virtual machine environment, can not make an accurate assessment of the performance of virtualization technology, and thus can not be further optimization techniques to provide reliable reference.

[0003] 此外,随着虚拟化技术的广泛应用,在虚拟化软、硬件平台的选型、迁移、扩容以及验收等环节上,IT基础设施管理部门普遍缺乏一套合理、有效的衡量虚拟化软、硬件平台性能的技术方法和规范,以及相应的基准指标值供参考。 [0003] In addition, with the extensive application virtualization technology in the virtualization software and hardware platform selection, migration, expansion and acceptance and other sectors, IT infrastructure management and a general lack of a reasonable and effective measure of virtualization soft, methods and technical specifications of the hardware platform, and the corresponding value of the reference index by reference. 尤其是针对特定的CRM应用,目前尚缺乏相应的方法来衡量基于虚拟化技术平台的CRM系统在性能上是否可以有效满足用户的需要,以及如何评估虚拟化性能来实现对单一的物理服务器或者物理服务器组之间的比较和选择。 Especially for a particular CRM application, the current lack of appropriate ways to measure based virtualization technology platform CRM system in terms of performance if you can effectively meet the needs of users, and how to evaluate virtualization performance to achieve a single physical server or physical compare and choose between server groups.

发明内容 SUMMARY

[0004] 本发明的目的是提供一种评估CRM系统物理服务器虚拟化能力的方法及系统,从而将对物理服务器的性能评估扩展到了虚拟机环境下,为虚拟机性能的评估提供方法,为物理服务器性能优化提供依据。 [0004] The object of the present invention is to provide a method and system for evaluation of physical CRM system server virtualization capabilities, so the physical performance evaluation will be extended to the server virtual machine environment, there is provided a method for evaluating performance of virtual machines, physical provide the basis for server performance optimization.

[0005] 具体提供如下技术方案: [0005] DETAILED provide the following technical solutions:

[0006] 本发明提供了一种评估CRM系统物理服务器虚拟化能力的方法,该方法包括:对应于CRM系统的应用类型,将单台物理服务器或物理服务器组资源划分为多个逻辑单元; 在每个逻辑单元内虚拟出一个或多个虚拟机;根据应用类型进行测试环境部署,测试每个逻辑单元内的每个虚拟机的最大性能指标值;确定每个逻辑单元的最大性能指标值。 [0006] The present invention provides a method of evaluating physical CRM system server virtualization capabilities, the method comprising: application type corresponding to the CRM system, dividing a single physical server or server group of physical resources to a plurality of logical units; in each virtual logical unit within one or more virtual machines; environmental test deployment application type, test each logic cell of each virtual machine within a maximum value of the performance index; determining the maximum of each logical unit performance indicator value.

[0007] 本发明提供的评估CRM系统物理服务器虚拟化能力的方法的一个实施例中,分别针对Web应用、Java应用、OLTP和OLAP应用确定每个逻辑单元的最大性能指标值,其中每个逻辑单元的最大性能指标值为逻辑单元内的每个虚拟机的最大性能指标值之和。 [0007] Evaluation Method virtualization capabilities of the physical server CRM system according to the present invention provides an embodiment wherein each of the logical embodiment, respectively, for Web applications, Java applications, and OLAP OLTP application determines the maximum performance index value for each logical unit, maximum performance metrics of each virtual machine within the maximum index of performance of the unit is the sum of the logic unit.

[0008] 本发明提供的评估CRM系统物理服务器虚拟化能力的方法的一个实施例中,分别针对Web应用、Java应用、OLTP和OLAP应用确定出每个逻辑单元的最大性能指标值之后, 计算单台物理服务器或物理服务器组的虚拟化复合性能指标。 After [0008] Evaluation Method virtualization capabilities of the physical server CRM system according to the present invention in one embodiment provides, for each Web applications, Java applications, and OLAP OLTP applications is determined that the maximum performance index value for each logical unit, calculation unit complex virtualization performance physical server or physical server group.

[0009] 本发明提供的评估CRM系统物理服务器虚拟化能力的方法的一个实施例中,单台物理服务器或物理服务器组的虚拟化复合性能指标为每个逻辑单元的最大性能指标值与基准指标值的比值之和。 [0009] Evaluation Method virtualization capabilities of the physical server CRM system according to the present invention provides one embodiment, the virtualization performance composite single physical server or server group for maximum physical performance of each logical unit of the target value and a reference index the ratio of the sum of values.

[0010] 本发明提供的评估CRM系统物理服务器虚拟化能力的方法的一个实施例中,将单台物理服务器或物理服务器组资源分配为4个逻辑单元,分别对应于Web应用、Java应用、 OLTP和OLAP应用。 [0010] Method virtualization capabilities evaluation CRM system physical server of the present invention provides an embodiment, assigned a single physical server or a physical server group resources for four logical units, respectively corresponding to Web applications, Java applications, OLTP and OLAP applications.

[0011] 本发明提供了一种评估CRM系统物理服务器虚拟化能力的系统,该系统包括:单元划分模块,用于对应于CRM系统的应用类型将单台物理服务器或物理服务器组资源划分为多个逻辑单元;虚拟机模拟模块,用于在每个逻辑单元内虚拟出一个或多个虚拟机;性能测试模块,用于根据应用类型进行测试环境部署,测试每个逻辑单元内的每个虚拟机的最大性能指标值;性能计算模块,用于计算每个逻辑单元的最大性能指标值,每个逻辑单元的最大性能指标值为逻辑单元内的每个虚拟机的最大性能指标值之和。 [0011] The present invention provides a physical evaluation system CRM system server virtualization capabilities, the system comprising: a block dividing unit, corresponding to the application type for the CRM system will be a single physical server or a physical server resources are divided into multiple groups logic cells; virtual machine simulation module for the virtual one or more virtual machines within each logical unit; performance test module, according to the type of application for each virtual deployment within the test environment, test each logic unit the maximum value of the performance index machine; performance calculation module for calculating the maximum performance of each logical unit index value, the maximum value of the performance index of each virtual machine within the maximum performance of each logical unit and the logical unit index value.

