14

Taken from the Python NDB Overview:

When the application reads an entity, that entity is automatically cached; this gives fast (and inexpensive) reads for frequently-read entities.

...

The NDB function that writes the data (for example, put()) returns after the cache invalidation; the Apply phase happens asynchronously.

In watching on Youtube, Google I/O 2011: More 9s Please: Under The Covers of the High Replication Datastore, at 13:11-ish, the average latencies are:

Master/Slave:

  • Read: 15ms
  • Write: 20ms

High Replication:

  • Read: 15ms
  • Write: 45ms

How significantly does NDB affect these speeds, from the app's perspective?

Edit: Specifically curious about timing stats (in milliseconds).

Extra Credit: I've also heard Nick Johnson refer to queries taking around 160ms each (in 2009) [link] Does NDB provide any speed benefits on queries?

Improve this question

2 Answers 2

Reset to default
18

You'll have to benchmark for yourself -- times depend on many factors, like entity size and complexity: more properties or more items in repeated properties -> more complex.

The numbers you quote are really old and probably no longer reflect reality; most users' experience is that HRD is not slower than M/S, on average (in part because M/S has much higher variability).

There were some NDB benchmarks done here: http://code.google.com/p/appengine-ndb-experiment/issues/detail?id=118 -- but it doesn't compare the numbers to old db.

You can use Appstats to quickly do some timing of operations in a real app.

Improve this answer
1
  • 4
    Good to know for my first Stack Overflow post! I was secretly hoping that you would be one of the responders, given your intimate knowledge of NDB and your ability to analyze stats to death with your X-Ray vision of Python --a deadly combination for this question. Thank you for highlighting some of the complexity points, and the link is very helpful.
    – wtr
    Mar 31, 2012 at 17:55
10

Using NDB makes your datastore calls appear, from your app's perspective, significantly faster.

READ: Best case scenario, reads are made from instance cache or memcache. In most cases, this will be significantly faster than reading from datastore.

WRITE: The NDB put/write method returns right after the cache invalidation. This is way faster than a normal write. So from your app's perspective, it's quite faster. The actual write, however, is performed asynchronously.

NDB vs DB (High Replication): In terms of speed from your app's perspective, NDB should be a clear win.

Improve this answer
4
  • Thanks for the quick reply! I'm specifically interested in the timing, in milliseconds. Editing the post to reflect that now. :)
    – wtr
    Mar 31, 2012 at 8:35
  • @wTyeRogers If you want to know exact figures, you'll have to do your own benchmarks.
    – Nick Johnson
    Mar 31, 2012 at 11:49
  • @NickJohnson, awesome; thanks! Since this is my first Stack Overflow post, I have a question regarding etiquette that's not in the FAQ: Do I edit Albert's post to include the stats, or do I post my own individual answer? (It just feels a bit odd to post an answer to my own question..)
    – wtr
    Mar 31, 2012 at 18:00
  • @wTyeRogers If the answer has substantial new information, answer your own question - that's perfectly acceptable behaviour on SO. If you think it's just a minor tweak, feel free to edit an existing answer.
    – Nick Johnson
    Mar 31, 2012 at 20:48

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.