Software Engineering Training Advanced

Software Engineering Training Advanced

Introduction:

Software Engineering Training Advanced course Description

This, the second of our two courses on software engineering, focuses on the software engineering toolkit. Building on the overview of the software lifecycle provided by the first course, it undertakes an in-depth study of the methodology and practice of software engineering. Upon completion of this Software Engineering Training Advanced course, you will have acquired a good understanding of the tools and techniques used throughout the software lifecycle from the conception to the installation and maintenance.

Customize It:

With onsite Training, courses can be scheduled on a date that is convenient for you, and because they can be scheduled at your location, you don’t incur travel costs and students won’t be away from home. Onsite classes can also be tailored to meet your needs. You might shorten a 5-day class into a 3-day class, or combine portions of several related courses into a single course, or have the instructor vary the emphasis of topics depending on your staff’s and site’s requirements.

Software Engineering Training Advanced CourseRelated Courses:

Duration: 3-4 days

Objectives:

•Software inception: Feasibility and estimation.
•Requirements elicitation and definition.
•Analysis and different design approaches and patterns.
•Management of configuration, change, and risk.
•Joint Application Development (JAD)
•Prototyping and user interfaces.
•Object oriented analysis, design, and programming.
•Coding and testing.
•Deployment and maintenance.
•Project management.
•Verification

Course Content:

Introduction:
•Why Study Software Engineering?

Life Cycle Models
•Software Project Life Cycle Model
•Software Process Life Cycle
•Organization Process Assets
•Software Project Life Cycle Process
•Model Descriptions
•Strengths and Weaknesses
•Case Study

Phase Artifacts/Outputs
Software Life Cycle vs Project Management Life Cycle

Objectives, Principles, Attributes
•Objectives: Reusability, Maintainability, Concurrent Documentation, Testability, Correctness, Reliability, Portability
•Principles: Concurrent Documentation, Hierarchical Decomposition, Functional Decomposition,Information Hiding, Stepwise Refinement, Structured Programming, Life-Cycle Verification
•Attributes: Reduced Coupling, Enhanced Cohesion, Reduced Complexity, Well-Defined Interfaces, Readability, Ease of Change, Traceability, Visibility of Behavior, Early Error Detection

Documentation Principles
Concurrency, Maintainability, Correctness, Portability, Reusability, Reliability, Testability, Traceability, Adaptability, Accessibility

Types of Interfaces

Project Initiation
•Description of the Business Needs/Problem to Be Solved, Objective(s), Scope
•Feasibility Studies and Estimating
•People Management (Socio-Technical Systems)
•Technical and social skills and skill sets
•Team size and communication
•Developing, maintaining, and updating a resourced project schedule and resource plan.
•Configuration Management
•Change Management
•Risk Management

Process Improvement: Software Engineering Institute’s Capability Maturity Model (SEI CMM)
Object Oriented Analysis and Design

Requirements Definition
•Stakeholders, Buy-in
•Joint Application Development (JAD)
•Requirements Management
•User Interfaces, Prototyping
•Alternatives Analysis
•Validation and Verification

Design
•Architectural Design
•Application Architectures
•Decomposition: Functional and Modular
•Object Oriented Analysis and Design
•Procurement
•Design Patterns

Development and Testing
•Object Oriented Programming
•Validation and Verification
•Types of Testing
•Unit, integration, white-box, black-box, path, boundary value analysis, equivalence classes, regression

Implementation and Support
•Deployment
•Types of Maintenance: Corrective, Perfective, Preventive, Adaptive

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Time Frame: 0-3 Months4-12 Months

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