[0012] 本发明提供的评估CRM系统物理服务器虚拟化能力的系统的一个实施例中,性能计算模块还用于在计算出每个逻辑单元的最大性能指标值之后,计算单台物理服务器或物理服务器组的最大虚拟化性能指标;单台物理服务器或物理服务器组的最大虚拟化性能指标为每个逻辑单元的最大性能指标值之和。 [0012] a system of evaluation system of the present invention provides a CRM server virtualization capabilities of the physical embodiment, the performance calculation module is further configured to, after the maximum performance index value is calculated for each logical unit, calculates a single physical server or a physical maximum performance of the server virtualization group; virtual maximum performance single physical server or a server group as physical indicator of the maximum value and the performance of each logical unit.

[0013] 本发明提供的评估CRM系统物理服务器虚拟化能力的系统的一个实施例中,性能计算模块还用于在计算出每个逻辑单元的最大性能指标值之后,计算单台物理服务器或物理服务器组的虚拟化复合性能指标;单台物理服务器或物理服务器组的虚拟化复合性能指标为每个逻辑单元的最大性能指标值与基准指标值的比值之和。 [0013] a system of evaluation system of the present invention provides a CRM server virtualization capabilities of the physical embodiment, the performance calculation module is further configured to, after the maximum performance index value is calculated for each logical unit, calculates a single physical server or a physical server virtualization performance composite group; virtual performance composite single physical server or a group of physical servers as the ratio of the index value and the maximum reference index value and performance of each logical unit.

[0014] 本发明提供的评估CRM系统物理服务器虚拟化能力的方法及系统有效的解决了IT基础设施管理部门在CRM系统的虚拟化软、硬件平台的选型、迁移、扩容以及验收等环节上技术问题,满足了用户对物理服务器虚拟化能力评估的需求。 [0014] CRM system to assess physical servers present invention provides a method and system virtualization capabilities effectively solves the IT infrastructure management in the selection of virtualization software and hardware platform, CRM systems, migration, expansion and acceptance and other sectors technical problems and meet the needs of users on the physical server virtualization capabilities assessment.

附图说明 BRIEF DESCRIPTION

[0015] 图1示出单台物理服务器虚拟化结构示意图; [0015] Figure 1 shows a schematic structure of a single physical server virtualization;

[0016] 图2示出物理服务器组(多台物理服务器)虚拟化结构示意图; [0016] FIG. 2 shows the physical server group (more than one physical server) according to one virtualization;

[0017] 图3示出本发明的评估CRM系统物理服务器虚拟化能力的方法的一个实施例的流程图; [0017] FIG. 3 illustrates a method virtualization capabilities of the physical server CRM system evaluation of the present invention is a flow diagram of the embodiment;

[0018] 图4示出本发明的评估CRM系统物理服务器虚拟化能力的方法的一个实施例的流程图; [0018] FIG. 4 illustrates a method virtualization capabilities of the physical server CRM system evaluation of the present invention is a flow diagram of the embodiment;

[0019] 图5示出本发明的评估CRM系统物理服务器虚拟化能力的系统的一个实施例的结构示意图。 [0019] FIG. 5 illustrates a system assess physical CRM system server virtualization capabilities of the present invention is a schematic structural diagram of the embodiment.

具体实施方式 detailed description

[0020] 下面参照附图对本发明进行更全面的描述,来说明本发明示例性的各种实施例。 [0020] The following more fully described with reference to the accompanying drawings of the present invention will be described various illustrative embodiments of the invention.

[0021] 用户在一台或者多台物理服务器上希望部署CRM应用,需要对选择的物理服务器的虚拟化能力进行测量和评估。 [0021] the user wants to deploy CRM applications, the need for physical server virtualization capabilities of the selected measured and evaluated on a single or multiple physical servers. 根据应用场景的需要,物理服务器资源通常被划分为多个逻辑单元。 The required application scenario, the physical server resources is typically divided into a plurality of logical units. 本发明以在物理服务器上部署CRM应用为例进行说明,将物理服务器资源划分为四个逻辑单元(Unit),每个逻辑单元对应CRM的一种应用,可以分别是Web应用、Java应用、联机事务处理应用(OLTP,On-line TransactionProcessing)和联机分析处理(0LAP, On-line AnalyticalProcessing)。 In the present invention deployed on a physical server CRM application as an example, a physical server resources are divided into four logical units (Unit), each logical unit corresponds to an application of CRM, may be applied separately Web, Java applications, online transaction processing applications (OLTP, On-line TransactionProcessing) and online analytical processing (0LAP, On-line AnalyticalProcessing). 需要说明的是:本发明实施例中根据应用需要将物理服务器划分为四个逻辑单元仅为举例说明,而并不是要限定为该固定模式或穷举说明,本领域技术人员根据本发明公开的发明构思可以清楚地知晓很多修改和变化对于本领域的普通技术人员而言是显而易见的。 It should be noted that: according to the embodiment of the present invention applications require physical server into four logic cells only illustrative and not intended to be exhaustive or limited to this fixed pattern description, one skilled in the art according to the disclosure of the present invention its inventive concepts can be clearly many modifications and variations to those of ordinary skill in the art it will be apparent.

