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The main advantage of single-page interfaces (SPIs, aka single-page applications) seems to be that they enable faster transitions between UI states than is possible with conventional web interfaces. By conventional web interface, I mean interfaces in which the client must re-request resources, and re-build and re-render all of the DOM to transition from one UI state to another. This makes theoretical sense, but it's difficult to reason about how significant the speed improvement would be from using an SPI.

So is there any good research showing empirical data on how much of a speed improvement SPIs make for navigating around a site or application? I'm looking for some research that shows numbers comparing the amount of time needed to go from state A to state B in a single-page interface and a conventional web interface (where those states would be different "pages").

Ideally there would be also be in that research:

  • multiple sets of state A to state B UI transitions compared,
  • decent caching implemented in both the single-page interface and multi-page interface, to isolate the comparison to the different interface approaches and account for the lurking variable of caching as much as possible
  • results for how the relative responsiveness varies between different connection speeds and client machine's system resources
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1 Answer 1

I can help you with an almost real world example.

Take a look to this site: http://www.innowhere.com/insites/

This site is an example of a page based conventional e-commerce web site converted to single-page interface.

In spite of SPI nature it also works with JavaScript disabled, when JS is disable the same web site is working as a conventional page based site. Try disabling JavaScript and compare the response time, be sure you will feel the difference, you don't need numbers.

Into details, this example site is built with ItsNat Java AJAX web framework.

ItsNat keeps the same DOM in server (some zones cached usually static parts) and automatically keeps track of server DOM changes sending to the client the same changed DOM as JavaScript code ready to be executed. In client side ItsNat use as much as possible innerHTML to apply DOM changes in client, innerHTML is executed in C++ and is reported to be speeder than pure DOM, innerHTML does basically the same as full page load but applied to an small part.

In summary, in extreme if you are going to change your with new markup using an innerHTML sentence, this operation will be more performant than loading fully the page, in spite you are doing basically the same regarding to markup content, page loading requires more operations than markup parsing/rendering. Of course most of page changing in SPI do not require fully re-rendering of .

This explanation can be applied to any other web framework when framework use innerHTML as much as possible for SPI (there are situations you cannot use innerHTML most of the time in old MSIE browsers < v9). Anyway fully page loading hardly can compete with changing small parts with pure DOM sentences.

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"...be sure you will feel the difference, you don't need numbers." I actually do need numbers, i.e. empirical data, as outlined in my original question. Also, I'm interested not in comparing a JS-enabled SPI to a non-JS HTML fallback (e.g. for web crawlers and users with JS disabled), but rather in comparing a JS-enabled SPI to a JS-enabled conventional web interface. Thank you for the example and the answer, though. –  jqp May 16 '12 at 1:09

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