BVRIT HYDERABAD College of Engineering for Women
Department of Information Technology
Course Hand Out
Subject Name : Software Engineering
Prepared by : Mr.A.Rajashekar Reddy,Assistant Professor, IT
Year, Sem,Regulation : III Year- I Sem (R13,R15 & R16)
Unit – I: Introduction to Software Engineering, Generic view of process, Process
models
Important Points:
In Software Development, it is very important to learn about software engineering concepts.
Software plays dual role- i.e, Product and the vehicle to deliver that product
Software is not manufactured , instead , it is developed or engineered.
Software types: Application,System,Embedded,AI,Scientific,Product line,Web applications
Software Myths- 3 types:Management myths,Customer myths&Practitioner myths
Software Engineering is a Layered technology -4 layers-Quality focus,Process,Methods&Tools
A generic process framework has activities-Communication,Planning,Modeling,Construction
and Deployment(CPMCD)
CMMI(Capability Maturity Model Integration) is an assessment standard for a software
organization or process.
CMMI has 5 Levels:
o Level-0-Incomplete,
o Level-1-Performed,
o Level-2-Managed,
o Level-3-Defined,
o Level-4-Quantitatively Managed and
o Level-5-Optimized Software Process models:
o Water fall Model,
o Incremental Models,
o Evolutionary models,
o Specialized models and
o Unified Process model
Waterfall model is also called Classic life cycle or Linear Sequential model
Incremental Models: Simple Incremental Model and RAD(Rapid App Development)model
Evolutionary Process models:
o Prototyping model,
o Spiral Model ,
o Concurrent Dev.Model
Unified Process contains 4 phases: Inception, Elaboration, Construction and Transition
Questions:
1. Define Software Engineering and Justify that it is a layered technology.
2. Discuss various characteristics of software compare to hardware?
3. List and explain software myths.
4. Discus Framework activities and Umbrella activities in process framework.
5. Explain various levels of CMMI.
6. Compare PSP(personal software process) and TSP(Team Software Process).
7. Write about Waterfall model with its pros and cons.
8. Distinguish between Incremental and Evolutionary process models.
9. Write the importance of 4 phases in unified process.
Sample Objective Questions:
1.Which of the following is not a software myth? [d]
a.Customer myth
b.Practitioner myth
c.management myth
d.designer myth
2.What are attributes of good software ? [d]
a) Software maintainability
b) Software functionality
c) Software development
d) Software maintainability & functionality
3. RAD stands for [b]
a) Relative Application Development
b) Rapid Application Development
c) Rapid Application Document
d) None of the mentioned
4. Which one of the following models is not suitable for accommodating any change? [d]
a) Build & Fix Model
b) Prototyping Model
c) RAD Model
d) Waterfall Model
5.Which one of the following is not a phase of Prototyping Model? [c]
a) Quick Design
b) Coding
c) Prototype Refinement
d) Engineer Product
6.What is the major drawback of using RAD Model? [d]
a) Highly specialized & skilled developers/designers are required
b) Increases re-usability of components
c) Encourages customer/client feedback
d) Increases re-usability of components, Highly specialized & skilled developers/designers are
required
7.One can choose Waterfall Model if the project development schedule is tight. [b]
a) True
b) False
8.What is the major advantage of using Incremental Model? [d] a) Customer can respond to each increment
b) Easier to test and debug
c) It is used when there is a need to get a product to the market early
d) Easier to test and debug & It is used when there is a need to get a product to the market early
9.The spiral model was originally proposed by [b]
a) IBM
b) Barry Boehm
c) Pressman
d) Royce
10.Identify the disadvantage of Spiral Model. [a]
a) Doesn’t work well for smaller projects
b) High amount of risk analysis
c) Strong approval and documentation control
d) Additional Functionality can be added at a later date
11. SDLC stands for_____________________Software development Life cycle
12.Inrcremental model is combination of _Linear model_________ and _Prototyping model
Unit – II: Software Requirements, Requirements engineering process,
System models
Important Points :
The requirements for a system are the descriptions of what the system should do—the
services that it provides and the constraints on its operation.