[0022] 图1示出单台物理服务器虚拟化结构示意图。 [0022] Figure 1 shows a schematic structure of a single physical server virtualization. 如图1所示,单台物理服务器100被划分为四个逻辑单元:单元1、单元2、单元3和单元4 ;四个单元分别对应于CRM的Web应用、Java应用、OLTP应用和OLAP应用;在每个单元内虚拟出一个或者多个虚拟机(如单元1中虚拟一个虚拟机1,单元2中虚拟一个虚拟机2和一个虚拟机幻,并在该虚拟机上部署基准测试组织定义的该类应用,如TPC-C应用、TPC-H应用、SPECjbb和SPECweb等。 As shown, a single physical server 100 1 is divided into four logical units: unit 1, unit 2, unit 3 and unit 4; corresponding to the four unit CRM Web application, Java applications, and OLAP applications OLTP application ; virtualized within each cell one or more virtual machines (e.g., a virtual unit 1 1 virtual machine, the virtual unit 2 in a virtual machine and a virtual machine phantom 2, and deployed in the tissue benchmarking virtual machine definition the type of application, such as the TPC-C application, TPC-H applications, SPECweb SPECjbb and the like.

[0023] 本发明中被测试和评估的物理服务器可以是X86架构的服务器,也可以是其它架构的服务器,如小型机;在被测试和评估的服务器上应用了虚拟化技术,采用的虚拟化技术可以是硬件或者软件层次的主机虚拟化技术。 [0023] The present invention is in physical servers can be tested and evaluated X86 server architecture, other architectures may be a server, such as minicomputers; application virtualization technology in the testing and evaluation server using virtualization technology can be hardware or software-level host virtualization technology. 本发明涉及的逻辑结构、数据关系、应用类型等具体内容,用户可以参考业界公认的标准性能评估组织(TPCJransactionProcessing Performance Council)禾口标准性能评估组织(SPEC, Standard Performance Evaluation Corp.)发布的基准测试体系的技术规范内的相关内容。 Logical structure of the present invention, data relationships, application specific content types, the user can refer to industry-accepted standards organization Performance Evaluation (TPCJransactionProcessing Performance Council) Wo tissue port Standard Performance Evaluation (SPEC, Standard Performance Evaluation Corp.) published benchmark related content within the technical specifications of the system. TPC和SPEC制定的基准程序的标准规范包括:TPC-C、TPC-H、SPECjbb和SPECweb,其中TPC-C适合评价OLTP应用服务器性能,TPC-H适合评价OLAP应用服务器性能,SPECjbb适合评价Java类型的应用服务器性能, SPECweb适合评价Web应用服务器性能。 Standard Specification TPC and SPEC determined standard program include: TPC-C, TPC-H, SPECjbb and SPECweb, wherein the TPC-C suitable for evaluating OLTP application server performance, TPC-H suitable for evaluating OLAP application server performance, SPECjbb suitable for evaluating the Java type the application server performance, SPECweb suitable for evaluating Web application server performance.

[0024] 对于由多台物理服务器构成的物理服务器组可以采用类似的逻辑单元划分方式和虚拟化技术。 [0024] For physical servers the group consisting of multiple physical servers division manner similar to the logic unit and virtualization techniques may be employed. 图2示出物理服务器组(多台物理服务器)虚拟化结构示意图。 Figure 2 shows a schematic structural diagram of a physical server virtualization group (multiple physical servers). 如图2所 FIG. 2

示,多台物理服务器200(物理服务器1,物理服务器2......物理服务器M)被划分为四个 Shown, multiple physical servers 200 (1 physical servers, the physical server 2 ...... physical server M) is divided into four

逻辑单元:单元1、单元2、单元3和单元4 ;四个单元分别对应于CRM的Web应用、Java应用、OLTP应用和OLAP应用;一个逻辑单元可以使用多个物理服务器,如单元2。 Logic unit: unit 1, unit 2, unit 3 and unit 4; corresponding to the four unit CRM Web application, Java applications, and OLAP applications OLTP application; logic unit may use a plurality of physical servers, such as the unit 2. 在每个单元内虚拟出一个或者多个虚拟机(如单元1中虚拟一个虚拟机1,单元2中虚拟一个虚拟机2和一个虚拟机幻,并在该虚拟机上部署基准测试组织定义的该类应用,如TPC-C应用、 TPC-H应用、SPECjlA和SPECweb等。需要说明的是图2是物理服务器组CRM应用的结构示意图,在服务器组的环境上部署CRM应用时,实际部署时对服务器资源的划分会有所不同。 Virtualized within each cell one or more virtual machines (e.g., a virtual unit 1 1 virtual machine, the virtual unit 2 in a virtual machine and a virtual machine phantom 2, and the deployment of the reference test organization defined on the virtual machine such applications, applications such as TPC-C, TPC-H applications, SPECjlA SPECweb and the like. Note that FIG. 2 is a schematic diagram of a physical server group CRM applications, CRM application deployment server group on the environment, actual deployment server resources division will vary.

[0025] 在单台物理服务器(如图1所示)或者多台物理服务器(如图2所示)上部署CRM应用后,用户需要知晓所选择的物理服务器的虚拟化能力是否能够满足用户需求。 If [0025] In a single physical server (FIG. 1) or a plurality of physical server virtualization capabilities of the physical server selected (FIG. 2) after deployment CRM applications, the user needs to know to meet the needs of users . 在随后的实施例中,本发明将进一步详细介绍对物理服务器或者物理服务器组的虚拟化能力在CRM应用下的虚拟化能力的测试和评估方案,为用户选择虚拟化软、硬件平台的选型、迁移、 扩容以及验收等环节提供切实可行的依据。 In the following embodiment, the present invention will be further described in detail on the physical capacity of the physical server or virtual server group in test and evaluation program virtualization capabilities of the CRM application, selected by the user virtualization software, hardware platform selection , migration, expansion and acceptance and other sectors to provide practical basis.

