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This unit also includes knowledge about mechanisms for protecting the access of programs, processes, and users to the resources of a computer system.џўThis unit is concerned with memory management strategies and algorithms, the implementation and use of virtual memory, the organization and management of file systems, and input/output management and disk scheduling.џўThis unit is concerned with the process concept, and how processes are represented and controlled. This unit includes knowledge about models of process creation and activation, coordination and synchronization of concurrent processes, and scheduling strategies and algorithms.џўThis unit is concerned with general operating system objectives, components, features, functions, and structuring. This unit includes information about the history, evolution and philosophy of operating systems.џўThis area is concerned with the history, evolution, philosophy, design, implementation and utilization of computer operating systems. This includes elements such as tasking and processes; process coordination and synchronization; scheduling and dispatch; physical and virtual memory organization; device management; file systems and naming; security and protection; and distributed and real-time systemsџўThis unit is concerned with the elements of probability, descriptive statistics, discrete distributions, probability distributions, estimation of population parameters, hypothesis testing, confidence intervals, regression analysis, analysis of variance, experimental design, and statistical control.џўThis unit is concerned with the rules of counting, permutations, combinations, the principle of inclusion and exclusion, generating functions, recurrence relations, and combinatorial algorithmsџўThis unit is concerned with formal models of computation such as state machines and automata, regular expressions, Turing machines and recursive functions, along with corresponding elements of formal languages. This unit includes knowledge about the mathematical basis of computability, the formal theory used in compiler design, and model-based and algebraic-based formal specification languages.џўThis unit is concerned with the mathematical structure, operations, properties, and applications of sets, relations, trees, and graphs. This unit also includes knowledge about algebraic systems and their applications: Boolean algebra and switching functions, rings and modular arithmetic, and groups and coding theory.џўThis unit is concerned with propositional logic, predicate logic, temporal logic, formal and rigorous proof techniques, mathematical induction, and automatic theorem provingџўThis area is concerned with the mathematical foundations of computing. 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П€ €гь™ т@гь™ т@UserDefined66666666666 П€ €гь™ т@гь™ т@SummaryInfo66666666666 П€ €lœы™ т@lœы™ т@AccessLayout88888888888 П€˜'ъ™ т@˜'ъ™ т@SysRel,,,,,,,,,,, П€˜'ъ™ т@˜'ъ™ т@Scripts........... П€˜'ъ™ т@˜'ъ™ т@Reports........... П€˜'ъ™ т@˜'ъ™ т@Modules........... П€˜'ъ™ т@˜'ъ™ т@Forms*********** П˜'ъ™ т@˜'ъ™ т@€MSysRelationshipsЋŸDDDDDDDDDDB џ˜'ъ™ т@˜'ъ™ т@€MSysQueriesЋŸ88888888886 џ˜'ъ™ т@˜'ъ™ т@€MSysACEsЋŸ2222222222@ €њ№LVAL "/f Ч х”w2€ @€This unit is concerned with concepts, techniques, and applications in telecommunications. This unit also includes the following knowledge: netџўThis unit is concerned with concepts, techniques, and applications in telecommunications. This unit also includes the following knowledge: network architectures; protocols and standards; transmission techniques and devices; speed and quality tradeoffs; security and encoding algorithms.џўThis unit is concerned with the concepts, design, and evolution of non- Von Neuman computer architectures. This unit also includes the following knowledge: pipeling, RISC and CISC architectures, multiprocessors and multicomputers, parallel programming, data flow architecture, interconnection networks, and neural networks.џўThis unit is concerned with the Von Neuman computer architecture that includes processors, memory, input/output, and transfer of information. This unit also includes the following knowledge: machine language organization, assembly language organization, processor design, microprogramming, control unit, arithmetic logic unit, bus architecture, memory organization, I/O and interrupt interface, and peripheral devices.џўThis unit is concerned with the theory, analysis and design of combinational and sequential digital circuits. This unit also includes the following knowledge: Boolean algebra, combinational logic circuits, digital multiplexers, circuit minimization techniques, flip-flop storage elements, shift registers, counting devices, sequential logic circuits, and integrated circuits.џўThis area is concerned with methods of organizing efficient, reliable computing systems. It includes digital logic and digital systems, machine level representation of data, assembly level machine organization, processor architecture, memory system organization, interfacing, communications and networks, and alternative architectures.џўThis unit is concerned with time and space complexity and its use in analyzing algorithms. Knowledge in this unit includes using algorithm and data structure analysis to make time-space tradeoffs in algorithm/data structure selection and using experimental methods to corroborate theoretical complexity analysis. This unit also includes knowledge about complexity classes, including P and NP, and about models of computable functions, undecidable problems, and recursive functionsџўThis unit is concerned with understanding and using problem-solving strategies such as greedy algorithms, divide-and-conquer algorithms and backtracking algorithms. This unit also includes knowledge about the design and use of recursive algorithms, about algorithms related to solving problems using the basic data structures, about sorting and searching algorithms, and about parallel and distributed algorithms.