Software Engineering is the process of designing, developing, testing, and maintaining software. It is a systematic and disciplined approach to software development that aims to create high-quality, reliable, and maintainable software. Software engineering includes a variety of techniques, tools, and methodologies, including requirements analysis, design, testing, and maintenance.
Software Development Models & Architecture👇
Software development models are frameworks that guide the process of creating software applications. They provide a structured approach to planning, designing, implementing, testing, and deploying software. Here are some common software development models.
1. Classical Waterfall Model
2. Iterative Waterfall Model
3. Spiral Model
4. Incremental process model
5. Rapid application development model(RAD)
6. RAD Model vs Traditional SDLC
7. Agile Development Models
8. Agile Software Development
9. Extreme Programming (XP)
10. SDLC V-Model
Comparison of different life cycle models👇
Software architecture refers to the high-level structure of a software system. It defines the components, their interactions, and the principles guiding their design. Here are some common software architectures:
1. User Interface Design
2. Coupling and Cohesion
3. Information System Life Cycle
4. Database application system life cycle
5. Pham-Nordmann-Zhang Model (PNZ model)
6. Schick-Wolverton software reliability model
Software Project Management(SPM)👇
Software Project Management (SPM) involves planning, organizing, and controlling software development projects to ensure they are completed on time, within budget, and according to specified quality standards. Here are some articles that gives you a deep understanding of Software Project Management (SPM):
1. Project Management Process
2. Project size estimation techniques
3. System configuration management
4. COCOMO Model
5. Capability maturity model (CMM)
6. Integrating Risk Management in SDLC | Set 1
7. Integrating Risk Management in SDLC | Set 2
8. Integrating Risk Management in SDLC | Set 3
9. Role and Responsibilities of a software Project Manager
10. Software Project Management Complexities
11. Quasi renewal processes
12. Reliability Growth Models
13. Jelinski Moranda software reliability model
14. Schick-Wolverton software reliability model
15. Goel-Okumoto Model
16. Mills’ Error Seeding Model
17. Basic fault tolerant software techniques
18. Software Maintenance
Software Metrices👇
Software metrics are quantitative measures used to assess various aspects of software development processes, products, and projects. These metrics provide valuable insights into the quality, performance, and efficiency of software development efforts. Here are some common software metrics:
1. People Metrics and Process Metrics in Software Engineering
2. Halstead’s Software Metrics
3. Cyclomatic Complexity
4. Functional Point (FP) Analysis – Software Engineering
5. Lines of Code (LOC) in Software Engineering
6. Software Measurement and Metrics
Software Requirements👇
Software requirements are descriptions of the features, functions, capabilities, and constraints that a software system must possess to meet the needs of its users and stakeholders. They serve as the foundation for software development, guiding the design, implementation, and testing phases of the project. These articles break down software requirements into easy-to-understand concepts
1. Requirements Engineering Process
2. Classification of Software Requirements
3. How to write a good SRS for your Project
4. Quality Characteristics of a good SRS
5. Requirements Elicitation
6. Challenges in eliciting requirements
Software Configuration👇
Software configuration refers to the process of managing and controlling changes to software systems, components, and related artifacts throughout the software development lifecycle. Here are some articles that helps you in exploring the knowledge of Software Configuration:
1. Software Configuration Management
2. Objectives of Software Configuration Management
3. Software Quality Assurance
4. Project Monitoring & Control
Software Quality👇
Software quality refers to the degree to which a software product meets specified requirements and satisfies customer expectations, ensuring it is reliable, efficient, maintainable, and user-friendly. These article provide in depth explanation of Software Quality:
1. Software Quality
2. ISO 9000 Certification
3. SEICMM
4. Six Sigma
Software Design👇
Software design involves creating a blueprint or plan for how a software system will be structured and organized to meet its requirements effectively and efficiently. These articles gives you a clear explanation about Software Design.
1. Software Design Process
2. Software Design process – Set 2
3. Software Design Principles
4. Coupling and Cohesion
5. Function Oriented Design
6. Object Oriented Design
7. User Interface Design
Software Reliability👇
Software reliability refers to the ability of a software system to consistently perform its intended functions under specified conditions for a defined period of time, without failures or errors that may disrupt its operation. Here are some articles that help to understand various concepts regarding software reliability.
1. Software Reliability
2. Software Fault Tolerance
Software Testing and Debugging👇
Software testing and debugging are integral parts of the software development lifecycle, aimed at ensuring the quality and reliability of software products. Here are some articles that help to understand various concepts regarding software testing and debugging.
1. Software Testing Tutorial
2. Seven Principles of software testing
3. Testing Guidelines
4. Black box testing
5. White box Testing
6. Debugging
7. Selenium: An Automation tool
8. Integration Testing
Software Maintenance👇
Software maintenance refers to the process of updating, modifying, and enhancing software to ensure its continued effectiveness, efficiency, and relevance over time. Here are some articles that help to understand various concepts regarding software maintenance.
1. Software Maintenance
2. Cost and efforts of software maintenance
Credit: GeeksforGeeks
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