Two typical requirements are User requirements and System Requirements.
Software system requirements are classified as Functional and Non functional requirements.
Functional requirements are statements of services the system should provide, how the
system should react to particular inputs, and how the system should behave in particular
situations.
Non-functional requirements are constraints on the services or functions offered by the
system.
Functional requirements depend on the type of software being developed, the expected users of
the software.
When expressed as user requirements, functional requirements are usually described in an
abstract way that can be understood by system users. However, more specific functional
system requirements describe the system functions, its inputs and outputs, exceptions, etc.
Non-functional requirements, as the name suggests, are requirements that are not directly
concerned with the specific services delivered by the system to its users.
Non-functional requirements may affect the overall architecture of a system rather than the
individual components
Non functional Requirements Types:
i)Product requirements—Usability,Dependability,Security,Efficiency(Performance and Space)
ii)Organizational requirements—Environmental,Operational and Development Requirements
iii)External requirements—Regulatory,Legislative and Ethical Requirements
The software requirements document (sometimes called the software requirements
specification or SRS) is an official statement of what the system developers should
implement. It should include both the user requirements for a system and a detailed
specification of the system requirements.
Users of requirements document: System customers, managers, System engineers, Test
Engineers, Maintenance Engineers.
It (SRS)should be organized so that both system customers and software developers can use it.
Requirements Engg process has mainly,
o feasibility study
o Requirements elicitation and analysis
Requirements Discovery,Classification,Prioritization
o Requirements Specification
o Requirements validation
o Requirements Management
Requirements elicitation and analysis is an iterative process that can be represented as a
spiral of activities—requirements discovery, requirements classification and organization,
requirements negotiation, and requirements documentation.
Requirements validation is the process of checking the requirements for validity, consistency,
completeness, realism, and verifiability.
A model is an abstract view of a system that ignores some system details. Complementary
system models can be developed to show the system’s context, interactions, structure, and
behavior.
Context models show how a system that is being modeled is positioned in an environment
with other systems and processes. They help define the boundaries of the system to be
developed.
Use case diagrams and sequence diagrams are used to describe the interactions between user
the system being designed and users/other systems.
Structural models show the organization and architecture of a system. Class diagrams are
used to define the static structure of classes in a system and their associations.
Behavioral models are used to describe the dynamic behavior of an executing system.
Activity diagrams may be used to model the processing of data, where each activity
represents one process step.
State diagrams are used to model a system’s behavior in response to internal or external
events.
Questions :
1) Give classification of requirements& Explain about functional requirements
2) Explain about Non functional requirements, with hierarchy & metrics.
3) Write short notes on a)User Requirements b)System Requirements
4) Explain about software requirements document in detail.
5) Explain about Requirements engineering process.
6) Briefly explain Requirement elicitation and analysis.
7) Discuss about Requirement validation and Requirements management.
8) Compare and contrast various system models like Context models, Behavioural models
Object models and structured methods.
Sample Objective Questions:
1. Which one of the following is a functional requirement ? [d]
a) Maintainability
b) Portability
c) Robustness
d) None of the mentioned
2. Functional requirements capture the intended behavior of the system. [a]
a) True
b) False
3. What is the first step of requirement elicitation ? [a]
a) Identifying Stakeholder
b) Listing out Requirements
c) Requirements Gathering
d) All of the mentioned
4. Requirements elicitation is a cyclic process [a]
a) True
b) False
5. Which of the following is not a diagram studied in Requirement Analysis ? [d]
a) Use Cases
b) Entity Relationship Diagram
c) State Transition Diagram
d) Activity Diagram
6. Requirements should specify ‘what’ but not ‘how’. [a]
a) True
b) False
7. Which of the following property does not correspond to a good Software Requirements
Specification (SRS) ? [b]
a) Verifiable
b) Ambiguous
c) Complete
d) Traceable
8. Which of the following statements about SRS is/are true ? [c]
i. SRS is written by customer
ii. SRS is written by a developer
iii. SRS serves as a contract between customer and developer
a) Only i is true
b) Both ii and iii are true
c) All are true
d) None of the mentioned
9. Which model in system modeling depicts the dynamic behaviour of the system ? [b]
a) Context Model
b) Behavioral Model
c) Data Model
d) Object Model
10. Activity diagrams are used to model the processing of data. [a]
a) True
b) False
11. Which model in system modeling depicts the static nature of the system ? [d]
a) Behavioral Model
b) Context Model
c) Data Model
d) Structural Model
12. System modeling is the process of developing abstract models of a system, with each model
presenting a different view or perspective of that system. 13. Sequence diagrams in the UML are primarily used to model the interactions between the actors and the objects in
a system
14. State diagrams are used to model a system’s behavior in response to internal or external
events.
