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Chapter 1
What is Software
Engineering
Shari L. Pfleeger
Joanne M. Atlee
4th Edition
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.2
Contents
1.1 What is Software Engineering? 1.2 How Successful Have We Been? 1.3 What Is Good Software? 1.4 Who Does Software Engineering? 1.5 A System Approach 1.6 An Engineering Approach 1.7 Members of the Development Team 1.8 How Has Software Engineering Changed? 1.9 Information System Example1.10 Real Time Example1.11 What this Chapter Means for You
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.3
Objectives
• What we mean by software engineering• Software engineering’s track record• What we mean by good software• Why a system approach is important• How software engineering has changed
since 1970s
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.4
1.1 What is Software EngineeringSolving Problems
• Software products are large and complex• Development requires analysis and
synthesis– Analysis: decompose a large problem into
smaller, understandable pieces• abstraction is the key
– Synthesis: build (compose) a software from smaller building blocks• composition is challenging• Example: Writing a novel
– Dictionary, sentence, paragraph, chapters
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.5
1.1 What is Software EngineeringSolving Problems (continued)
• The analysis process
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.6
1.1 What is Software EngineeringSolving Problems (continued)
• The synthesis process
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.7
1.1 What is Software EngineeringSolving Problems (continued)
• Any problem solving technique must have two parts:
1.Analyzing problem to determine its nature, and Then
2.Synthesizing a solution based on our analysis.
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.8
1.1 What is Software EngineeringSolving Problems (continued)
• Method: refers to a formal procedure; a formal “recipe” for accomplishing a goal that is typically independent of the tools used– Example: chef prepare a sauce
• Tool: an instrument or automated system for accomplishing something in a better way– Example: typewriter and keyboard
• Procedure: a combination of tools and techniques to produce a product
• Paradigm: philosophy or approach for building a product (e.g., OO vs structured approaches)
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.9
1.1 What is Software EngineeringSolving Problems (continued)
• Software engineers use tools, techniques , procedures, and paradigms to enhance the quality of software products.
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.10
1.1 What is Software EngineeringWhere Does the Software Engineer Fit In?
• Computer science: focusing on computer hardware, compilers, operating systems, and programming languages
• Software engineering: a discipline that uses computer and software technologies as a problem-solving tools
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.11
1.1 What is Software EngineeringWhere Does the SW Engineer Fit in? (continued)
• Relationship between computer science and software engineering
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.12
1.2 How Successful Have We Been?
• Perform tasks more quickly and effectively– Word processing, spreadsheets, e-mail
• Support advances in medicine, agriculture, transportation, multimedia education, and most other industries
• Many good stories• However, software is not without problems
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.13
1.2 How Successful Have We Been?Sidebar 1.1 Terminology for Describing Bugs
• A fault: occurs when a human makes a mistake, called an error, in performing some software activities
• A failure: is a departure from the system’s required behaviour
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.14
1.2 How Successful Have We Been?Examples of Software Failure
• IRS hired Sperry Corporation to build an automated federal income tax form processing process– An extra $90 M was needed to enhance the original $103
M product– IRS lost $40.2 M on interests and $22.3 M in overtime
wages because refunds were not returned on time
• Malfunctioning code in Therac-25 killed several people
• Reliability constraints have caused cancellation of many safety critical systems– Safety-critical: something whose failure poses a threat to
life or health
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.15
1.3 What Is Good Software?Sidebar 1.2 Perspective on Quality
• The transcendental view: quality is something we can recognize but not define
• The user view: quality is fitness for purpose
• The manufacturing view: quality is conformance to specification
• The product view: quality tied to inherent product characteristics
• The value-based view: depends on the amount the customers is willing to pay for it
