lec 9 -Software Evolution.pptx

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Software Evolution

Software change
Legacy systems
Software maintenance
Exam tips
 Software change

Software change is inevitable
– New requirements emerge when the software
is used;
– The business environment changes;
– Errors must be repaired;
– New computers and equipment is added to
the system;
– The performance or reliability of the system
may have to be improved.
– A key problem for all organizations is implementing and
managing change to their existing software systems

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 Importance of evolution

Organisations have huge investments in
their software systems - they are critical
business assets.
To maintain the value of these assets to the
business, they must be changed and
updated.
The majority of the software budget in large
companies is devoted to changing and
evolving existing software rather than
developing new software.
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 Evolution processes

Software evolution processes depend on
– The type of software being maintained;
– The development processes used;
– The skills and experience of the people involved.
Proposals for change are the driver for system
evolution.
– Should be linked with components that are affected
by the change, thus allowing the cost and impact of
the change to be estimated.
Change identification and evolution continues
throughout the system lifetime.

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Change identification and evolution processes

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 Change implementation

Iteration of the development process where the
revisions to the system are designed, implemented
and tested.
A critical difference is that the first stage of change
implementation may involve program
understanding, especially if the original system
developers are not responsible for the change
implementation.
During the program understanding phase, you have
to understand how the program is structured, how
it delivers functionality and how the proposed
change might affect the program.

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 Urgent change requests

Urgent changes may have to be
implemented without going through all
stages of the software engineering process
– If a serious system fault has to be repaired to
allow normal operation to continue;
– If changes to the system’s environment (e.g.
an OS upgrade) have unexpected effects;
– If there are business changes that require a
very rapid response (e.g. the release of a
competing product).

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The emergency repair process

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 Agile methods and evolution

Agile methods are based on incremental
development so the transition from
development to evolution is a seamless one.
– Evolution is simply a continuation of the
development process based on frequent system
releases.
Automated regression testing is particularly
valuable when changes are made to a system.
Changes may be expressed as additional user
stories.

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 Handover problems

Where the development team has used an agile
approach but the evolution team is unfamiliar with
agile methods and prefer a plan-based approach.
– The evolution team may expect detailed documentation to
support evolution and this is not produced in agile
processes.
Where a plan-based approach has been used for
development but the evolution team prefers to use
agile methods.
– The evolution team may have to start from scratch
developing automated tests and the code in the system
may not have been refactored and simplified as is
expected in agile development.

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Legacy systems

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 Legacy systems

Legacy systems are older systems that rely on
languages and technology that are no longer
used for new systems development.
Legacy software may be dependent on older
hardware, such as mainframe computers and
may have associated legacy processes and
procedures.
Legacy systems are not just software systems
but are broader socio-technical systems that
include hardware, software, libraries and other
supporting software and business processes.

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 Legacy system components

System hardware Legacy systems may have been written for hardware
that is no longer available.
Support software The legacy system may rely on a range of support
software, which may be obsolete or unsupported.
Application software The application system that provides the business
services is usually made up of a number of application programs.
Application data These are data that are processed by the application
system. They may be inconsistent, duplicated or held in different
databases.
Business processes These are processes that are used in the business to
achieve some business objective.
Business processes may be designed around a legacy system and
constrained by the functionality that it provides.
Business policies and rules These are definitions of how the business
should be carried out and constraints on the business. Use of the legacy
application system may be embedded in these policies and rules.

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Legacy system layers

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 Legacy system replacement

Legacy system replacement is risky and
expensive so businesses continue to use these
systems
System replacement is risky for a number of
reasons
– Lack of complete system specification
– Tight integration of system and business processes
– Undocumented business rules embedded in the
legacy system
– New software development may be late and/or
over budget

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 Legacy system change

Legacy systems are expensive to change
for a number of reasons:
– No consistent programming style
– Use of obsolete programming languages with
few people available with these language skills
– Inadequate system documentation
– System structure degradation
– Program optimizations may make them hard
to understand
– Data errors, duplication and inconsistency

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 Legacy system management

Organisations that rely on legacy systems
must choose a strategy for evolving these
systems
– Scrap the system completely and modify business
processes so that it is no longer required;
– Continue maintaining the system;
– Transform the system by re-engineering to improve
its maintainability;
– Replace the system with a new system.
The strategy chosen should depend on the
system quality and its business value.

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 Legacy system categories

Low quality, low business value
– These systems should be scrapped.
Low-quality, high-business value
– These make an important business contribution but
are expensive to maintain. Should be re-engineered
or replaced if a suitable system is available.
High-quality, low-business value
– Replace with COTS, scrap completely or maintain.
High-quality, high business value
– Continue in operation using normal system
maintenance.

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 Business value assessment

Assessment should take different
viewpoints into account
– System end-users;
– Business customers;
– Line managers;
– IT managers;
– Senior managers.
Interview different stakeholders and
collate results.
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Software maintenance

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 Software maintenance

Modifying a program after it has been put
into use.
The term is mostly used for changing
custom software. Generic software products
are said to evolve to create new versions.
Maintenance does not normally involve
major changes to the system’s architecture.
Changes are implemented by modifying
existing components and adding new
components to the system.
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 Types of maintenance

Fault repairs
– Changing a system to fix bugs/vulnerabilities and
correct deficiencies in the way meets its
requirements.
Environmental adaptation
– Maintenance to adapt software to a different
operating environment
– Changing a system so that it operates in a different
environment (computer, OS, etc.) from its initial
implementation.
Functionality addition and modification
– Modifying the system to satisfy new requirements.

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Maintenance effort distribution

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 Maintenance costs

Usually greater than development costs (2*
to 100* depending on the application).
Affected by both technical and non-
technical factors.
Increases as software is maintained.
Maintenance corrupts the software structure
so makes further maintenance more
difficult.
Ageing software can have high support
costs (e.g. old languages, compilers etc.).
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 Maintenance costs

It is usually more expensive to add new features to
a system during maintenance than it is to add the
same features during development
– A new team has to understand the programs being
maintained
– Separating maintenance and development means there
is no incentive for the development team to write
maintainable software
– Program maintenance work is unpopular
Maintenance staff are often inexperienced and have limited
domain knowledge.
– As programs age, their structure degrades and they
become harder to change

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 Exam tips

Try to understand the big picture
Apply most concepts using scenarios

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 Chapters
Chapter 1- Introduction
Chapter 2 – Software Processes
Chapter 3 – Agile Software
Development
Chapter 4 – Requirements
Engineering
Chapter 5 – System modeling
Chapter 6 – Software Evolution
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End

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