SEER-SEM

SEER-SEM
Developer(s) Galorath
Stable release
8.2.38.1 / 2017
Operating system Microsoft Windows
Type Project management software
License EULA
Website SEER-SEM Homepage

SEER for Software (SEER-SEM) is an algorithmic project management software application designed specifically to estimate, plan and monitor the effort and resources required for any type of software development and/or maintenance project. SEER, which comes from the noun, referring to one having the ability to foresee the future, relies on parametric algorithms, knowledge bases, simulation-based probability, and historical precedents to allow project managers, engineers, and cost analysts to accurately estimate a project's cost schedule, risk and effort before the project is started.

History

Predecessors

1966 System Development Corporation Model based on regressions.[1]

1980 Don Reifer and Dan Galorath paper which prompted the building of the JPL Softcost model. This model, an early example of software estimation, allows for automated and performed risk analysis. Softcost was later made a commercial product by Reifer Consultants.[2]

1984 Computer Economics JS-2 and Galorath Designed System-3 based on the Jensen model.[3]

The Jensen-inspired System-3, and other modeling systems like Barry Boehm's COCOMO and early works by the Doty Associates can be seen as direct and indirect contributors to the software suite that would be developed by Galorath in the late 1980s.

Version 1.0

In 1988, Galorath Incorporated began work on the initial version of SEER-SEM which resulted in an initial solution of 22,000 lines of code. SEER-SEM version 1.0 was released on 13 5.25" floppy disks and was an early product running on Windows version 2. Designing SEER-SEM for Windows was considered risky as the operating system had yet to establish itself as a viable competitor to the current dominant OS, Microsoft's MS-DOS. However, the adoption of a Windows-based format proved to be worthwhile, allowing SEER-SEM to offer a much more intuitive user interface than would have otherwise been available in MS-DOS. Galorath chose Windows due to the ability to provide a more graphical user environment, allowing more robust management tradeoffs and understanding of what drives software projects.[4]

Next Versions

Since that initial release in 1988, SEER-SEM has undergone numerous upgrades, keeping up with changing technology, adapting to better meet the needs of the customer, and altering the model to achieve more precise estimates. For example, the 1994 release of SEER-SEM version 4 included major enhancements to the core math behind the model, handling the realities of projects rather than just a Rayleigh curve approximation, as well as dozens more knowledge bases and the latest research in software science and complexity metrics. 2003 saw SEER-SEM add significant new features such as Goal Setting and Risk Tuning. Both features operated as their names suggest with Risk Analysis allowing project managers to make changes to estimates and Goal Setting allowing for projects to not only be estimated, but also to be managed. Version 6 of SEER for Software was the first to be fully COM-enabled, allowing SEER to both input and output through various Microsoft products, such as Excel. Version 7 included better handling of projects that stretch beyond their optimal effort.[5]

Current Version

SEER for Software Version 7.3 is a vast improvement over the original implementation, representing perhaps the first time that any version of SEER could be integrated to support all phases of a project's lifecycle. The size of the software has grown to over 200,000 source lines of code and shifted from simply a means to generate work estimates through parametric modeling to a system that buttresses those results with simulation-based probability and over 20,000 historical cases to draw conclusions from.[6]

The original SEER-SEM has also branched into:

Users

SEER for Software has thousands of licensed users including aerospace giants, banking, finance, retail, insurance, and manufacturing. Users include Bank of America, Boeing, Ford Motor Company, Lockheed Martin, National Oceanic and Atmospheric Administration, Northrop Grumman, Siemens, Raytheon, and the US Department of Defense.[7]

Technical details

SEER for Software is designed to be run inside of a Windows environment, and from version 6 onwards, is fully COM-enabled, allowing users to have SEER interact with many Windows products including Microsoft Office. Its current primary API relies on Microsoft Automation. The program itself is written in C and C++.

Group of Models

SEER for Software (SEER-SEM) is composed of a group of models working together to provide estimates of effort, duration, staffing, and defects. These models can be briefly described by the questions they answer:

Software Sizing

Software size is a key input to any estimating model and across most software parametric models. Supported sizing metrics include source lines of code (SLOC), function points, function-based sizing (FBS) and a range of other measures. They are translated for internal use into effective size (). is a form of common currency within the model and enables new, reused, and even commercial off-the-shelf code to be mixed for an integrated analysis of the software development process. The generic calculation for is:

As indicated, increases in direct proportion to the amount of new software being developed. increases by a lesser amount as preexisting code is reused in a project. The extent of this increase is governed by the amount of rework (redesign, re-implementation, and retest) required to reuse the code.

Function-Based Sizing

While SLOC is an accepted way of measuring the absolute size of code from the developer's perspective, metrics such as function points capture software size functionally from the user's perspective. The function-based sizing (FBS) metric extends function points so that hidden parts of software such as complex algorithms can be sized more readily. FBS is translated directly into unadjusted function points (UFP).

In SEER-SEM, all size metrics are translated to , including those entered using FBS. This is not a simple conversion, i.e., not a language-driven adjustment as is done with the much-derided backfiring method. Rather, the model incorporates factors, including phase at estimate, operating environment, application type, and application complexity. All these considerations significantly affect the mapping between functional size and . After FBS is translated into function points, it is then converted into as:

where,

Effort and Duration Calculations

A project's effort and duration are interrelated, as is reflected in their calculation within the model. Effort drives duration, notwithstanding productivity-related feedback between duration constraints and effort. The basic effort equation is:

where,

Once effort is obtained, duration is solved using the following equation:

The duration equation is derived from key formulaic relationships. Its exponent indicates that as a project's size increases, duration also increases, though less than proportionally. This size-duration relationship is also used in component-level scheduling algorithms with task overlaps computed to fall within total estimated project duration.

Notes

  1. B. Mazel The Role of Computer Simulation in Corporate Management: An Overview, Page 8, December 1975,
  2. Dan Galorath Why SEER Got Started August 18, 2008
  3. Dan Galorath Why SEER Got Started August 18, 2008
  4. Galorath, D & Evans M. (2006) Software Sizing, Estimation, and Risk Management ISBN 0-8493-3593-0 Page xxii
  5. Galorath, D & Evans M. (2006) Software Sizing, Estimation, and Risk Management ISBN 0-8493-3593-0 Page xxii
  6. Galorath, D & Evans M. (2006) Software Sizing, Estimation, and Risk Management ISBN 0-8493-3593-0 Page xxiii
  7. (http://www.aviationtoday.com/pressreleases/26821.html Aviation Today

References

Fischman, Lee; McRitchie,Karen; and Galorath, Daniel D. Inside SEER-SEM, CROSSTALK The Journal of Defense Software Engineering, April 2005, pp. 26-28.

SEER-SEM Official Site

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