[0026] 图3示出本发明的评估CRM系统物理服务器虚拟化能力的方法的一个实施例的流程图。 [0026] FIG. 3 illustrates a method virtualization capabilities of the physical server CRM system evaluation of the present invention is a flow diagram of the embodiment.

[0027] 如图3所示,步骤302,对应于CRM系统的应用类型,将单台物理服务器或物理服务器组资源划分为多个逻辑单元。 [0027] As shown in FIG. 3, step 302, corresponding to application type CRM system, dividing a single physical server or server group of physical resources to a plurality of logical units. 以在物理服务器上的CRM系统应用为例,将单台物理服务器或物理服务器组划分为四个逻辑单元:单元1、单元2、单元3和单元4 ;四个单元分别对应于CRM的Web应用、Java应用、OLTP应用和OLAP应用。 In CRM System on a physical server as an example, a single physical server or a server group is divided into four physical logical units: unit 1, unit 2, unit 3 and unit 4; corresponding to the four unit CRM Web application , Java applications, OLTP applications and OLAP applications.

[0028] 步骤304,在每个逻辑单元内虚拟出一个或多个虚拟机。 [0028] Step 304, a virtual one or more virtual machines within each logical unit. 以在物理服务器上的CRM 系统应用为例,根据用户需求和应用需要在四个逻辑单元内虚拟出一个或多个虚拟机(如图2所示,在单元1中虚拟一个虚拟机1,在单元2中虚拟一个虚拟机2和一个虚拟机3)采用的虚拟化技术可以是硬件或者软件层次的主机虚拟化技术,本领域技术人员可以根据具体应用选择现有技术中的软硬件虚拟技术。 In CRM System on a physical server for example, according to user needs and application needs four virtual logical unit in the one or more virtual machines (shown in Figure 2, a virtual machine in a virtual unit 1, the unit 2 2 virtual machine and a virtual machine a virtual 3) virtualization technology employed can be hardware or software level virtualization host, those skilled in the art can select the prior art hardware and software virtualization technology according to the particular application.

[0029] 步骤306,根据所述应用类型进行测试环境部署,测试每个逻辑单元内的每个虚拟机的最大性能指标值。 [0029] Step 306, a test environment deployment according to the application type, the maximum test performance index value for each virtual machine within each logical unit. 以在物理服务器上的CRM系统应用为例,每个虚拟机的最大的性能指标值主要是通过不断测试和优化的过程得到的。 To the CRM system on a physical server applications, for example, the maximum value of each virtual machine performance metrics mainly through continuous testing and process optimization obtained. 本发明中测试环境的部署所涉及的逻辑结构、数据关系、应用类型等具体内容,用户可以参考业界公认的标准性能评估组织(TPC) 和标准性能评估组织(SPEC)发布的基准测试体系的技术规范内的相关内容。 Logical structure of deployment of the present invention the test environment involved, data relationships, application type specific content, the user can refer to the art recognized industry Standard Performance Evaluation Organization (TPC) and the Standard Performance Evaluation Organization (SPEC) published benchmark system specifications related content within. 常规的测试方法包括,按照一定的规则改变配置参数(如参数等额递增或递减,或以一定的规则变化等),通过多次迭代,测量性能参数值,绘制曲线图,估计或计算出峰值或突变点,从而得出虚拟机的最大性能指标值。 Conventional testing methods include, according to certain rules changing configuration parameters (e.g., parameter equal increment or decrement, or change certain rules), through multiple iterations, measured performance parameters and draw the graph, the peak value is calculated or estimated or point mutations to arrive at maximum performance index value of the virtual machine.

[0030] 步骤308,确定每个逻辑单元的最大性能指标值。 [0030] Step 308, determining the maximum performance index value for each logical unit. 对于一个逻辑单元虚拟一个虚拟机的情形,该虚拟机的最大性能指标值就是该逻辑单元的最大性能指标值;对于一个逻辑单元虚拟出多个虚拟机的情形,该逻辑单元的最大性能指标值可以是该逻辑单元内的每个虚拟机的最大性能指标值之和。 For a virtual machine a virtual logical unit case, the maximum value of the performance index is the maximum virtual machine performance index value of the logical unit; virtual logical unit to a plurality of virtual machines that case, the maximum performance index value logic unit the index value may be the maximum performance of each virtual machine within the logic unit, and. 每个逻辑单元最大性能指标值的计算公式为: The maximum index value is calculated for each logical unit performance:

η η

[0031] vScoreunii =YjV_Scorevm t ( 1 ) [0031] vScoreunii = YjV_Scorevm t (1)

i=\ i = \

[0032] 其中,VJ5COremit为某逻辑单元最大性能指标值,v_Scorevm i为该逻辑单元内第i 个虚拟机最大性能指标值,η为该逻辑单元内虚拟机个数。 [0032] wherein, VJ5COremit is the maximum value of a performance index logic unit, the logic unit v_Scorevm i for the i-th maximum performance index value of the virtual machine, [eta] for the number of logical units within the virtual machine.