15. Behavioral models are used to describe the dynamic behavior of an executing system
Unit – III: Design Engineering, Component-level design, User interface design
Important Points :
Design is where customer requirements, business needs, and technical considerations all come
together in the formulation of a product or system.
The design model provides detail about the software data structures, architecture, interfaces,
and components
Software design is an iterative process through which requirements are translated into a
blueprint for constructing the software
Analysis Model to Design Model –MAPPING
Tasks for Software Design:
o Examine the information domain model and design appropriate data structures
o select an architectural style, Using the analysis model
o Partition the analysis model into design subsystems
o Create a set of design classes or components
o Design any interface required with external systems or devices
o Design the user interface
o Conduct component-level design
o Develop a deployment model
Goals of good design:
o The design must implement all of the explicit requirements contained in the analysis
model
o must be a readable and understandable guide
o should provide a complete picture of the software, addressing the data, functional, and
behavioural domains
Design quality Guidelines:
o A design should exhibit an architecture that has been created using recognizable
architectural styles or patterns
o A design should be modular
o A design should contain distinct representations of data, architecture, interfaces, and
components
o A design should lead to data structures that are appropriate
o A design should lead to components that exhibit independent functional characteristics
o A design should lead to interfaces that reduce the complexity of connections between
components
o A design should be derived using a repeatable method that is driven by information
obtained during software requirements analysis
o A design should be represented using a notation that effectively communicates its
meaning
Design concepts:
o Abstraction,
o Architecture,
o Patterns,
o Modularity,
o Information hiding,
o Functional independence,
o Refinement,
o Refactoring,
o Design classes(UI,Business domain,Process,System,Persistent)
Architectural Style: Describes a system category that encompasses:
o a set of components
o a set of connectors that enables “communication and coordination
o Constraints that define how components
o can be integrated to form the system
o Semantic models to understand the overall properties of a system
Architectural pattern: It is a template that specifies approach for some behavioral
characteristics of the system
o Patterns are imposed on the architectural styles
o 3- pattern domains
Concurrency
Persistence
Duration
Architectural design:
o The software architecture of a program or computing system is the structure or structures
of the system, which comprise software components, the externally visible properties of
those components and the relationship among them.
COMPONENT LEVEL DESIGN is the definition and design of components and modules
after the architectural design phase.
o Component-level design defines the data structures, algorithms, interface
characteristics, and communication mechanisms allocated to each component for the
system development
o Component Views
OO View – A component is a set of collaborating classes.
Conventional View – A component is a functional element of a program that
incorporates processing logic, the internal data structures required to implement
the processing logic, and an interface that enables the component to be invoked
and data to be passed to it.
OO design:
There are five stages of object oriented design process
Understand and define the context and the modes of use of the system.
Design the system architecture
Identify the principle objects in the system.
Develop a design model
Specify the object interfaces
User interface design:
o Golden rules:
Place the user in control
Reduce the user’s memory load
Make the interface consistent
o User interface analysis and design:
The overall process for analyzing and designing a user interface begins with the
creation of different models of system function.
There are 4 different models that is to be considered when a user interface is to be
analyzed and designed.