џўThis unit is concerned with abstract data types, information hiding, modularity, and implementations using various data structures. Knowledge about basic data structures includes the definition, implementation, and applications of the following structures: lists, arrays, tables, stacks, queues, trees, and graphs. This unit also includes issues related to static and dynamic implementations and the trade-offs between different implementation strategies.џўThis area is concerned with basic data structures, abstract data types, recursive algorithms, algorithm analysis, sorting and searching, complexity and computability issues, problem-solving strategies, and parallel and distributed algorithmsџўThis category is concerned with knowledge, concepts, theory, principles, methods, skills, and applications of computing that form the foundation for the development of software and the discipline of software engineering. 2і~E г < Щ Œ M б ‰ E  т Є A џ Щ ” Y  ˜UЪNЙ}D3ћСT f8ђŒ\%ѓМ†N~џў2.5џўSoftware Operation and MaintenanceЖ@џў[Arnold 93], [Arthur 88], [IEEE 94], [Lano 94], [IEEE 94], [Lehman 85], [Pigoski 97]7+џў2.4.7џўTest Documentationќ@ )) џў2.4.6џўInstallation Testing*@++ џў2.4.5џўAcceptance Testingp@ )) џў2.4.4џўPerformance TestingN@** џў2.4.3џўSystem Testingћ@%% џў2.4.2џўIntegration TestingГ@** џў2.4.1џўUnit TestingЫ@## џў2.4џўSoftware TestingС@џў[Beizer 84], [Beizer 90], [IEEE 94], [Pfleeger 98]Y%џў2.3.3џўCoding Standards and Documentationд@99- џў2.3.2џўCode Reuse@!! џў2.3.1џўCode ImplementationТ@** џў2.3џўSoftware Coding<@џў[Booch 87], [Deimel 90], [Dijkstra 76] , [Humphrey 95], [Pfleeger 98, [Wilde 90]v$џў2.2.5џўAlgorithm DesignZ@'' џў2.2.4џўData Structure DesignЃ@,, џў2.2.3џўInterface Designj@'' џў2.2.2џўAbstract SpecificationЌ@--! џў2.2.1џўArchitectural DesignД@++ џў2.2џўSoftware Designц@џў[Budgen 94], [DeMarco 79], [Dixon 96], [GE 86], [Garland 96], [Gomaa 93], [Hatley 87], ], [IEEE 94], [Page-Jones 80], [Pfleeger 98], [Ward 85], [Yourdon 79]Ц$џў2.1.3џўRequirements Specificationи@11% џў2.1.2џўRequirements AnalysisQ@,, џў2.1.1џўRequirements ElicitationЃ@//# џў2.1џўSoftware Requirements Engineeringя@џў[Davis 93], [Faulk 96], [IEEE 94], [Jackson 95], [Loucopoulos 95], [Pfleeger 98]ˆ6*2џўSoftware Product Engineering@џў[Beizer 90] , [Budgen 94] , [Davis 93], [IEEE 94], [Pigoski 97]o."џў1.5.3џўProgramming Language Design and Implementationм@EE9 џў1.5.2џўProgramming ParadigmsЎ@,, џў1.5.1џўTheory of Programming Languages.@66* џў1.5џўProgramming Languagesa@џў[Appleby 91], [Sebesta 89], [Trembley 85], [Tucker 91], [Wilson 93]o*џў1.4.5џўDistributed and Real-Time SystemsP@ 88, џў1.4.4џўSecurity and Protection[@ .." џў1.4.3џўMemory Managementк@ (( џў1.4.2џўProcess Management@)) џў1.4.1џўOperating Systems Fundamentalsе@55) џў1.4џўOperating Systems•@џў[Silberschatz 94], [Tanenbaum 87], [Tucker 91]V&џў1.3.5џўProbability and Statistics-@11% џў1.3.4џўCombinatoricsУ@$$ џў1.3.3џўFormal Systems@%% џў1.3.2џўDiscrete Mathematical Structures@@77+ џў1.3.1џўMathematical Logic and Proof SystemsЏ@;;/ џў1.3џўMathematical Foundationsм@џў[Aho 92], [Grimaldi 94], [Guttman 71], [Tucker 91], [Woodock 88]o-!џў1.2.4џўCommunications and Networks @ 22& џў1.2.3џўAlternative ArchitecturesE@00$ џў1.2.2џўComputer System OrganizationЄ@33' џў1.2.1џўDigital Systemsy@&& џў1.2џўComputer ArchitectureQ@џў[Floyd 97], [Forouzan 98], [Hayes 88], [Heuring 97], [Mano 93], [Tannebaum 90], [Tucker 91]Š*џў1.1.3џўAnalysis of Algorithmsт@--! џў1.1.2џўDesign of AlgorithmsŸ@++ џў1.1.1џўBasic Data StructuresЩ@,, џў1.1џўAlgorithms and Data Structuresѓ@џў[Horowitz 83], [Sedgewick 88], [Tucker 91], [Weiss 94]k3'1џўComputing Fundamentalsо@џў [Aho 92], [Brookshear 94], [Denning 89], [Lethbridge 98], [Tannebaum 90], [Tucker 91], [Woodcock 88] [Aho 92], [Brookshear 94], [Denning 89], [Lethbridge 98], [Tannebaum 90], [Tucker 91], [Woodcock 88]§(LVAL $u5 І у Ж !L6\БЕThis unit is concerned with knowledge about test plan preparation, test design specification, test case specification, test џўThis unit is concerned with knowledge about test plan preparation, test design specification, test case specification, test procedures specification, test item transmittal reports, test log specification, test incident report and test summary report.џўThis unit is concerned with operating system issues for distributed and real-time computing systems. These includes knowledge about representation of time, process synchronization and communication in distributed and real-time systems, distributed file systems, remote services, control of shared resources, and client/server systems.џўThis unit is concerned with techniques for dealing with threats to the security of computer system information and resources from unauthorized access, malicious destruction, or accidental events. This unit also includes knowledge about mechanisms for protecting the access of programs, processes, and users to the resources of a computer system.џўThis unit is concerned with memory management strategies and algorithms, the implementation and use of virtual memory, the organization and management of file systems, and input/output management and disk scheduling.