[0033] 本发明提供的评估CRM系统物理服务器虚拟化能力的方法的一个实施例中,在计算出每个逻辑单元的最大性能指标值后,可以将其与用户规划的系统环境下的性能指标进行比较,或者是与用户已有的在物理服务器环境上运行良好的性能指标进行比较;通过比较从而能够对CRM系统物理服务器虚拟化能力进行性能评估,根据虚拟化能力的性能评估筛选出性能较好的物理服务器虚拟化应用,或者是进一步对物理服务器进行优化以期达到预定性能要求(一般地,预期在虚拟环境上得到的最大性能指标超过用户现有物理环境或者规划环境的性能指标)。 [0033] Evaluation Method virtualization capabilities of the physical server CRM system according to the present invention provides a performance index of the system environment in the calculation of the maximum performance index value for each logical unit, which the user can plan an embodiment, compared with a user or an existing physical server running on a good performance compared; evaluated by comparing the performance of the CRM system can be a physical server virtualization, the performance according to the performance evaluation screened virtualization capabilities than good physical server virtualization application, or further optimize the physical servers in order to reach a predetermined performance requirements (in general, is expected to get the maximum performance in a virtual environment performance indicators over the existing physical environment or user planning environment).

[0034] 图4示出本发明的评估CRM系统物理服务器虚拟化能力的方法的一个实施例的流程图。 [0034] FIG. 4 illustrates a method virtualization capabilities of the physical server CRM system evaluation of the present invention is a flow diagram of the embodiment.

[0035] 如图4所示,评估CRM系统物理服务器虚拟化能力的方法400中步骤402-408分别可以是与图3所示的步骤302-308具有相同或相似的方法流程。 [0035] As shown, the steps of the method in the CRM system server virtualization capabilities of the physical evaluation 400402-4084, respectively, may be the step shown in FIG. 3302-308 having the same or similar process flow. 为简洁起见,这里不再赘述。 For brevity, not repeat them here.

[0036] 如图4所示,在步骤408 “确定出每个逻辑单元的最大性能指标值”之后,增加步骤410“计算单台物理服务器或物理服务器组的虚拟化复合性能指标”。 After [0036] As shown in FIG 4, in step 408, "it is determined that the maximum value of the performance index for each logical unit," to increase the step 410 "Calculate single virtual servers complex physical performance or physical server group." 单台物理服务器或物理服务器组的虚拟化复合性能指标可以是每个逻辑单元的最大性能指标值与基准指标值的比值之和。 A single physical server or a virtual server complex physical performance index is the ratio may be set between the maximum performance of each logical unit and the reference index value and the index value. 被测物理服务器虚拟化能力复合性能指标值的计算为: Calculating the measured physical server virtualization capabilities composite performance indicator value is:

ν _ Scoreunjt , ν _ Scoreunjt,

[0037] ν _ Valuecomposite = ^ ^-— ( 2 ) [0037] ν _ Valuecomposite = ^ ^ - (2)

7=1 V -^COrebenchmark _j 7 = 1 V - ^ COrebenchmark _j

[0038] 其中,v_Valuecomposite为该被测物理服务器或服务器组的虚拟化能力复合性能指标值,v.Score^. j为第j个逻辑单元最大性能指标值,v_Scorebenchmark J为第j个逻辑单元的基准指标值,m为该被测物理服务器或服务器组内逻辑单元的个数。 [0038] wherein the composite performance indicator value for the virtual capacity v_Valuecomposite measured physical server or group of servers, v.Score ^. J is the j-th maximum performance index value logic cells, v_Scorebenchmark J j th logical units reference index value, m measured for the number of physical servers within a server or group of logical units. [0039] 以在物理服务器上的CRM系统应用为例,单台物理服务器或物理服务器组被划分为四个逻辑单元,在CRM应用场景下m = 4。 [0039] In the CRM system on a physical server application, for example, a single physical server or servers physical group is divided into four logical units, CRM application scenario at m = 4. 基准指标值"Vj^corebmctaart”是针对标准服务器引出的概念,标准服务器特指以一定规格的硬件配置的服务器(如IBM X360 PC Server), 本领域技术人员根据设计指标定制标准服务器,实施虚拟化技术,通过测试和优化(如更改虚拟机数量和配置、具体应用的配置等),获得的一系列最大的性能指标值作为该服务器对应的逻辑单元的虚拟化性能基准指标值;从而在测量计算出CRM应用中各逻辑单元的最大性能指标值后,将其和标准服务器上得到的对应性能基准指标值进行比较。 Benchmark value "Vj ^ corebmctaart" is a concept drawn for standard server, the server (such as IBM X360 PC Server) server refers specifically to a certain standard specifications of the hardware configuration, according to the person skilled in the design specifications customized standard servers, virtualization technology, through testing and optimization (such as changing the configuration and the number of virtual machines, application specific configuration, etc.), a series of maximum value obtained as the performance of the server corresponding to the reference index value logic unit virtualization performance; to calculate the measurement after the maximum performance index value of each logical unit CRM applications, performance benchmarks corresponding value obtained on standard servers and their comparison.

[0040] 本发明提供的评估CRM系统物理服务器虚拟化能力的方法的一个实施例中,在计算出单台物理服务器或物理服务器组的复合性能指标值后,可以将其与用户规划的系统环境下的性能指标进行比较,或者是与用户已有的在物理服务器环境上运行良好的性能指标进行比较;通过比较从而能够对CRM系统物理服务器虚拟化能力进行性能评估,根据虚拟化能力的性能评估筛选出性能较好的物理服务器虚拟化应用,或者是进一步对物理服务器进行优化以期达到预定性能要求。 [0040] Method virtualization capabilities evaluation CRM system physical server of the present invention provides a system environments embodiment, in the calculation of the composite performance indicator value is a single physical server or a physical server group, it may be a user planning an embodiment comparing the performance, or the user is compared with the conventional running performance on good physical server; evaluated by comparing the performance of the CRM system can be a physical server virtualization, performance evaluation according virtualization capabilities screened better performance physical server virtualization application, or a physical server further optimized to achieve a predetermined performance requirements.

