Cerner Innovation Campus, Kansas City, Missouri.
Open to Cerner staff.
This presentation explains how test models can drive development and defeat the testing backblob, instead of loosely stated behavior (BDD) or acceptance criteria (ATDD).
The meeting will be held at the University of Illinois at Chicago in rooms 1043-1047 of the Engineering Research Facility, 842 W. Taylor Street, Chicago, Illinois 60607.
This talk presents multi-dimensional testing, a model-based strategy to produce test suites that interleave non-trivial variation in system usage and load. Compared with equivalent but separate usage and load test suites, this achieves testing that is highly realistic and more likely to reveal catastrophic failure modes. A project in which this approach was evolved and used is described. An innovative model of system failure, the “dragon king” provides a useful model of failure modes in large reactive systems, providing insight into recent high profile failures of complex distributed systems. I argue that multi-dimensional testing is necessary to reveal dragon-kings.
Read more about multi-dimensional testing:The Happypath to Showstoppers.
WOPR20 was held in New York City on May 14-16, 2013, and was hosted by Liquidnet. Ross Collard was the Content Owner.
http://www.performance-workshop.org/wp/?page_id=94
Presented a case study of multi-dimensional testing applied to a sceen-based trading system, participated in facilitated discussion of other talks.
Loyola University Water Tower Campus (Chicago/Michigan Area)
Corboy Law Center (CLC) Room 0211 Campus map
25 E. Pearson, Chicago IL 60611
http://www.chicagoacm.org/meeting-topics/2013-05-08-validating-60-000-pages-of-api-bob-binder
In 2002, the US Department of Justice and EU regulators ordered Microsoft to publish documentation sufficient to allow third parties to interoperate with hundreds of its server and client programs. This presentation highlights the novel requirements engineering and model-based testing devised to validate the resulting 60,000 pages of API documentation.
This process resulted in over 50,000 defect corrections. Lessons learned from this project can improve quality, reduce costs, and facilitate interoperability of any complex system.
Cerner Innovation Campus, Kansas City, Missouri.
Open to Cerner staff.
This presentation explains how test models can drive development and defeat the testing backblob, instead of loosely stated behavior (BDD) or acceptance criteria (ATDD).
The meeting will be held at the University of Illinois at Chicago in rooms 1043-1047 of the Engineering Research Facility, 842 W. Taylor Street, Chicago, Illinois 60607.
This talk presents multi-dimensional testing, a model-based strategy to produce test suites that interleave non-trivial variation in system usage and load. Compared with equivalent but separate usage and load test suites, this achieves testing that is highly realistic and more likely to reveal catastrophic failure modes. A project in which this approach was evolved and used is described. An innovative model of system failure, the “dragon king” provides a useful model of failure modes in large reactive systems, providing insight into recent high profile failures of complex distributed systems. I argue that multi-dimensional testing is necessary to reveal dragon-kings.
Read more about multi-dimensional testing:The Happypath to Showstoppers.
WOPR20 was held in New York City on May 14-16, 2013, and was hosted by Liquidnet. Ross Collard was the Content Owner.
http://www.performance-workshop.org/wp/?page_id=94
Presented a case study of multi-dimensional testing applied to a sceen-based trading system, participated in facilitated discussion of other talks.
Loyola University Water Tower Campus (Chicago/Michigan Area)
Corboy Law Center (CLC) Room 0211 Campus map
25 E. Pearson, Chicago IL 60611
http://www.chicagoacm.org/meeting-topics/2013-05-08-validating-60-000-pages-of-api-bob-binder
In 2002, the US Department of Justice and EU regulators ordered Microsoft to publish documentation sufficient to allow third parties to interoperate with hundreds of its server and client programs. This presentation highlights the novel requirements engineering and model-based testing devised to validate the resulting 60,000 pages of API documentation.
This process resulted in over 50,000 defect corrections. Lessons learned from this project can improve quality, reduce costs, and facilitate interoperability of any complex system.