џўThis unit is concerned with the process concept, and how processes are represented and controlled. This unit includes knowledge about models of process creation and activation, coordination and synchronization of concurrent processes, and scheduling strategies and algorithms.џўThis unit is concerned with general operating system objectives, components, features, functions, and structuring. This unit includes information about the history, evolution and philosophy of operating systems.џўThis area is concerned with the history, evolution, philosophy, design, implementation and utilization of computer operating systems. This includes elements such as tasking and processes; process coordination and synchronization; scheduling and dispatch; physical and virtual memory organization; device management; file systems and naming; security and protection; and distributed and real-time systemsџўThis unit is concerned with the elements of probability, descriptive statistics, discrete distributions, probability distributions, estimation of population parameters, hypothesis testing, confidence intervals, regression analysis, analysis of variance, experimental design, and statistical control.џўThis unit is concerned with the rules of counting, permutations, combinations, the principle of inclusion and exclusion, generating functions, recurrence relations, and combinatorial algorithmsџўThis unit is concerned with formal models of computation such as state machines and automata, regular expressions, Turing machines and recursive functions, along with corresponding elements of formal languages. This unit includes knowledge about the mathematical basis of computability, the formal theory used in compiler design, and model-based and algebraic-based formal specification languages.џўThis unit is concerned with the mathematical structure, operations, properties, and applications of sets, relations, trees, and graphs. This unit also includes knowledge about algebraic systems and their applications: Boolean algebra and switching functions, rings and modular arithmetic, and groups and coding theory.џўThis unit is concerned with propositional logic, predicate logic, temporal logic, formal and rigorous proof techniques, mathematical induction, and automatic theorem provingџўThis area is concerned with the mathematical foundations of computing. This includes mathematical logic, proof systems, discrete mathematical structures, formal languages, combinatorics, and probability and statistics.0LVAL Ÿq У ч fwдzPФ w * п < This unit is concerned with knowledge about validating that a system will operate under all configuration possibilities. . This includes knowledge џўThis unit is concerned with knowledge about validating that a system will operate under all configuration possibilities. . This includes knowledge techniques to perform configuration command checking in terms of rotation and permutation of all physical, logical and functional entities of system.џўThis unit is concerned with knowledge about the detailed specification and design of the algorithms used to implement software functionality and services. This includes knowledge about the representation of procedural detail in an appropriate notation or language such as flowcharts, box diagrams, decision tables, and program design languages.џўThis unit provides knowledge that supports the systematic development of a complete understanding of the problem domain. This unit also includes knowledge about methods and techniques for uncovering, discovering and communicating functional and non-functional requirements and constraints; it provides a foundation for decomposing a problem into intellectually manageable pieces by using objects, functions and statesџўThis area is concerned with establishing a common understanding of the requirements to be addressed by the software product. It consists of a set of transformations that attempt to understand the exact needs of a software intensive system and convert the statement of the needs into a complete and unambiguous description of the requirements, documented according to a specified standard. This area includes knowledge of the requirements activities of elicitation, analysis, and specification.џўThis category is concerned with a well-defined and integrated set of activities to produce correct, consistent software products effectively and efficiently. Software Product Engineering includes the technical activities of producing a software product, such as requirements engineering, design, coding and test. These engineering activities involve documenting software work products and maintaining traceability and consistency between them. This category includes knowledge about the controlled transition between the stages of the software life cycle and the activities needed to deliver high-quality software products to the customer.џўThis unit is concerned with programming language design and implementation issues: the use of virtual machines in language understanding; representation of data types; sequence control; data control, sharing and type checking; run-time management; and language translation systems. This unit includes design and implementation of compiler and run-time systems for high-level languages, and the interaction between language design, compiler design, and run-time organization.џўThis unit is concerned with programming paradigms and languages for these paradigms: the history of programming languages, the procedural language paradigm, the object-oriented language paradigm, the functional language paradigm and the logic language paradigm. This unit includes knowledge about writing programs in the various paradigms, and comparing and contrasting the advantages and disadvantages of the various paradigms.