Cost Estimation - PowerPoint PPT Presentation

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Cost Estimation

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Before construction begins, let alone payment ... 'Adding manpower to a late project makes it later.' LOC/KLOC. LOC: lines of code ... – PowerPoint PPT presentation

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Title: Cost Estimation


1
Cost Estimation
  • Van Vliet, chapter 7
  • Glenn D. Blank

2
Cost estimates when and why
  • When does a contractor estimate costs for
    building a house?
  • Before construction begins, let alone payment
  • Takes into account subcontracts for foundation,
    framing, plumbing, electrical, etc.
  • Hierarchy, modularity and abstraction support
    estimates
  • Who benefits from these cost estimates?
  • Can cost estimates have similar advantages for
    software projects?
  • On the other hand, can cost estimates for
    software projects be as accurate as for house
    contracts?
  • Why or why not?

3
Person-months
  • Most software cost estimates assume cost effort
  • Effort man-month, i.e., a persons work for a
    month
  • Usually ignores cost of hardware or cost of
    maintenance
  • Fred Brooks, The Mythical Man-Month, 1975
  • Cost does indeed vary as the product of the
    number of men and the number of months. Progress
    does not. Hence the man-month as a unit for
    measuring the size of a job is a dangerous and
    deceptive myth. It implies men and months are
    interchangeable.
  • Men and months are interchangeable commodities
    only when a task can be partitioned among many
    workers with no communication among them. This is
    true of reaping wheat or picking cotton it is
    not even approximately true of systems
    programming.
  • Adding manpower to a late project makes it
    later.

4
LOC/KLOC
  • LOC lines of code
  • KLOC kilo lines of code, or (lines of code) /
    1000
  • Still regarded as most accurate way to measure
    labor costs
  • What are some uncertainties about measuring LOC?
  • Should comment lines count? Or blank lines for
    formatting?
  • How do we compare lines of assembly language vs.
    high-level language like C or Java?
  • How do you know how many LOC the system will
    contain when its not implemented or even
    designed yet?
  • How do you account for reuse of code?

5
Bottom up estimates
  • Estimate the cost for each module or unit of code
  • Sum the cost of the modules
  • Add an estimate of integration costs
  • Assumes that design is far enough along that all
    modules are defined
  • Another bottom-up estimate
  • Break the work into subtasks small enough to
    estimate
  • Person responsible for performing the subtask
    estimates the effort required
  • Software architectural design work must be done
    before such an estimate is possible

6
Formal or algorithmic cost models
  • Goal compute the cost of a software project,
    with formulas and constant factors called cost
    drivers
  • Formal cost models are thought to be the best way
    we have to predict the software development costs
  • But for many projects its not possible to gather
    the input data needed
  • At best, formal cost models yield estimates that
    are at most 25 off, 75 of the time, for the
    projects used to derive the model
  • May imply more uncertainty for new projects (the
    ones we want to estimate)

7
COCOMO (1981)
  • COCOMO COnstructive COst Model
  • Basic formula is Effort bKLOCc
  • where b, c are constants whose values depend on
    the project characteristics
  • Basic COCOMO distinguishes three classes of
    projects
  • Organic small teams develops software in known
    environment, so developers can contribute early
    b2.4, c1.05
  • Embedded Environment is inflexible and
    constrained, i.e., air traffic control or
    embedded weapons systems, b3.6, c1.20
  • Semidetached Team members have varying levels of
    experience working on larger projects, b3.0,
    c1.12
  • Intermediate COCOMO factors in 15 additional
    cost drivers, i.e., complexity of software,
    documentation needs, etc.
  • E.g., if complexity is low, adjust this factor by
    0.85 (400.8434 months) What do you think of
    measuring cost factors this way?
  • Detailed COCOMO phase sensitive, uses separate
    multipliers for each project phase, from
    requirements through integration

8
Function Point analysis(1979, 1983)
  • Rather than counting LOC, count data structures
    (function points)
  • Intended to be a user-oriented measure of system
    function
  • Particularly suitable for business applications
  • Less well suited for systems such as compilers,
    real-time systems, etc.
  • Key inputs are number of
  • Input types, output types, inquiry types, logical
    internal files, interfaces
  • May also apply corrections for differences in
    complexity of data types
  • After computing the function points, map them to
    LOC
  • Formula depends on the particular programming
    language to be used
  • Based on older, batch-oriented systems
  • Object Point analysis may be more suitable for
    interactive, screen-oriented systems
  • Note objects are screens, reports and 3GL
    modules, not OOP classes

9
COCOMO 2 (1995, 1997)
  • Tuned to applications and life-cycle practices of
    90s and 2000s
  • Three different models applied at different life
    cycle stages
  • Application Composition model
  • Intended for prototypes, using components or CASE
    tools
  • Similar goal as for Function Point analysis
  • Based on counting Object Points (instead of
    function points)
  • Early Design model
  • For the architectural design phase
  • Incorporates some aspects of Function Point
    analysis
  • Post-Architecture model
  • For the development stage
  • Most detailed
  • Similar to the original COCOMO model
  • Adds many new cost drivers
  • Personnel capabilities, use of software tools,
    multi-site development, etc.
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