User model, Design model, User’s mental model &Implementation
model
Users- Novice, Intermittent, Knowledgeable users
The user interface analysis and design process is an iterative process and it can
be represented as a spiral model.
Designing a user interface begins with the creation of different models of system
function.
It consists of following framework activities
o User, task and environment analysis
o Interface design
o Interface construction
o Interface validation
UI design process has following steps:
o Interface analysis
o Interface design
o Implementation
o Validation
Various Design Issues are:
o Response time
o Help facilities
o Error handling
o Menu and command labeling
o Application accessibility
o Internationalization
Questions :
1) Explain about Design process, Design quality, Design Concepts and Design Model
2) Discuss about a)Software Architecture b)Data design
3) Write short notes on a)Architectural styles b)Architectural pattern
4) Differentiate between Objects and object classes.
5) Write short notes on a)OO Design process b)Design evolution.
6) Explain Golden Rules of design.
7) Write short notes on a)UI analysis& design
8)Explain the process of Interface Analysis in design
9) Explain about Interface design steps and Design evaluation.
Sample Objective Questions:
1. Which of the following is golden rule for interface design? [d]
a) Place the user in control
b) Reduce the user’s memory load
c) Make the interface consistent
d) All of the mentioned
2. Which of the following is not a user interface design process? [c]
a) User, task, and environment analysis and modeling
b) Interface design
c) Knowledgeable, frequent users
d) Interface validation
3. Which of the following option is not considered by the Interface design? [c]
a) the design of interfaces between software components
b) the design of interfaces between the software and human producers and consumers of information
c) the design of the interface between two computers
d) all of the mentioned
4.A software engineer designs the user interface by applying an iterative process that draws on
predefined design principles. [a]
a) True
b) False
5.What incorporates data, architectural, interface, and procedural representations of the [a]
software?
a) design model
b) user’s model
c) mental image
d) system image
6.Which of the following is not a UI design process? [e]
a)Interface analysis
b)Interface design
c)Implementation
d)Validation
e)None of above
7. Software design is an iterative process through which requirements are translated into a blueprint.
8. Architectural pattern is a template that specifies approach for some behavioral characteristics of
the system
9. Which of the following is not a design principle that allow the user to maintain control? [C ]
a. Provide for flexible interaction
b. Allow user interaction to be interrupt-able and undo-able
c. Show technical internals from the casual user
d. Design for direct interaction with objects that appear on the screen
10. Which of the following is not a user interface design process? [C]
a. User, task, and environment analysis and modeling
b. Interface design
c. Knowledgeable, frequent users
d.Interface validation
11.COMPONENT LEVEL DESIGN is the definition and design of components and modules after
the architectural design phase.
12. A design should lead to data structures that are appropriate.
13. Which of the following option is not considered by the Interface design? [ C]
a. the design of interfaces between software components
b. the design of interfaces between the software and human producers and consumers of information
c. the design of the interface between two computers
d. all of the mentioned
14. A software engineer designs the user interface by applying an iterative process that draws on
predefined design principles [A]
a.True
b.False
c.Can’t say
d.none of above
15. When users are involved in complex tasks, the demand on __________ can be significant.[a]
a.short term memory
b.Short cuts
c.objects that appear on the screen
d.all of the mentioned
Unit – IV: Testing Strategies, Product metrics Important Points :
Testing is the process of execution of a program with the intention of finding errors.
Testing Involves 40% of total project cost.
Verification Vs Validation:
o Verification: Are we building the PRODUCT RIGHT?
o Validation: Are we building the RIGHT PRODUCT?
Testing can be done by both the software developer and independent testing group
Testing and debugging are different activities. Debugging follows testing.
Low level tests verifiy small code segments.
High level tests validate major system functions against customer requirements.
Testing Strategies for Conventional Software
o Unit Testing: Testing the lower level components/units of Software
o Integration Testing: Testing the Integrated components before deployment
o Validation Testing : Testing the software with customer requirements
o System Testing: Testing the software characteristics like security,recovery,stress,
performance etc.