џўThis unit is concerned with the formal and theoretical elements of programming languages: fundamentals of formal languages, finite state automata and regular expressions, context-free grammars and pushdown automata, and programming language semantics (informal, axiomatic, denotational, operational).џўThis area is concerned with the history, theory, design, implementation and use of programming languages. This includes elements such as programming paradigms and related languages; grammars, automata and semantics; language translation systems; subprograms and modules; and data types, program control, assignment and expressions, and run-time issueshLVALЏ з ё =‘'„ @€ @€ @€ @€This unit is concerned with knowledge about the specification and design of the data structures to be used in the software implementation. This includes knowledge about how to translate the data objects definџўThis unit is concerned with knowledge about the specification and design of the data structures to be used in the software implementation. This includes knowledge about how to translate the data objects defined in the analysis and design models into data structures that reside within the software system. This unit also includes knowledge about data dictionaries, data flow diagram, and entity relationship diagrams.џўThis unit is concerned with knowledge about the design and documentation of the interface of between software sub-systems and between the software system and the user. This unit includes knowledge about interface design principles, task analysis and interface modeling, implementation tools, information presentation, design evaluation, and user documentation.џўThis unit is concerned with knowledge about producing an abstract specification of the services provided by each software module and the constraints under which it must operate. The unit includes specification notation and techniques for object-oriented designs, structured designs, real-time system design, and client- server system design. This unit also includes knowledge about partitioning the services provided by a sub-system across the components in that sub-system and about how to optimize component independence. This includes knowledge about module coupling and cohesion design concepts, and how to recognize and measure the degree of component independence in a design.џўThis unit is concerned with knowledge about developing a modular structure and representing the control relationships between modules. The unit includes knowledge about identifying and documenting the sub-systems making up the overall system and their relationships. It also includes knowledge about design methods and techniques for functional design, object-oriented design, real-time system design, and client-server system design.џўThis area is concerned with the transformation of the statement of requirements into a description of how these requirements are to be implemented. Software design consists of activities such as architectural design, abstract specification, interface design, component design, data structure design, and algorithm design. Software design uses a variety of techniques and forms of representation, each providing a capability for capturing and expressing a different view of the system.џўThis unit is concerned with the representation of software requirements that result from requirements elicitation and requirements analysis. This unit includes knowledge about the principles of defining system services and constraints, about the use of specification standards, and about the application of specification methods which involve structured natural language, graphical and symbolic notation, design description languages, and formal specification languages.џўThis unit provides knowledge about the modeling of software requirements in the information, functional and behavioral domains of a problem. This includes a trade-off analysis of performance requirements and the constraints on a system, along with all the perceived primary and derived requirements of a system, which highlights the affect on development cost and schedule. The unit includes knowledge about various requirements modeling methods (e.g., structured analysis, object-oriented analysis), the use of prototyping to examine and assess requirements, and domain analysis techniques.ћLVAL Ф щ  T ‰жл Ф  : ѕ А k & с œ W  Э ˆ C ўЙt/ъЅ Y   Y Y  Y This unit is concerned with knowledge about validating the functional and non- functional requirements of a purchased or acquired system. This includes knowledge about techniques forџўThis unit is concerned with knowledge about validating the functional and non- functional requirements of a purchased or acquired system. This includes knowledge about techniques for using the contract, statement of work, the SRS and the RFP to ensure that the a delivered system meets all the requirements (as perceived by the purchasing or acquiring organization).џўThis unit is concerned with knowledge about validating the performance requirements of a system. This includes knowledge about techniques to instrument performance measures like logging, event counts, event duration and sampling, and knowledge about methods for tuning a system for optimum saturation, load and throughput threshold.џўThis unit is concerned with knowledge about validating the specified functional requirements of a system. This includes knowledge about techniques to design and enact an independent testing process of all the system's functions described in the SRS.