[0041] 图5示出本发明的评估CRM系统物理服务器虚拟化能力的系统的一个实施例的结构示意图。 [0041] FIG. 5 illustrates a system assess physical CRM system server virtualization capabilities of the present invention is a schematic structural diagram of the embodiment. 如图5所示,评估CRM系统物理服务器虚拟化能力的系统500主要包括单元划分模块502、虚拟机模块504、性能测试模块506和性能计算模块508。 5, physical evaluation system CRM system server virtualization capabilities unit 500 includes a dividing module 502, the virtual machine module 504, module 506 and the performance test performance calculation module 508.

[0042] 其中,单元划分模块502,用于对应于CRM系统的应用类型将单台物理服务器或物理服务器组资源划分为多个逻辑单元。 [0042] wherein the dividing module unit 502, corresponding to the application type for the CRM system will be a single physical server or server group physical resource into a plurality of logical units. 以在物理服务器上的CRM系统应用为例,单台物理服务器或物理服务器组被划分为四个逻辑单元:单元1、单元2、单元3和单元4 ;四个单元分别对应于CRM的Web应用、Java应用、OLTP应用和OLAP应用。 In CRM System on a physical server as an example, a single physical server or servers physical group is divided into four logical units: unit 1, unit 2, unit 3 and unit 4; corresponding to the four unit CRM Web application , Java applications, OLTP applications and OLAP applications.

[0043] 虚拟机模拟模块504,用于在每个逻辑单元内虚拟出一个或多个虚拟机。 [0043] Virtual Machine simulation module 504, a virtual one or more virtual machines within each logical unit. 以在物理服务器上的CRM系统应用为例,根据用户需求和应用需要在四个逻辑单元内虚拟出一个或多个虚拟机(如图2所示,在单元1中虚拟一个虚拟机1,在单元2中虚拟一个虚拟机2和一个虚拟机幻采用的虚拟化技术可以是硬件或者软件层次的主机虚拟化技术,本领域技术人员可以根据具体应用选择现有技术中的软硬件虚拟技术。 In CRM System on a physical server for example, according to user needs and application needs four virtual logical unit in the one or more virtual machines (shown in Figure 2, a virtual machine in a virtual unit 1, the 2 in the virtual unit 2 and a virtual machine VM virtualization technology a magic using hardware or software may be a host-level virtualization technology, those skilled in the art can select the prior art hardware and software virtualization technology according to the particular application.

[0044] 性能测试模块506,用于根据所述应用类型进行测试环境部署,测试每个逻辑单元内的每个虚拟机的最大性能指标值。 [0044] Performance testing module 506, a test environment for the deployment of the type according to the application, the test value of the maximum performance of each virtual machine within each logical unit. 以在物理服务器上的CRM系统应用为例,每个虚拟机的最大的性能指标值主要是通过不断测试和优化的过程得到的。 To the CRM system on a physical server applications, for example, the maximum value of each virtual machine performance metrics mainly through continuous testing and process optimization obtained. 本发明中测试环境的部署所涉及的逻辑结构、数据关系、应用类型等具体内容,用户可以参考业界公认的标准性能评估组织(TPC)和标准性能评估组织(SPEC)发布的基准测试体系的技术规范内的相关内容。 Logical structure of deployment of the present invention the test environment involved, data relationships, application type specific content, the user can refer to the art recognized industry Standard Performance Evaluation Organization (TPC) and the Standard Performance Evaluation Organization (SPEC) published benchmark system specifications related content within. 常规的测试方法包括,按照一定的规则改变配置参数(如参数等额递增或递减,或以一定的规则变化等),通过多次迭代,测量性能参数值,绘制曲线图,估计或计算出峰值或突变点,从而得出虚拟机的最大性能指标值。 Conventional testing methods include, according to certain rules changing configuration parameters (e.g., parameter equal increment or decrement, or change certain rules), through multiple iterations, measured performance parameters and draw the graph, the peak value is calculated or estimated or point mutations to arrive at maximum performance index value of the virtual machine.

[0045] 性能计算模块508,用于计算每个逻辑单元的最大性能指标值,每个逻辑单元的最大性能指标值为逻辑单元内的每个虚拟机的最大性能指标值之和。 [0045] The performance calculation module 508, the maximum value for calculating a performance index for each logical unit, the maximum value of the performance index of each virtual machine within the maximum performance of each logical unit and the logical unit index value. 对于一个逻辑单元虚拟一个虚拟机的情形,该虚拟机的最大性能指标值就是该逻辑单元的最大性能指标值;对于一个逻辑单元虚拟出多个虚拟机的情形,该逻辑单元的最大性能指标值可以是该逻辑单元内的每个虚拟机的最大性能指标值之和。 For a virtual machine a virtual logical unit case, the maximum value of the performance index is the maximum virtual machine performance index value of the logical unit; virtual logical unit to a plurality of virtual machines that case, the maximum performance index value logic unit the index value may be the maximum performance of each virtual machine within the logic unit, and. 每个逻辑单元最大性能指标值的计算公式为:[0046] The maximum index value is calculated for each logical unit performance: [0046]

Figure CN101710301BD00081

[0047] 其中,VJ5COremit为某逻辑单元最大性能指标值,v_Scorevm i为该逻辑单元内第i 个虚拟机最大性能指标值,η为该逻辑单元内虚拟机个数。 [0047] wherein, VJ5COremit is the maximum value of a performance index logic unit, the logic unit v_Scorevm i for the i-th maximum performance index value of the virtual machine, [eta] for the number of logical units within the virtual machine.

