Is there any scientific data available regarding the impact on delivery time due to switching between tasks?

Peopleware (IIRC) suggests it's half an hour per switch, but I feel it could be a lot higher.

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    I'd also be interested in data about whether pair-programming changes this. If you interrupt only one member of the pair, and the other keeps concentrating, does the interrupted member get "back in the groove" faster than if he'd been working alone? – Curt J. Sampson May 19 '09 at 13:44
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    I just put a bounty on this, (though I'm not expecting to pay it). I'm looking for actual scientific behaviouraly research. Not annecdotal experenice. I know we all know it's true, but I want real data back by full scientific rigour. – RickMeasham Oct 7 '09 at 19:57
  • If you find such studies, please let me know if one of these addresses gender differences about multi-tasking abilities – mouviciel Oct 8 '09 at 15:51
  • This question is off-topic because it's not within the scope for this site, as defined in What topics can I ask about here? Also see: What types of questions should I avoid asking? You may be able to ask on another Stack Exchange site, perhaps Project Management or Software Engineering. Be sure to read the help center's on-topic page for any site on which you intend to post a question. – Makyen Jun 28 at 0:01
  • I'm voting to close this question as off-topic because it has nothing whatsoever to do with programming. – EJoshuaS - Reinstate Monica Jul 22 at 19:29

The general consensus among all industries is that task switching is detrimental. The more complex the tasks, the greater the detriment. If you are looking for scholarly arguments for this try these:

  1. A Diary Study of Task Switching and Interruptions, Microsoft Research
  2. Concerning Interruptions, Stephen B. Jenkins, IEEE Comp. Society, 2006
  3. Information Needs in Collocated Software Development Teams, ICSE Proceedings of the 29th international conference on Software Engineering - need to be an ACM member to access
  4. From Scatterbrained to Focused: UI Support for Today’s Crazed Information Worker, Microsoft Research, 2006
  5. Predicting User Tasks: I Know What You’re Doing!, School of Electrical Engineering Oregon State University

All of the papers listed above contains very many citations and references if you are interested in reading more. I'm not sure if any of these sources might make raw data available.

On the lighter and shorter side, these are not scholarly, but not in the blogoshpere either:

  1. The Art of Lean Software Development: A Practical and Incremental Approach, page 19
  2. Worker, Interrupted: The Cost of Task Switching, FastCompany, 28 July 2008
  3. Continuous Partial Attention and Software Productivity, QSM Associates, 14 Nov 2002

Joel on Software: Human Task Switches Considered Harmful
Coding Horror: The Multi-Tasking Myth

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    Both are good articles, but hardly answer the "scientific data" requirements of OP. – Ilya Nov 18 '08 at 8:25
  • Great articles, particularly the Coding Horror as it has graphs. And as anyone in management can tell you: if there's a graph, it's truth. :-P I'd still love some actual scientific data, but I'm becoming a little convinced it doesn't exist .. yet. Any PhDers looking for a topic? – RickMeasham Nov 18 '08 at 23:09

Two articles from Kathy Sierra (from the Creating Passionate Users's blog) on multitasking. 1, 2

She doesn't cite articles explicitly, but does list some authors that may provide what you're after.


An excellent general summary (not limited to programming tasks) of the cost of task switching is here -- the summary's written in terms accessible to the non-expert, but it's published at a pretty reputable site (the online site of the American Psychological Association), and ends with a bibliography of a dozen good references to prestigious peer-reviewed journals. You'll have to go to said journals for most numbers -- the summary only quotes Meyer's famous measurement that

even brief mental blocks created by shifting between tasks can cost as much as 40 percent of someone's productive time

That summary is from 2006, and research in the fields has of course continued since. A drier and less accessible, but more recent research survey from earlier this year is here (a site at Michigan State University) -- it quotes and summarizes a dozen of the survey author's works (Erik M. Altmann, associate professor with the Department of Psychology at Michigan State University). All links in this summary are to freely downloadable PDFs, so starting from here may be handier than the study I previously quoted if you don't have access to JSTOR through your library or research institution; however, what you get here is basically a good survey of the work of just one researcher.

Of course, no summary can replace going right to the peer-reviewed scholarly journals and studying (and critically assessing) all the relevant results. It is, however, a work that will take you years, because task-switching costs and human multitasking issues are an extremely popular research field these days -- from the neuroscientists to the behavioral psychologists and management scientists, everybody wants a slice of the action. A Google Scholar search for task-switching costs shows 16,400 results -- many of those are freely accessible even without JSTOR, most all with be with JSTOR or other similar gateways to published research, though probably understanding most of them thoroughly will require a few PhDs in related disciplines (peer-reviewed journals do tend to be that way;-).

BTW, answering the question you ask in your Q's title: way scientifically proven (as solidly as, say, evolution, or global warming, though of course you'll always find deniers for any of those too;-) -- the hot debate and enormous volume of research is about understanding what are the exact numeric parameters of task-switching costs, how they depend on the tasks and on other circumstances, what neurological or other pathways explain what part of them, how to organize to reduce or minimize them, and so forth. Whether the famous "40% productivity loss" estimate is roughly in the ballpark (as I suspect it is) may still be somewhat contentious, but the existence of the effect as a some pretty relevant number (and with enormous economic costs all over the world, once you consider that it applies to every task human beings perform -- permanently raising every human being's productivity by even 10 % would mean a huge jump ahead for the world!-) is essentially beyond doubt.

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