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.16
1.3 What is Good Software?
• Good software engineering must always include a strategy for producing quality software
• Three ways of considering quality– The quality of the product– The quality of the process– The quality of the product in the context of the
business environment
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.17
1.3 What Is Good Software?The Quality of the Product
• Users judge external characteristics (e.g., correct functionality, number of failures, type of failures)
• Designers and maintainers judge internal characteristics (e.g., types of faults)
• Thus different stakeholders may have different criteria
• Need quality models to relate the user’s external view to developer’s internal view
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.18
1.3 What Is Good Software?The Quality of the Product (continued)
• McCall’s quality model
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.19
1.3 What Is Good Software?The Quality of the Process
• Quality of the development and maintenance process is as important as the product quality
• The development process needs to be modeled
• Modeling will address questions such as– Where to find a particular kind of fault– How to find faults early– How to build in fault tolerance– What are alternative activities
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.20
1.3 What Is Good Software?The Quality of the Process (continued)
• Models for process improvement– SEI’s Capability Maturity Model (CMM)– ISO 9000– Software Process Improvement and Capability
dEtermination (SPICE)
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.21
1.3 What Is Good Software?The Quality in the Context of the Business Environment
• Business value is as important as technical value
• Business value (in relationship to technical value) must be quantified
• A common approach: return on investment (ROI) – what is given up for other purposes
• ROI is interpreted in different terms: reducing costs, predicting savings, improving productivity, and costs (efforts and resources)
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Chapter 1.22
1.3 What Is Good Software?The Quality of the Context of the Business Environment
• Industry’s definition of ROI
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.23
1.4 Who Does Software Engineering?
• Customer: the company, organization, or person who pays for the software system
• Developer: the company, organization, or person who is building the software system
• User: the person or people who will actually use the system
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Chapter 1.24
1.4 Who Does Software Engineering? (continued)
• Participants (stakeholders) in a software development project
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Chapter 1.25
1.5 System Approach
• Hardware, software, interaction with people• Identify activities and objects• Define the system boundary• Consider nested systems, systems
interrelationship
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Chapter 1.26
1.5 System ApproachThe Element of a System
• Activities and objects– An activity is an event initiated by a trigger– Objects or entities are the elements involved in
the activities
• Relationships and the system boundaries– A relationship defines the interaction among
entities and activities– System boundaries determine the origin of input
and destinations of the output
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Chapter 1.27
1.5 System ApproachThe Element of a System (continued)
• Example of systems: a human respiratory system
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Chapter 1.28
1.5 System ApproachThe Element of a System (continued)
• A computer system must also be clearly described: System definition of a paycheck production
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Chapter 1.29
1.5 System ApproachInterrelated Systems
• Some systems are dependent to other systems– The interdependencies may be complex
• It is possible for one system to exist inside another system
• If the boundary definitions are detailed, building a larger system from the smaller ones is relatively easy
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Chapter 1.30
1.5 System ApproachInterrelated Systems (continued)
• A layered system
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Chapter 1.31
1.6 Engineering ApproachBuilding a System
• Requirement analysis and definition• System design• Program design• Writing the programs • Unit testing• Integration testing• System testing• System delivery• Maintenance
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.32
1.7 Members of the Development Team
• Requirement analysts: work with the customers to identify and document the requirements
• Designers: generate a system-level description of what the system us supposed to do
• Programmers: write lines of code to implement the design
• Testers: catch faults• Trainers: show users how to use the system• Maintenance team: fix faults that show up later• Librarians: prepare and store documents such as
software requirements• Configuration management team: maintain
correspondence among various artifacts
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.33
1.7 Members of the Development Team (continued)
• Typical roles played by the members of a development team
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.34
1.8 How Has Software Engineering Changed?The Nature of the Change
• Before 1970s– Single processors: mainframes– Designed in one of two ways
• as a transformation: input was converted to output