[0048] 本发明提供的评估CRM系统物理服务器虚拟化能力的系统的一个具体实施例中, 性能计算模块508还用于在计算出每个逻辑单元的最大性能指标值之后,计算单台物理服务器或物理服务器组的虚拟化复合性能指标。 A particular system [0048] Evaluation CRM system of the present invention provides a physical server virtualization capabilities embodiment, performance calculation module 508 is further configured to, after the maximum performance index value is calculated for each logical unit, calculates a single physical server or virtualization performance composite physical server group. 单台物理服务器或物理服务器组的虚拟化复合性能指标可以是每个逻辑单元的最大性能指标值与基准指标值的比值之和。 A single physical server or a virtual server complex physical performance index is the ratio may be set between the maximum performance of each logical unit and the reference index value and the index value. 被测物理服务器虚拟化能力复合性能指标值的计算公式为: Calculated performance index value of the measured physical ability of the composite to server virtualization:

[0049] [0049]

Figure CN101710301BD00082

[0050] 其中,v_ValUe。 [0050] wherein, v_ValUe. . mp。 mp. site为该被测物理服务器或服务器组的虚拟化能力复合性能指标值,v.Score^. j为第j个逻辑单元最大性能指标值,v_Scorebenchmark J为第j个逻辑单元的基准指标值,m为该被测物理服务器或服务器组内逻辑单元的个数。 site for virtualization capabilities composite performance indicator value measured physical server or group of servers, v.Score ^. j is the j-th maximum performance index value logic unit, v_Scorebenchmark J is the reference index value j-th logical unit, m the number measured for physical servers within a server or group of logical units. 以在物理服务器上的CRM系统应用为例,单台物理服务器或物理服务器组被划分为四个逻辑单元,在CRM应用场景下m = 4。 In CRM System on a physical server as an example, a single physical server or servers physical group is divided into four logical units, CRM application scenario at m = 4.

[0051] 本发明提供的评估CRM系统物理服务器虚拟化能力的方法及系统,提出了一套合理、有效的衡量CRM系统虚拟化软、硬件平台性能的技术指标和规范,为企业或用户在物理服务器的选型、服务器扩容、评估验证等环节提供可靠依据。 [0051] CRM system to assess physical servers present invention provides a method and system virtualization capabilities, a set of reasonable and effective measure CRM system virtualization software and hardware platform specifications and technical indicators of performance for business users or physical Selection of server, server expansion, assess the verification and other sectors provide a reliable basis. 参考前述本发明示例性的描述,本领域技术人员可以清楚的知晓: The present invention is described with reference to the foregoing exemplary, and those skilled in the art can clearly know:

[0052] (1)本发明在计算出每个逻辑单元的最大性能指标值后,可以将每个逻辑单元的最大性能指标值与用户规划的系统环境下的性能指标进行比较,或者是与用户已有的在物理服务器环境上运行良好的性能指标进行比较; [0052] (1) In the present invention, the maximum performance index value is calculated for each logical unit, the performance may be the maximum performance of the system environment index value of each logical unit is compared with the user programs, or user has been running good performance on the physical server environments are compared;

[0053] (2)本发明在计算出单台物理服务器或物理服务器组的复合性能指标值后,可以将单台物理服务器或物理服务器组的复合性能指标值与用户规划的系统环境下的性能指标进行比较,或者是与用户已有的在物理服务器环境上运行良好的性能指标进行比较; [0053] Performance of the (2) system environment according to the present invention in the calculation of the composite performance indicator value is a single physical server or a physical server group, may be the composite performance of a single physical server or a physical server group target value and the user programs index to compare, or comparison with existing user to run a good performance on the physical server environments;

[0054] 本领域技术人员可以选择上述两种技术指标中的至少任意一种,通过比较从而能够对CRM系统物理服务器虚拟化能力进行性能评估,根据虚拟化能力的性能评估筛选出性能较好的物理服务器虚拟化应用,或者是进一步对物理服务器进行优化以期达到预定性能要求。 [0054] Those skilled in the art may select at least two kinds of any of the above specifications of one, can be performed by comparing the performance evaluation of the physical server CRM system virtualization, the performance evaluation virtualization capabilities screened better performance server virtualization physical, or physical server is further optimized to achieve a predetermined performance requirements. 本发明提供的评估CRM系统物理服务器虚拟化能力的方法及系统,对于判断物理服务器的资源分配比例是否合理,虚拟化能力是否满足用户的需求提供了衡量的依据,从而有效的解决了IT基础设施管理部门在CRM系统的虚拟化软、硬件平台的选型、迁移、扩容以及验收等环节上技术问题,满足了用户对物理服务器虚拟化能力评估的需求。 Assessment of CRM system physical servers present invention provides a method of virtualization and system capabilities, to determine resource allocation ratio of physical servers is reasonable, virtualization capabilities meets the needs of users provides the basis to measure, so as to effectively solve the IT infrastructure management in the selection of virtualization software and hardware platform, CRM systems, migration, expansion and acceptance on the part of other technical issues, to meet the user demand for physical server virtualization capabilities assessment.

[0055] 本发明的实施例是为了示例和描述起见而给出的,而并不是无遗漏的或者将本发明限于所公开的形式。 [0055] Example embodiments of the present invention is for the sake of illustration and description is given, but not exhaustive or to limit the invention to the form disclosed. 很多修改和变化对于本领域的普通技术人员而言是显而易见的。 Many modifications and variations to those of ordinary skill in the art are obvious. 选择和描述实施例是为了更好说明本发明的原理和实际应用,并且使本领域的普通技术人员能够理解本发明从而设计适于特定用途的带有各种修改的各种实施例。 The embodiments were chosen and described in order to best explain the principles and practical applications of the present invention and enable one of ordinary skill in the art to understand the invention for various design suited to the particular use with a variety of modified embodiments.

