Lec2- Introduction.pptx

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University of Science & Technology
Faculty of Computer Science and Information Technology
Information Technology Department

software Engineering I

Dr. Ammar Mohamed Abdo

1
Lec2:

Introduction to software
Engineering

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Software process activities

 Software specification, where customers and engineers
define the software that is to be produced and the
constraints on its operation.
 Software development, where the software is designed
and programmed.
 Software validation, where the software is checked to
ensure that it is what the customer requires.
 Software evolution, where the software is modified to
reflect changing customer and market requirements.

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General issues that affect software

 Heterogeneity
 Increasingly, systems are required to operate as distributed
systems across networks that include different types of computer
and mobile devices.
 Business and social change
 Business and society are changing incredibly quickly as
emerging economies develop and new technologies become
available. They need to be able to change their existing software
and to rapidly develop new software.

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General issues that affect software

 Security and trust
 As software is intertwined with all aspects of our lives, it is
essential that we can trust that software.
 Scale
 Software has to be developed across a very wide range of
scales, from very small embedded systems in portable or
wearable devices through to Internet-scale, cloud-based systems
that serve a global community.

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Software engineering diversity

 There are many different types of software system and
there is no universal set of software techniques that is
applicable to all of these.
 The software engineering methods and tools used
depend on the type of application being developed, the
requirements of the customer and the background of the
development team.

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Application types

 Stand-alone applications
 These are application systems that run on a local computer, such
as a PC. They include all necessary functionality and do not
need to be connected to a network.
 Interactive transaction-based applications
 Applications that execute on a remote computer and are
accessed by users from their own PCs or terminals. These
include web applications such as e-commerce applications.
 Embedded control systems
 These are software control systems that control and manage
hardware devices. Numerically, there are probably more
embedded systems than any other type of system.

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Application types

 Batch processing systems
 These are business systems that are designed to process data
in large batches. They process large numbers of individual
inputs to create corresponding outputs.
 Entertainment systems
 These are systems that are primarily for personal use and which
are intended to entertain the user.
 Systems for modeling and simulation
 These are systems that are developed by scientists and
engineers to model physical processes or situations, which
include many, separate, interacting objects.

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Application types

 Data collection systems
 These are systems that collect data from their environment using
a set of sensors and send that data to other systems for
processing.
 Systems of systems
 These are systems that are composed of a number of other
software systems.

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Software engineering fundamentals

 Some fundamental principles apply to all types of
software system, irrespective of the development
techniques used:
 Systems should be developed using a managed and understood
development process. Of course, different processes are used
for different types of software.
 Dependability and performance are important for all types of
system.
 Understanding and managing the software specification and
requirements (what the software should do) are important.
 Where appropriate, you should reuse software that has already
been developed rather than write new software.

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Internet software engineering

 The Web is now a platform for running application and
organizations are increasingly developing web-based
systems rather than local systems.
 Web services allow application functionality to be
accessed over the web.
 Cloud computing is an approach to the provision of
computer services where applications run remotely on
the ‘cloud’.
 Users do not buy software buy pay according to use.

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 Web software engineering

 Software reuse
 Software reuse is the dominant approach for constructing web-
based systems. When building these systems, you think about how
you can assemble them from pre-existing software components and
systems.
 Incremental and agile development
 Web-based systems should be developed and delivered
incrementally. It is now generally recognized that it is impractical to
specify all the requirements for such systems in advance.

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Software engineering ethics

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Software engineering ethics

 Software engineering involves wider responsibilities than
simply the application of technical skills.
 Software engineers must behave in an honest and
ethically responsible way if they are to be respected as
professionals.
 Ethical behaviour is more than simply upholding the law
but involves following a set of principles that are morally
correct.

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Issues of professional responsibility

 Confidentiality
 Engineers should normally respect the confidentiality of their
employers or clients irrespective of whether or not a formal
confidentiality agreement has been signed.
 Competence
 Engineers should not misrepresent their level of competence.
They should not knowingly accept work which is outwith their
competence.

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Issues of professional responsibility

 Intellectual property rights
 Engineers should be aware of local laws governing the use of
intellectual property such as patents, copyright, etc. They should
be careful to ensure that the intellectual property of employers
and clients is protected.
 Computer misuse
 Software engineers should not use their technical skills to
misuse other people’s computers. Computer misuse ranges from
relatively trivial (game playing on an employer’s machine, say) to
extremely serious (dissemination of viruses).

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ACM/IEEE Code of Ethics

 The professional societies in the US have cooperated to
produce a code of ethical practice.
 Members of these organisations sign up to the code of
practice when they join.
 The Code contains eight Principles related to the
behaviour of and decisions made by professional
software engineers, including practitioners, educators,
managers, supervisors and policy makers, as well as
trainees and students of the profession.

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Rationale for the code of ethics

 Computers have a central and growing role in commerce,
industry, government, medicine, education, entertainment and
society at large. Software engineers are those who contribute by
direct participation or by teaching, to the analysis, specification,
design, development, certification, maintenance and testing of
software systems.
 Because of their roles in developing software systems, software
engineers have significant opportunities to do good or cause
harm, to enable others to do good or cause harm, or to influence
others to do good or cause harm. To ensure, as much as
possible, that their efforts will be used for good, software
engineers must commit themselves to making software
engineering a beneficial and respected profession.

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The ACM/IEEE Code of Ethics

Software Engineering Code of Ethics and Professional Practice

ACM/IEEE-CS Joint Task Force on Software Engineering Ethics and Professional Practices

PREAMBLE
The short version of the code summarizes aspirations at a high level of the abstraction; the
clauses that are included in the full version give examples and details of how these
aspirations change the way we act as software engineering professionals. Without the
aspirations, the details can become legalistic and tedious; without the details, the aspirations
can become high sounding but empty; together, the aspirations and the details form a
cohesive code.
Software engineers shall commit themselves to making the analysis, specification, design,
development, testing and maintenance of software a beneficial and respected profession. In
accordance with their commitment to the health, safety and welfare of the public, software
engineers shall adhere to the following Eight Principles:

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Ethical principles

1. PUBLIC - Software engineers shall act consistently with the public interest.
2. CLIENT AND EMPLOYER - Software engineers shall act in a manner that is in the best
interests of their client and employer consistent with the public interest.
3. PRODUCT - Software engineers shall ensure that their products and related modifications
meet the highest professional standards possible.
4. JUDGMENT - Software engineers shall maintain integrity and independence in their
professional judgment.
5. MANAGEMENT - Software engineering managers and leaders shall subscribe to and
promote an ethical approach to the management of software development and
maintenance.
6. PROFESSION - Software engineers shall advance the integrity and reputation of the
profession consistent with the public interest.
7. COLLEAGUES - Software engineers shall be fair to and supportive of their colleagues.
8. SELF - Software engineers shall participate in lifelong learning regarding the practice of
their profession and shall promote an ethical approach to the practice of the profession.

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Case studies

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Ethical dilemmas

 Disagreement in principle with the policies of senior
management.
 Your employer acts in an unethical way and releases a
safety-critical system without finishing the testing of the
system.
 Participation in the development of military weapons
systems or nuclear systems.

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