• Predictive Analytics for Improved Cost Management  



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Original Post Date: Friday, October 4, 2013 Parametric modeling is excellent for all aspects of early-concept cost estimation, including go/no-go decisions downstream. So, in the spirit of bringing a transparency to (ethical) financial engineering… why not apply our craft to pricing “real-options”? The latter are essentially strategic opportunities for engaging resources (cost/schedule) into projects, ventures, investments, or even abandonments. The opportunity choice has value itself! Unlike static project Net Present Value (often, but not exclusively, approximated with Discounted Cash Flow) assuming pre-defined decisions, real-options reflect the merit of flexibility. If an R&D or proof-of-concept presents viability/marketability learning, the option has positive ...
Original Post Date: Friday, October 4, 2013 Ahhhh, the 80s… a challenging (but often confusing) time in an evolving computing world. Working in 1985 as a software estimator as well as SQA engineer in a quality assurance department that “audited” real-time projects using new concepts like OOD & OOP… well, you get the picture. It was a great time to get immersed into great work. And the good news: that company’s process as well as its developers were bullish on a young estimation/ quality type asking plenty of questions… as long as they were of the Yes-No variety. And ask ...
Original Post Date: Friday, October 4, 2013 ...wear the worst shoes. The cobbler was a master at his craft; he was just too tired to practice it when he got home from the shop. Sound familiar? A disciplined approach to understanding (functional) requirements as well as analogous projects (with actuals) is our not-so-secret sauce. Why run the risk of creeping back up our career learning curve? There’s already enough scope creep to keep us busy. Plus, for you management types charged with prospecting, a consistent approach towards estimation is a great way to connect with people who've felt the pain of ...
Original Post Date: Friday, October 4, 201 My "Real Options Valuation" blog suggested the use of parametrics in real options valuation. I’d like to offer the generalized use of our type of modeling in valuing tangible assets. Typically, fundamental analysis evaluates the intrinsic value of securities. I won’t attempt to compete with Warren Buffet here. But it is certainly the case that a company, or portfolio of securities reflecting many companies, is based in part on the market value of its product assets and their potential for future earnings, as well as other objective and subjective considerations. In parametric estimation, ...
Original Post Date: Wednesday, September 25, 2013 The “Systems Folder” cost object which is found at the start of every TruePlanning Project is most often confused with the “Folder” icon. These two however should not be confused. The “Folder” icon does not have an input sheet at all. It is not a cost object and contains no cost estimating logic or relationships.  It is provided as a collection point so that cost objects can be grouped in ways for clarity like to separate out phases of the acquisition lifecycle or to divide costs between subcontractors, etc.  Whereas, the “System Folder” contains all ...
Original Post Date: Wednesday, September 25, 2013 We may all agree that risk analysis is a necessary, vital part of any valid/defensible cost estimate.  We may not agree as much on the best approach to take to quantify risk in an estimate.  All estimates contain risk.  In the words of a wise cost estimator I know, “That’s why they’re called estimates, and not exactimates!”  We must quantify and manage levels of risk.  Why?  One vital part of a successful program is the ability to build a budget based on reliable cost projections.  Reliability increases when we can analyze inherent risk, ...
Original Post Date: Wednesday, September 25, 2013 A lot of clients have been expressing interest in modeling ASICs, FPGAs, and various other electronic modules inside TruePlanning® (TP). In the release of TruePlanning® 2014 there will now be the capability to model all these products inside our framework. Not only will you be able to model these products but you will of course be able to model the integration cost of these electronic components with Hardware and Software components. In addition you would be able to add and estimate the program management of your total project through our integrated framework. TruePlanning Microcircuits ...
Original Post Date: Wednesday, September 25, 2013 “Integration Factors – What Makes TruePlanning™ Stand Out in the Crowd” In today’s world, system integration is becoming more and more important. The government has started asking for designs that have additional capabilities, which allow connectivity both with systems under construction and systems already in use and deployed. The reason systems integration is important is because it adds value to the system by adding abilities that are now possible because of new interactions between subsystems. In a recently posted article on “The True Costs of Integration” the writer defined the costs of a typical integration ...
Original Post Date: Wednesday, September 25, 2013 These days bidding can be a game, and contractor leadership is constantly making decisions on whether to take on risk in order to stay competitive or to bid conservatively for the safety of not overrunning.  You may complete a cost model for a program, and spend time analyzing the uncertainties behind each input and in the end find that your estimate lands at the 30% confidence level.  After some strategic analysis, the bid leadership team decides, we would like to bid at the 80% Confidence level, “please present your estimate to support that total”.  ...
Original Post Date: Wednesday, September 25, 2013 Background: FPGA design typically uses a library of Tiles (Sets of gates and transistors) and a CAD system to physically lay out the actual active devices on an empty portion of substrate. These devices are interconnected by physical (usually copper) traces to route the signals and perform the desired tasks. The design may be totally customized for a single set of functions and may not need any form of programming. Other designs may allow some parts of the device to be electronically re-programmed to allow the device to be calibrated or adjusted for ...