џўThis unit is concerned with knowledge about validating that software components, which have been unit tested separately, interact correctly when they are put together to perform a higher order function. This unit also includes knowledge about dependency checking for calls, data and processes, and about interface checking in terms of range, type compatibility, representation, number and order of parameters, and method of transfer.џўThis unit is concerned with knowledge about testing a program unit, typically developed by a single individual, to determine that it is free of data, logic or standards errors. This unit includes knowledge of dynamic analysis (equivalent partitioning, boundary value analysis, cause-effect graphing, logic-based testing, random testing, and syntax testing) and static analysis (complete path testing, decision testing, condition testing, data flow testing).џўThis area is concerned with establishing that a correct solution to the problem, embodied in the statement of the requirements, has been developed. Testing is a multi-stage process that consists of activities for validating the software product, from the most primitive elements up to the fully integrated system. This area includes activities such as unit testing, performance testing, integration testing, system testing, and acceptance testing.џўThis unit is concerned with knowledge about use of standards for style and documentation in the construction of software. This includes knowledge about how to develop internal and external program documentationџўThis unit is concerned with knowledge both about developing code by reuse of existing components and development of reusable code. This unit includes knowledge about reusable libraries, the inheritance mechanism, module referencing, and software portability issues and techniquesџўThis unit is concerned with knowledge about how to translate a software design into an implementation programming language. This unit includes knowledge about modular and incremental programming, structured programming, and knowledge of various programming paradigms (assembly, procedural, object-oriented, functional, and logic). It also includes knowledge about how to use source code development tools and programming language translation tools.џўThis area is concerned with knowledge about the construction of the software components that are identified and described in the design documents. This area includes knowledge about translation of a design into an implementation language, program coding styles, and the development and use of program documentationъLVALJ я 3 ]б@яThis area is concerned with defining project objectives, assessing project needs and resources, developing estimatџўThis area is concerned with defining project objectives, assessing project needs and resources, developing estimates for the work to be performed, establishing the necessary commitments, and defining the plan to perform the work.џўThis category deals with the concepts, methods and techniques for managing the development or acquisition of software products. Software management includes activities concerned with project management, with management of risk, with the configuration of a software system, and with knowledge about how to produce high-quality software.џўThis area is concerned with the restructuring or reconstruction of a software system to improve its quality, understandability, and maintainability. Software reengineering efforts are often focused on legacy systems. Software reengineering includes activities such as inventory analysis, document restructuring, reverse engineering, code restructuring, data restructuring, and forward reengineering.џўKnowledge related to the organizational, economic, and management issues involved in the maintenance of software within an organization. This unit includes knowledge about different organizational maintenance models, maintenance cost analysis and estimation, techniques for management and execution of maintenance operations, and the examination and understanding of program evolution dynamics.џўKnowledge about the process used in performing software maintenance. Such a process would include phases similar to those in a process for developing a new software product. A maintenance process is starts with a change request and a preliminary problem analysis; next a managerial and technical analysis is undertaken to investigate and cost alternative solutions; then the chosen solution is implemented and tested; and finally the change is released to the customerџўKnowledge that is concerned with the various types of maintenance: corrective maintenance, adaptive maintenance, perfective maintenance, and preventive maintenance. Corrective maintenance entails the identification and removal of faults in the software. Adaptive maintenance is concerned with changing software so that it can operate in some new environment such as on different hardware platform or for use with a different operating system. Perfective maintenance involves implementing new functional or non-functional system requirements generated by software customers as their organization or business changes. Preventive maintenance concerns to changing software to make it more maintainable.џўThis area is concerned with the methods and techniques for installing a software product and the continuing effective operation of that product. This includes provision for a smooth, orderly transition of a system from the developer organization to the user organization, and the documentation and training necessary for proper system operation.