Waterfall Model
Feasibility
V&V
Study
Requirements
Design
Coding
V&V
V&V
V&V
Test
V&V
Deliverables ? baselines
Document?driven process
"Big Bang" testing, "stubs", daily build and smoke test
"A Rational Design Process and How to Fake It"
a0
Evolutionary Model
Prototyping ? "Do it twice"
to assess feasibility
to verify requirements
May only be a front end or executable specification
Or develop system with less functionality or quality attributes
3 approaches:
1) Use prototyping as tool for requirements analysis.
Need proper tools
2) Use to accomodate design uncertainty.
Prototype evolves into final product
Documentation may be sacrificed
May be less robust
Quality defects may cause problems later
3) Use to experiment with different proposed solutions
before large investments made.
a1
Evolutionary Models (2)
Drawbacks:
Can be expensive to build
Can develop a life of its own ? turns out to be product itself
Hard to change basic decisions made early
Can be an excuse for poor programming practices
Experimental Evaluation:
Boehm: prototyping vs. waterfall
Waterfall: addressed product and process control risks better
Resulted in more robust product, easier to maintain
Fewer problems in debugging and integration due to
more thought?out design
Prototyping: addressed user interfaces better
Alavi: prototyping vs. waterfall applied to an information system
Prototyping: users more positive and more involved
Waterfall: more robust and efficient data structures
a2
Incremental Model
Functionality produced and delivered in small increments.
Focus attention first on essential features and add functionality
only if and when needed
Systems tend to be leaner ?? fights overfunctionality syndrome
May be hard to add features later
Variant: Incremental implementation only
Follow waterfall down to implementation
During requirements analysis and system design
Define useful subsets that can be delivered
Define interfaces that allow adding later smoothly
Different parts implemented, tested, and delivered according
to different priorities and at different times.
a3
Spiral Model
Includes every other model
Risk driven (vs. document driven or increment driven)
Radius of spiral represents cost accumulated so far
Do you need one uniform process over entire project?
In requirements analysis, identify aspects that are uncertain
e.g., library:
checkout and checkin (inventory control) ? relatively certain
card catalogue, user search ? relatively uncertain
then have separate processes for the different parts.
a4
Software Factory
Most software organizations strictly separated between
initial development and later maintenance.
No incentive to produce a system that can be easily
maintained.
No incentive to produce reusable components.
Project management vs. product management
Extend management responsibility to cover family of
products rather than an individual product (product families)
a5
Despite the rhetoric, CMM emphasizes control over flexibility and learning
Control orientation seeks to maintain predictable operations, minimize
variation, and avoid surprises.
Learning orientation seeks to increase variation in order to explore
opportunities.
Formal bureaucratic control undermines intrinsic motivation needed for
creative and flexible responses to uncertainty.
Senge: humanistic values of caring and individual freedom are
essential to building learning organizations.
Carroll: "In too many TQM programs, it is the difficult?to?implement
portions of the program that are being finessed or ignored
and the rhetoric that is being retained."
a6
Other CMM Problems
Treats people as assembly line workers, i.e., replaceable, unreliable
Humans are subordinated to defined processes
Why five levels? Why a rigid order?
Creates inflexible organizations and the illusion of control
Places the focus on the wrong things
a7