Two major categories of software testing
o Black box testing and White box testing
Black box testing :
o Treats the system as black box whose behavior can be determined by studying its
input and related output. i.e., t focuses on functional requirements of the software
o Not concerned with the internal structure of the program.
o 3 types:
Graph based testing: Contains graph of objects and relations, with test
cases to uncover the graph such that each object and its relationship exercised.
Equivalence partition method: Divides all possible inputs into classes such
that there are a finite equivalence classes.
Equivalence class: Set of objects that can be linked by relationship
Boundary value Analysis: Select input from equivalence classes such
that the input lies at the edge of the equivalence classes
Example: If 0.0<=x<=1.0 ,test cases (0.0,1.0) for valid input and (-0.1
and 1.1) for invalid input
Orthogonal array testing: Used when dealing with problems in which input
domain is relatively small but too large for exhaustive testing
Ex: Three inputs A,B,C each having three values will require 27 test
cases, can be only 9 Test cases if followed this type.
White box testing :
o Involves knowing the internal working of a program.
o Also called glass box testing.
o Guarantees that all independent paths will be exercised at least once.
o Exercises all logical decisions on their true and false sides.
o White box testing techniques
Basis path testing :Proposed by Tom McCabe
o Defines a basic set of execution paths based on logical complexity of a
procedural design
Control structure testing
o Control structure broadens the basic test coverage and improves the quality
of white box testing
o Condition Testing: Exercise the logical conditions contained in a program
module
Focuses on testing each condition(Simple or Compound) in the
program to ensure that it does contain errors
o Data flow Testing: Selects test paths according to the locations of
definitions and use of variables in a program
construct a definition-use graph from the control flow of a
program
Uses---C use(Computation) & P Use(Predicate use)
Every DU chain be tested at least once.
o Loop Testing :Focuses on the validity of loop constructs
Four categories are considered
Simple loops, Nested loops ,Concatenated loops,Unstructured loops
Validation Testing: It succeeds when the software functions in a manner that can be
reasonably expected by the customer. three components:
o Validation Test Criteria
o Configuration Review
o Alpha and Beta Testing
o Alpha testing: testing done at developers environment in presence of developer and
customer.
o Beta testing: testing done at customer’s environment only by customer.
System Testing: Its primary purpose is to test the complete software against different
characteristics.
o Recovery Testing
o Security Testing
o Stress Testing and
o Performance Testing
Debugging occurs as a consequence of successful testing.
Debugging Strategies
o Brute Force Method.
o Back Tracking
o Cause Elimination and
o Automated debugging
Software Quality: It is Conformance to explicitly stated functional and performance
requirements, explicitly documented development standards, and implicit characteristics that
are expected of all professionally developed software.
McCalls quality factors:
o Product operation
Correctness , Reliability , Efficiency ,Integrity ,Usability
o Product Revision
Maintainability ,Flexibility ,Testability
o Product Transition Portability, Reusability, Interoperability
FURPS: Functionality,Usability,Reliability,Performance,Supportability
Product metrics: Product metrics for computer software helps us to assess quality.
o Metrics for Analysis model:
Function point metric:uses following parameters
EIS(No.of External inputs)
EOS(No.of External outputs)
EQS(No.of External Inquiries)
ILF(No.of Internal Logical files)
EIFS(No.of External Interface files)
o Metrics for Design model:
DSQI: Dsign Structure Quality Index is used
Uses following parameters:
S1:Total number of modules
S2:Number of modules whose correct function depends on the data input
S3:Number of modules whose function depends on prior processing
S4:Number of data base items
S5:Number of unique database items
S6: Number of database segments
S7:Number of modules with single entry and exit
Then,Calculate D1 to D6 from s1 to s7
o Metrics for Source code: Primitive measure that may be derived after the code is
generated or estimated once design is complete
n1 = the number of distinct operators that appear in a program
n2 = the number of distinct operands that appear in a program
N1 = the total number of operator occurrences.
