CERT-SEI
SEI_Podcast_2014_thin

03/27/2014

Adapting the PSP to Incorporate Verified Design by Contract

William Nichols as interviewed by Suzanne Miller

Summary

The Personal Software Process promotes the use of careful procedures during all stages of development with the aim of increasing an individual's productivity and producing high quality final products. Formal methods use the same methodological strategy as the PSP: emphasizing care in development procedures as opposed to relying on testing and debugging. They also establish the radical requirement of proving mathematically that the programs produced satisfy their specifications. Design by Contract is a technique for designing components of a software system by establishing their conditions of use and behavioral requirements in a formal language. When appropriate techniques and tools are incorporated to prove that the components satisfy the established requirements, the method is called Verified Design by Contract (VDbC). In this podcast, Bill Nichols discusses a proposal for integrating VDbC into PSP to reduce the number of defects present at the unit-esting phase, while preserving or improving productivity. The resulting adaptation of the PSP, called PSPVDC, incorporates new phases, modifies others, and adds new scripts and checklists to the infrastructure. Specifically, the phases of formal specification, formal specification review, formal specification compile, test case construct, pseudo code, pseudo code review, and proof are added.

Downloads: MP3 | Transcript

Loading Podcast.....

Categories: TSP

Share This:

About the Speakers

William Nichols

William "Bill" Nichols joined the SEI in 2006 as a senior member of the technical staff and serves as a PSP instructor and TSP coach with the Team Software Process team. Prior to joining the SEI, Nichols led a software development team at the Bettis Laboratory near Pittsburgh, where he had been developing and maintaining nuclear engineering and scientific software for 14 years. His publication topics include the interaction patterns on software development teams, design and performance of a physics data acquisition system, analysis and results from a particle physics experiment, and algorithm development for use in neutron diffusion programs. He has a doctorate in physics from Carnegie Mellon University.