џўThis area includes concepts, methods, processes and techniques that support the ability of a software system to change, evolve and survive. It begins with initial development and configuration of the system, proceeds through its installation, day-to-day operation, and its maintenance, and may eventually include re-implementing the system to increase its maintainability or because of major changes in system requirements. Knowledge in this category supports understanding of how software systems evolve, the study and analysis of maintenance costs, the development and use of processes that are needed for effective and efficient maintenance, and strategies for dealing with legacy systems..+Йv6ѓЙSэ Й  J  с r A  в Ы Œ X " З n , ь Еu6їЗb+ѓЙуЊx<њХ’џў4.6џўReal-Time SystemsЅ@&&џў4.5џўComputer Simulation$@((џў4.4џўNumerical and Symbolic ComputingЅ@55)џў4.3џўHuman-Computer Interaction…@//#џў4.2џўDatabase SystemsГ@%%џў4.1џўArtificial IntelligenceИ@,, 4џўSoftware Domainsі@џў[CACM 95], [Gomaa 93], [Hill 90], [Krishna 92] , [Lethbridge 98], [Levi 90], [Maron 87], [Pooch 93], [Proctor 94], [Rob 97], [Russell 95], [Trembley 85], [Tucker 91]Щ"џў3.6.3џўPerformance Management@ --! џў3.6.2џўAcquisition PlanningH@++ џў3.6.1џўProcurement Process@** џў3.6џўSoftware AcquisitionD@џў[Humphrey 89], [Marciniak 90]H)џў3.5.5џўSoftware Process EngineeringQ@33' џў3.5.4џўSoftware Process AutomationD@22& џў3.5.3џўSoftware Process Assessmentj@22& џў3.5.2џўSoftware Process Improvement]@33' џў3.5.1џўQuantitative Software Process ManagementC@??3 џў3.5џўSoftware Process ManagementЃ@џў[Hanrahan 95], [Humphrey 89], [Humphrey 93], [Paulk 93], [Paulk 95], [SEI-TR07 94], [SPC 92]’0$џў3.4.4џўSoftware Configuration Status Accounting@@??3 џў3.4.3џўSoftware Configuration AuditE@33' џў3.4.2џўSoftware Configuration Controlб@55) џў3.4.1џўSoftware Configuration IdentificationA@<<0 џў3.4џўSoftware Configuration Management'@џў[Bersoff 80], [Buckley 94], [Paulk 93]^6*џў3.3.4џўDependable SystemsЃ@)) џў3.3.3џўSoftware MetricsФ@'' џў3.3.2џўVerification and Validation’@22& џў3.3.1џўSoftware Quality Assurance@11% џў3.3џўSoftware Quality ManagementK@ џў[Brooks 95] , [Gilb 93], [Gillies 92], [Fagan 76], [IEEE 94], [Ince 94], [Kan 95], [Levenson 97], [Paulk 93], [Sheppard 92], [Woodcock 88]М0$џў3.2.3џўRisk Monitoring™@&& џў3.2.2џўRisk-Management Planning.@//# џў3.2.1џўRisk Analysisм@$$ џў3.2џўSoftware Risk Management@џў[Boehm 91], [Hall 98], [Karolak 96], [Marciniak 94]b-!џў3.1.5џўProject Control§@&& џў3.1.4џўProject SchedulingS@)) џў3.1.3џўProject ForecastingП@** џў3.1.2џўProject OrganizationX@++ џў3.1.1џўProject Planning&@'' џў3.1џўSoftware Project Managementч@џў[Marciniak 94], [Paulk 93], [Thayer 88]Y0$3џўSoftware ManagementQ@џў[Boehm 83], [Boehm 91], [Humphrey 89], [Thayer 88]Y%џў2.5.5џўSoftware Reengineering‘@--! џў2.5.4џўSoftware Maintenance ManagementŒ@66* џў2.5.3џўSoftware Maintenance Processж@33' џў2.5.2џўSoftware Maintenance OperationsМ@66* џў2.5.1џўSoftware Installation and Operation[@::. OLVAL к‚ У p s _ƒUМqThis area is concerned with the concepts, methods, techniques, procedures and standards for producing high-quality software products. This area includes knowledge aџўThis area is concerned with the concepts, methods, techniques, procedures and standards for producing high-quality software products. This area includes knowledge about quality planning and control, verification and validation activities, measurement of product and process attributes, and software dependability and reliability.џўThis unit includes knowledge about to track the projects progress towards the resolution of risk items and to take corrective action where appropriate.џўThis unit includes knowledge about how to develop a risk-management plan. Such a plan lays out the activities necessary to bring each risk item under control. This requires knowledge about risk resolution strategies and how to make plans to mitigate or avoid the consequences when a risk item occurs.џўThis unit includes knowledge about the following: how to identify sources of risk: how to classify them as to their causes and symptoms; how to assess the loss probability and loss magnitude for each risk; and how to prioritize risk items using their probability of occurrence and the severity of their impact. A software engineer knowledgeable in risk identification will be able to produce lists of the project-specific risk items likely to compromise a project's success.џўThis area is concerned with the concepts, methods, and techniques for managing risks that threaten a plan for developing a software product. Risk management includes such activities as risk identification, risk analysis, monitoring risks, risk mitigation, and risk planning.џўThis unit includes knowledge about how to ensure that actual operations go according to plan. This includes knowledge about measuring performance against goals and plans, determining when deviations exist, and initiating actions to correct deviations.џўThis unit includes knowledge about how to develop a schedule for the completion of a software project. This includes determining project tasks, allocating resources for completing the tasks, determining task ordering and dependencies, scheduling start and completion times for each project task, and establishing project milestone dates.џўThis unit includes knowledge about how to anticipate future events such as availability of manpower, predicted inflation rate, and availability of new computer hardware, and how to judge the impact these events will have on a software engineering project. This includes knowledge about how to make an informed prediction of the effort, cost, time, and quality that will wiil be needed for developing, changing, and maintaining a software system.