N2 = the total number of operand occurrence.
Overall program length N can be computed:
N = n1 log2 n1 + n2 log2 n2
V = N log2 (n1 + n2)
o Metrics for Testing: Program level & Effort are calculated
n1 = the number of distinct operators that appear in a program
n2 = the number of distinct operands that appear in a program
N1 = the total number of operator occurrences.
N2 = the total number of operand occurrence.
PL (Program level)= 1/[(n1 / 2) x (N2 / n2 l)]
E(Effort) = V/PL
o Metrics for Maintenance:
SMI(Software Maturity Index) used Mt = the number of modules in the current release
Fc = the number of modules in the current release that have been changed
Fa = the number of modules in the current release that have been added.
Fd = the number of modules from the preceding release that were deleted in the
current release
SMI = [Mt – (Fc + Fa + Fd)/ Mt ]
Metrics for Process And Product:
o Software Measurement:
Direct Measure
Indirect Measure
o The metrics in software Measurement are:
Size oriented metrics
Function oriented metrics
Object oriented metrics
Web based application metric
o Metrics for Software Quality metrics:
Correctness , Maintainability ,Integrity, Usability
DRE(Defect Removal Efficiency):
o DRE=E/(E+D)
o E is the no. of errors found before delivery and D is no. of defects
o Ideal value of DRE is 1
Questions :
1) Differentiate between White box testing and black box testing.
2) Explain about a)Unit testing b) Integration testing c)Regression testing
3) Write short notes on Validation testing and System testing.
4) Discuss the importance of debugging in software quality.
5) Explain about metrics for analysis and design models
6) What are metrics for source code and testing? Explain.
7) Explain about metrics for software maintenance.
8) What are the metrics for software quality. Explain briefly
Sample Objective Questions:
1. Verification and Validation uses_Internal and External resources respectively
2. Unit Testing concerns with testing the lower level components/units of Software
3.white box testing is also known as glass box testing.
4. Testing beyond normal operational capacity is __________. [C]
a. Load testing
b. Performance testing
c. Stress testing
d. All of these.
5. A tester is executing a test to evaluate and it complies with the user requirement for a certain
field be populated by using a dropdown box containing a list of values, at that time tester is
performing __________ [B]
a.White box testing
b.black box testing
c.Load testing
d.Regression teting
6. Which testing is the re-execution of some subset of tests that have already been conducted to
ensure the changes that are not propagated? [B]
a. Unit testing
b.Regression testing
c.Integration testing
d.Thread based testing
7.Alpha testing is a type of user acceptance testing(UAT) in which the software is tested in the
developer environment in presence of customer.
8.DRE stands for Defect Removal Efficiency
9. Cyclomatic complexity belongs to [A]
a.White box testing
b.Black box testing
10.Which of the following does not belong to system testing [D]
a. Recovery Testing
b.Performance testing
c.Stress testing
d.loop testing
11.Which of the following is not a McCalls quality factor? [B]
a.Product Operation
b.Product refinement
c.Product revision
d.Product Transition
12. DSQI is acronym for Dsign Structure Quality Index
13. Software Quality is the Conformance to explicitly stated functional and performance requirements
14. Function point metric is a metric for analysis model [A]
a.true
b.false
15.Which of the following is not a debugging strategy [E] a.Automated debugging
b.backtracking
c.brute force method
d.cause elimination
e.None
Unit – V: Risk management, Quality Management
Important Points:
Risk is an undesired event or circumstance that occur while a project is underway
Risk Management: aims at reducing the impact of all kinds of risks that may affect a project
by identifying, analyzing and managing them.
