Title :
Predicting Software Field Reliability
Author :
Rotella, Pete ; Chulani, Sunita ; Goyal, Devesh
Author_Institution :
Cisco Syst. Inc., San Jose, NC, USA
Abstract :
The objective of the work described is to accurately predict, as early as possible in the software lifecycle, how reliably a new software release will behave in the field. The initiative is based on a set of innovative mathematical models that have consistently shown a high correlation between key in-process metrics and our primary customer experience metric, SWDPMH (Software Defects per Million Hours [usage] per Month). We have focused on the three primary dimensions of testing -- incoming, fixed, and backlog bugs. All of the key predictive metrics described here are empirically-derived, and in specific quantitative terms have not previously been documented in the software engineering/quality literature.
Keywords :
program debugging; program testing; software metrics; software quality; software reliability; SWDPMH; backlog bugs testing; customer experience metric; fixed testing; incoming testing; innovative mathematical models; predictive metrics; software defects per million hours; software engineering; software field reliability prediction; software lifecycle; software quality; Computer bugs; Correlation; Mathematical model; Predictive models; Reliability; Software; Testing; customer experience; modeling; prediction; release quality; software release reliability; testing;
Conference_Titel :
Software Engineering Research and Industrial Practice (SER&IP), 2015 IEEE/ACM 2nd International Workshop on
Conference_Location :
Florence
DOI :
10.1109/SERIP.2015.20