• as a transaction: input determined which function should be performed
• After 1970s– Run on multiple systems– Perform multi-functions
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.35
1.8 How Has SE Changed?Wasserman's Seven Key Factors
1. Critically of time-to-market 2. Shifts in the economics of computing3. Availability of powerful desktop computing4. Extensive local- and wide-area networking5. Availability and adoption of object-
oriented technology6. Graphical user interfaces 7. Unpredictability of the waterfall model of
software development
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.36
1.8 How Has SE Changed?Wasserman's Seven Key Factors (continued)
• The key factors that have changed the software development
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.37
1.8 How Has SE Changed?Wasserman's Discipline of Software Engineering
• Abstractions• Analysis and design methods and notations • User interface prototyping• Software architecture• Software process• Reuse• Measurement• Tools and integrated environments
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Chapter 1.38
1.8 How Has SE Changed?Abstraction
• A description of the problem at some level of generalization– Hide details
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.39
1.8 How Has SE Changed?Analysis and Design Methods and Notations
• Provide documentation• Facilitate communication• Offer multiple views• Unify different views
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.40
1.8 How Has SE Changed?User Interface Prototyping
• Prototyping: building a small version of a system– Help users identify key requirements of a
system– Demonstrate feasibility
• Develop good user interface
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.41
1.8 How Has SE Changed?Software Architecture
• A system’s architecture describes the system in terms of a set of architectural units and relationships between these units
• Architectural decomposition techniques– Modular decomposition– Data-oriented decomposition– Event-driven decomposition– Outside-in-design decomposition– Object-oriented decomposition
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.42
1.8 How Has SE Changed?Software Process
• Many variations• Different types of software need different
processes– Enterprise-wide applications need a great deal
of control– Departmental applications can take advantage
of rapid development
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.43
1.8 How Has SE Changed?Software Process (continued)
• Pictorial representation of differences in development processes
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.44
1.8 How Has SE Changed?Software Reuse
• Commonalities between applications may allow reusing artifacts from previous developments– Improve productivity– Reduce costs
• Potential concerns– It may be faster to build a smaller application
than searching for reusable components– Generalized components take more time to build– Must clarify who will be responsible for
maintaining reusable components– Generality vs specificity: always a conflict
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.45
1.8 How Has SE Changed?Measurement
• Objective: describe quality goals in a quantitative way
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.46
1.8 How Has SE Changed?Tools and Integrated Environments
• Platform integration (on heterogeneous networks)
• Presentation integration (commonality of user interface)
• Process integration (linking tools and the development process)
• Data integration (to share common data)• Control integration (the ability of one tool to
initiate action in another one)
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.47
1.9 Information Systems ExamplePiccadilly System
• Piccadilly Television: regional British TV franchise
• Advertising scheme has many constraints:– alcohol adverts only after 9 pm– if actor in show, no same actor in advert within
45 minutes– if advert in a class of products, no other advert
in same class during same break– rates dependent on amount of time bought
• Software to determine, track advertising time
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.48
1.9 Information Systems ExamplePiccadilly System (continued)
• Piccadilly Television franchise area
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.49
1.9 Information Systems ExamplePiccadilly System (continued)
• Piccadilly system’s context diagram
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.50
1.10 Real Time Example
• Ariane-5 rocket, from the European Space Agency
• June 4, 1996: functioned well for 40 seconds, then veered off course and was destroyed
• Contained four satellites: cost was $500 million
• Reused code from Ariane-4 rocket
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.51
1.10 Real Time Example Ariane-5 Definition of Quality
• From the Lions et al report:– “… demonstrated the high quality of the Ariane-
5 programme as regards engineering work in general and completeness and traceability of documents.”
– “… the supplier of the SRI … was only following the specification given to it. … The exception which occurred was not due to random failure but a design error.”
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Pfleeger and Atlee, Software Engineering: Theory and Practice, edited by Sharaf Hussain
Chapter 1.52
1.11 What this Chapter Means for You
• Given a problem to solve– Analyze it– Synthesize a solution
• Understand that requirements may change • Must view quality from several different
perspectives• Use fundamental software engineering
concepts (e.g., abstractions and measurements)
• Keep system boundary in mind