Risk Management: two risk strategies:
o Reactive : It monitors the projects likely risk and resources are set aside.
o Proactive: Risk are identified, their probability and impact is accessed
The different risks are
o Project Risk
o Technical Risk
o Business Risk
o Known Risk
o Unpredictable Risk
o Predictable Risk
The different stages in risk management are:
o Risk Identification
o Risk Projection:
o Risk Refinement
Risk Mitigation Monitoring And Management (RMMM): Its goal is to assist project team
in developing a strategy for dealing with risk
o There are three issues of RMMM
Risk Avoidance
Risk Monitoring and
Risk Management
RMMM plan: It documents all work performed as a part of risk analysis
o Each risk is documented individually by using a Risk Information Sheet(RIS)
o RIS is maintained by using a database system
Quality Management: o Variation control is the heart of quality control
o Quality of design
o Quality of conformance
o Quality control(QC)
o Quality assurance(QA)
o Cost of quality
Prevention costs
Appraisal costs
Failure costs
External failure costs
o SQA(software quality assurance): is the concern of every software engineer to reduce
cost and improve product time-to-market.
o Software Reviews: Purpose is to find errors before they are passed on to another
software engineering activity or released to the customer.
o Software engineers (and others) conduct formal technical reviews (FTRs) for
software quality assurance.
o Using formal technical reviews (walkthroughs or inspections) is an effective means
for improving software quality.
o FTR:A FTR is a software quality control activity performed by software engineers and
others.
o Statistical Quality Assurance(SQA): Information about software defects is collected
and categorized.
o Pareto principle (80% of the defects can be traced to 20% of the causes) used.
o Six Sigma for Software Engineering:
Three core steps:
1. Define customer requirements, deliverables, and project goals via
well-defined methods of customer communication.
2. Measure each existing process and its output to determine current
quality performance (e.g., compute defect metrics)
3. Analyze defect metrics and determine vital few causes
o Software Reliability: probability of failure free operation of a computer program in a
specified environment for a specified time period
o Measures of Reliability:
Mean time between failure (MTBF) = MTTF + MTTR
MTTF = mean time to failure
MTTR = mean time to repair
Availability = [MTTF / (MTTF + MTTR)] x 100%
Questions :
1) Differentiate Reactive and Proactive risk strategies
2) write short notes on a)Risk Identification b)Risk Projection
3) Explain briefly about Risk refinement
4) Discuss RMMM, RMMM plan
5) What are quality concepts? Explain.
6) Explain briefly about Software Quality Assurance(SQA).
7) Write short notes on Software reviews and Formal technical reviews.
8) What is the importance of SQA (statistical quality assurance) in quality assurance?
9) Discuss ISO 9000 Quality standards.
Sample Objective Questions:
1.Which of the following is not a stage in risk management? [D]
a.Risk Identification
b.Risk Projection
c.Risk Refinement
d.Risk evaluation
2.RMMM stands for Risk Mitigation Monitoring And Management
3. Information about software defects is collected and categorized using SQA(Software Quality
Assurance)
4. According to Pareto’s principle, x% of defects can be traced to y% of all causes. What are the
values of x and y? [C]
a.60,40
b.70,30
c.80,20
d.none
5. What is Six Sigma? [C]
a. It is the most widely used strategy for statistical quality assurance
b. The “Six Sigma” refers to six standard deviations
c. It is the most widely used strategy for statistical quality assurance AND The “Six Sigma” refers to
six standard deviations
d. A Formal Technical Review(FTR) guideline for quality walkthrough or inspection
6. The degree to which the design specifications are followed during manufacturing is known as
a.Quality of design [B]
b.Quality of conformance
c.Quality of testing
d.None
7. Which risk gives the degree of uncertainty and the project schedule will be maintained so that
the product will be delivered in time? [C]
a.Business risk
b.Technical risk
c.Schedule risk
d.Project risk
8. Which risks identify Potential Design, Implementation, Interface, Verification and
Maintenance Problems? [B]
a.Business risk
b.Technical risk
c.Schedule risk
d.Project risk 9. Building an excellent product or system that no one really want a risk is a Business risk
10. Which of the following is not a business risk? [C]
a. building an excellent product or system that no one really wants
b. losing the support of senior management due to a change in focus or change in people
c. lack of documented requirements or software scope
d. losing budgetary or personnel commitment
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