Claims (7)

  1. 1. 一种评估CRM系统物理服务器虚拟化能力的方法,其特征在于,所述方法包括: 对应于CRM系统的应用类型,将单台物理服务器或物理服务器组资源划分为多个逻辑单元;在每个所述逻辑单元内虚拟出一个或多个虚拟机;根据所述应用类型进行测试环境部署,测试每个所述逻辑单元内的每个所述虚拟机的最大性能指标值;确定每个所述逻辑单元的最大性能指标值;将每个所述逻辑单元的最大性能指标值与用户已有的性能指标进行比较; 根据比较的结果,筛选出性能最好的物理服务器虚拟化应用,或对物理服务器进行优化。 1. A method for CRM system server virtualization capabilities of the physical evaluation, characterized in that the method comprises: application type corresponding to the CRM system, a plurality of logic cells divided into a single physical server or server group of physical resources; in each of the virtual logical unit within one or more virtual machines; deployment, the maximum value of the performance index for each of the virtual machine within the test environment, test each of the logic unit according to the type of application; determining each the maximum value of the performance index of the logical units; the maximum performance of each logical unit of the target value and the user's previous performance compared; the result of the comparison, the best performance of selected physical server virtualization, or optimize the physical server.
  2. 2.根据权利要求1所述的评估CRM系统物理服务器虚拟化能力的方法,其特征在于,每个所述逻辑单元的最大性能指标值为所述逻辑单元内的每个所述虚拟机的最大性能指标值之和。 The evaluation of the CRM system physical server virtualization capabilities of a method as claimed in claim, wherein each of the maximum performance within each of the logic cells is an indicator of the maximum virtual machine logic unit index value and performance.
  3. 3.根据权利要求1所述的评估CRM系统物理服务器虚拟化能力的方法,其特征在于,所述方法进一步包括:在确定出每个所述逻辑单元的最大性能指标值之后,计算所述单台物理服务器或物理服务器组的虚拟化复合性能指标。 The evaluation of the CRM system physical server virtualization capabilities of a method as claimed in claim, characterized in that, said method further comprising: after determining the maximum performance index value for each of the logic unit calculates said single complex virtualization performance physical server or physical server group.
  4. 4.根据权利要求3所述的评估CRM系统物理服务器虚拟化能力的方法,其特征在于,所述单台物理服务器或物理服务器组的虚拟化复合性能指标为每个所述逻辑单元的最大性能指标值与基准指标值的比值之和。 The CRM system evaluation of the physical server virtualization capabilities of the third method as claimed in claim, wherein said single composite virtualized physical performance server or server group for maximum physical performance of each of the logic unit the ratio of the reference index value and the index value.
  5. 5.根据权利要求1至4中任意一项所述的评估CRM系统物理服务器虚拟化能力的方法,其特征在于,将所述单台物理服务器或物理服务器组资源划分为4个逻辑单元,分别对应于Web应用、Java应用、OLTP应用和OLAP应用。 5. The method of any of 1 to 4 Evaluation CRM system according to a physical server virtualization capabilities claim, wherein the single physical server or server group of physical resources are divided into four logic cells, respectively, It corresponds to a Web application, Java applications, OLTP applications and OLAP applications.
  6. 6. 一种评估CRM系统物理服务器虚拟化能力的系统,其特征在于,所述系统(500)包括:单元划分模块(50¾,用于对应于CRM系统的应用类型将单台物理服务器或物理服务器组资源划分为多个逻辑单元;虚拟机模拟模块(504),用于在每个所述逻辑单元内虚拟出一个或多个虚拟机; 性能测试模块(506),用于根据所述应用类型进行测试环境部署,测试每个所述逻辑单元内的每个所述虚拟机的最大性能指标值;性能计算模块(508),用于计算每个所述逻辑单元的最大性能指标值,每个所述逻辑单元的最大性能指标值为所述逻辑单元内的每个所述虚拟机的最大性能指标值之和;性能比较模块,用于将每个所述逻辑单元的最大性能指标值与用户已在运行的性能指标进行比较;筛选/优化模块,用于根据比较的结果,筛选出性能最好的物理服务器虚拟化应用,或对物 6. A method of assessing physical server CRM system capacity virtualization system, characterized in that the system (500) comprising: a unit division module (50¾, corresponding to the application type for the CRM system will be a single physical server or physical servers group resource into a plurality of logical units; virtual machine simulation module (504) for one or more virtual machines in each of the virtual logical unit; performance test module (506), according to the type of application testing deployment environment, each test of the logic unit in each of the virtual machine maximum performance indicator value; maximum performance index value is calculated for each of the logical unit performance calculation module (508), for each each indicator value of the virtual machine and the maximum performance within the maximum value of the performance index of the logical units of the logical unit; comparison module performance, the maximum performance for each of the logic unit and the user index value has been compared to the performance metrics; screened / optimization module, according to the result of the comparison, the best physical properties selected virtual server application thereof or 理服务器进行优化。 To optimize the management server.
  7. 7.根据权利要求6所述的评估CRM系统物理服务器虚拟化能力的系统,其特征在于,所述性能计算模块(508)还用于在计算出每个所述逻辑单元的最大性能指标值之后,计算所述单台物理服务器或物理服务器组的虚拟化复合性能指标;所述单台物理服务器或物理服务器组的虚拟化复合性能指标为每个所述逻辑单元的最大性能指标值与基准指标值的比值之和。 The evaluation of the physical server CRM system virtualization system 6 capable claim wherein the performance calculation module (508) is further configured to calculate the maximum value of the performance index for each of the logical unit after calculating said single composite virtualized physical server performance or physical servers group; virtual composite performance of the single physical server or a server group for maximum physical performance of each logical unit of said index value and the reference index the ratio of the sum of values.
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