џўThis unit includes knowledge about how to determine and itemize the activities required to achieve the objectives of a software development project. This includes arranging these activities into logical clusters and assigning these logical clusters to a project team, as well as delegation of responsibility and authority to the team members.џўThis unit includes knowledge about preparing a plan for a software project. This includes knowledge about how to determine the project scope, select the objectives and goals of the project, and decide on the strategies, policies, programs, and procedures for achieving the project objectives.&LVAL § k Ї  нœЫ†FThis unit is concerned with knowledge about the recording and reporting of the information that is needed to change a configuration effectively, including a lџўThis unit is concerned with knowledge about the recording and reporting of the information that is needed to change a configuration effectively, including a listing of the approved configuration identification, the status of proposed changes to the configuration, and the implementation status of all approved changes.џўThis unit is concerned with knowledge about verifying that all required configuration items have been produced, that the current version agrees with the requirements specification, that the technical documentation completely and accurately describes the configuration items, and that all change requests have been resolved.џўThis unit is concerned with knowledge about initiation, evaluation, coordination, approval or disapproval, and implementation of changes to configuration items throughout the life cycle of a software system.џўThis unit is concerned with knowledge about defining a system's baseline components and identifying updates to a particular baseline. It also includes knowledge about the incremental establishment and maintenance of a basis for control and status accounting for configuration items throughout the software's life cycle.џўThis area deals with the discipline of identifying the configuration of a system at discrete points in time for purposes of systematically controlling changes to this configuration and maintaining the integrity and traceability of this configuration throughout the life of the software system.џўThis unit is concerned with knowledge about development of software systems that must be dependable: systems that have critical non-functional requirements for reliability, safety and security. This includes knowledge about specification of reliable software, reliability metrics, statistical testing, fault tolerance and avoidance, defensive programming and exception handling, and safety specification and assuranceџўThis unit is concerned with the following knowledge: the formulation of software measures and metrics; the collection of data required by the formulated metrics; the computation of metrics; and the analysis, interpretation and feedback of metrics results. The unit involves knowledge about product metrics (for requirements, design and code), resource metrics (for human and technical resources), and process metrics (for effort and schedule measuresџўThis unit is concerned with knowledge about verification and validation (V&V) concepts, methods, activities, and deliverables associated with each phase in the software life cycle. This includes knowledge about the following: V&V planning and orgnaization; person reviews, walkthroughs and inspections; traceability analysis; formal verification techniques; Cleanroom techniques, and software testingџўThis unit is concerned with software management functions and activities intended to insure that a software product is in conformance with its explicitly stated functional and performance requirements. It includes knowledge about organization of quality assurance units, quality planning, oversight, record keeping, analysis, auditing, and reporting. This unit also includes knowledge about quality assurance techniques such as Pareto analysis, trend analysis, statistical quality control, and regression testing.њLVAL ]  Н S ОzeThis area is concerned with knowledge about assessment of the developer's performance in developing the system being acquired. џўThis area is concerned with knowledge about assessment of the developer's performance in developing the system being acquired. This includes knowledge about management reviews, quality assurance, test and evaluation, and metrics and performance indicatorsџўThis area is concerned with knowledge about development a life-cycle plan for acquisition and utilization of a software system. This includes knowledge about project organization and communication, project budget and schedule, acquisition and development standards, subcontractor management, and software development planning.џўThis area is concerned with knowledge about the process for competitive procurement of software systems. This includes knowledge about preparation and distribution of a solicitation package, proposal evaluation and source selection, and contract negotiations and finalizationџўThis area is concerned with knowledge about acquiring a custom software system by a contracting agency from software developers independent of the agency. This includes knowledge about acquisition activities such as procurement, contracting, performance evaluation, and providing for future support of the software system.