CSE 8317 (Spring 2018): Software Reliability and Safety
Prof. Jeff Tian, CSE Dept., SMU, Dallas, TX 75275
Phone: (214)768-2861; Fax: (214)768-3085
tian@lyle.smu.edu; lyle.smu.edu/~tian/class/8317.18s
1. General Information
With the pervasive use of and reliance on software
used in computing devices, networks, infrastructure, services and systems
in modern society or in the so-called connected world,
ensuring software quality and dependability has become increasingly important.
This advanced course will cover two most important aspects of quality
and dependability for such systems in depth: reliability, the ability
of a software to operate without failures, and safety,
the property of the system to be accident-free.
Besides the fundamentals of software reliability engineering (SRE)
and software safety engineering (SSE),
we will focus on recent development in research and applications
in the subject areas that may have a great practical impact and
that may lead to subsequent innovative research.
CSE 8317 will be organized as a research seminar,
with active student participation,
both as participating audience as well as presenters and discussion leaders
of selected topics.
This participatory nature is reflected in all the course elements,
ranging from discussions/presentations related to students homework/project
to specific topics to be studied and discussed in our class.
2. Course Contents
After a brief introduction to SRE and SSE
and their relationship to software quality and dependability,
we will have in-depth discussions about several important
topics concerning the measurement,
analysis and improvement activities aimed at ensuring
software reliability and safety for many kinds of systems
and application domains.
The major focus will be on three areas:
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SRE: Software reliability engineering:
reliability concepts and their application to the software domain;
models and analysis methods for software reliability
assessment, prediction and improvement;
data definition, collection, treatment, and analysis;
related tools and applications in different industries
and application domains (particularly some of the new and
emerging application domains, such as cloud computing,
service computing, open source development and products, etc.);
and emerging techniques for reliability improvement and optimization.
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SSE: Software safety engineering:
safety concepts and their applications to computer-related and/or
software-intensive systems;
system characterization and application domains;
safety and hazard analysis using fault trees, event trees,
and other analysis techniques;
integration of safety assurance into the software processes,
including some of the new approaches based on system theory;
formal verification for safety;
and general techniques to deal with safety issues.
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Common analysis techniques
to support SRE and SSE above will also be covered at the beginning of
of our semester:
general quality and dependability framework and related analysis,
including,
defect analysis, risk identification,
defect classification and analysis frameworks such as orthogonal defect
classification and related analysis (and recent development adapting
ODC to other application domains and for other purposes),
as well as general issues
with software measurement and analysis.
Some of these techniques may be applicable beyond SRE and SSE
to other quality/dependability aspects of software and systems.
For each of the above topics,
after introducing the fundamental ideas and basic models and techniques,
we will focus on
recent development,
and particularly relevant research done at SMU,
including tree-based reliability modeling,
data clustering and censoring techniques,
prescriptive specification checking for hazard prevention,
early estimate and risk management techniques for reliability
and safety improvement,
extension of SRE/SSE ideas to other quality/dependability
aspects such as in usability evaluation and improvement,
and new applications of SRE/SSE to
web-based, embedded, service-oriented, cloud computing,
and net-centric systems.
3. Textbooks and Class Material
4. Workload and Grading
The course grade each student receives will reflect the weighted
average of homework, a major project, a final quiz, and other assignments:
- Project:
See the online project information for more details.
- Homework:
See the online homework assignments.
- Student presentation:
See the online student presentation information
for more details.
- Final Quiz:
There will be a comprehensive final quiz to cover
the breadth of the students' knowledge
in SRE and SSE
(as the students' depth of knowledge is demonstrated in their projects already).
The approximate weight assignment is as follows:
-
Project (proposal, report, and presentation): 40%
-
Final quiz: 25%
-
Homework: 15%
-
Presentation/participation: 20%
No late assignments will be accepted nor graded
unless prior approval was granted by the instructor
or a valid (acceptable to the instructor) reason is
given in case of an emergency.
Notice
(Relevant SMU policies):
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Disability Accommodations:
Students needing academic accommodations for a disability must first
register with Disability Accommodations & Success Strategies (DASS).
Students can call 214-768-1470 or visit
http://www.smu.edu/Provost/ALEC/DASS to begin the process.
Once registered, students should then schedule an appointment with
the professor as early in the semester as possible,
present a DASS Accommodation Letter, and make appropriate arrangements.
Please note that accommodations are not retroactive and require
advance notice to implement.
-
Religious Observance: Religiously observant students wishing to
be absent on holidays that require missing class should notify
their professors in writing at the beginning of the semester,
and should discuss with them,
in advance, acceptable ways of making up any
work missed because of the absence.
(See University Policy No. 1.9.)
-
Excused Absences for University Extracurricular Activities:
Students participating in an officially sanctioned,
scheduled University extracurricular activity should be given
the opportunity to make up class assignments or other
graded assignments missed as a result of their participation.
It is the responsibility of the student to make arrangements
with the instructor prior to any missed scheduled examination
or other missed assignment for making up the work.
(University Undergraduate Catalogue)
Prepared by Jeff Tian
(tian@lyle.smu.edu).
Initially posted: Jan. 25, 2018.
Last update: April 24, 2018.