џўThis unit deals with methodologies, tools and techniques for the design and implementation of software processes. This includes knowledge about representing the important characteristics of a process as a coherent, integrated set of well-defined software engineering and management processes, for organizations, teams, and individuals.џўThis unit is concerned with knowledge about how to integrate people in a software development organization with the development process and the tools supporting that development. This includes knowledge about how to provide or utilize computer-based support and guidance for the enactment of software development processesџўThis unit is concerned with knowledge about acquiring an understanding of a software development organization's state of software practice, about identifying the key areas for improvement, and about initiating actions to make these improvements. This includes knowledge about how to utilize an assessment as a diagnostic tool to aid organizational improvement.џўThis unit is concerned with knowledge about the use of artifacts, lessons, data, and general experience from software projects to improve software products and processes. This includes knowledge about to evolve a process from lower levels to higher levels of process maturity and how to plan, develop and implement changes to the software process.џўThis unit is concerned with quantitative control of process performance for a software project. This includes knowledge about establishing software process performance goals, measurement of the process performance, analysis of process measurements, and adjustments to maintain process performance within acceptable limitsџў This area is concerned with the management of the technical aspects of the software development process. This includes knowledge about software process elements: activities, methods, practice, and transformations that people use to develop and maintain software and associated products. This includes ensuring that the processes within an organization are performing as expected: that is, defined processes are being followed and improvements to the processes are being made so as to meet organizational objectives. This includes knowledge about establishing processes that are used and can act as a foundation for systematic improvement based on the organization's needs.LVAL R Ÿ  uQЌThis area is concerned with knowledge about the development of real-time software systems. It includes knowledge about requirements, design, implementation, and basic properties of real-time application softwaџўThis area is concerned with knowledge about the development of real-time software systems. It includes knowledge about requirements, design, implementation, and basic properties of real-time application software. This also includes knowledge about concurrent programming, process synchronization and scheduling, resource management, software reliability, real-time programming languages, and real-time operating systemsџўThis area is concerned with the basic aspects of modeling and simulation. This area includes knowledge about statistical models, queuing theory, random variable generation, discrete system simulation, simulation languages, graphic output with animation, and validation of simulation models.џўThis area is concerned with methods for efficiently and accurately using computers to solve equations for mathematical models. This area also includes the following knowledge: computer representation of numerical systems; classification, analysis and control of numeric errors; iterative approximation methods; numerical algorithms used in science and engineering; and the development of mathematical software packages.џўThis area is concerned with user interfaces, computer graphics, and hypertext/hypermedia. This area also includes the following knowledge: input/output devices, and the use and construction of interfaces; graphical devices, models and algorithms used in graphical systems, and graphics packages and applications; and hypertext/hypermedia concepts, environments, applications, and design.џўThis area is concerned with file systems, database systems, and database models. This area also includes the following knowledge: the history and evolution of file and database systems; the relational database model and the Structured Query Language; entity-relationship modeling; data normalization; transaction management and concurrency control; distributed and client/server database systems; and object-oriented database systemsџўThis area is concerned with basic models of behavior and the building of (virtual and actual) machines to simulate animal and human behavior. This area also includes the following knowledge: the history and applications of artificial intelligence; problems, state spaces, and search strategies; logical and probabilistic reasoning systems; knowledge engineering; robotics; learning theory; neural networks; and natural language processingџўThe Software Domains category concerns knowledge about specific domains that involve the application and utilization of software engineering knowledge form the other categories. In this context, a software domain represents an area of knowledge that has two features: its technical content is required in the development of a particular type of software; and it represents a significant field of knowledge, with an established organization and content, that is documented by research and application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яYN  Y ˜Y sNDataIDƒџџџџџџџџџџџџќџџџџџЬџџџџA 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