I just read the first page of the paper so far, but it sounds like it is heading in a good direction.

It would be interesting to apply also to home access-point/switches, especially since they are now pushing 1 Gb/sec over the air.

 

I will put it on my very interesting stack.

 

 



On Wednesday, October 15, 2014 3:49pm, "Wes Felter" <wmf@felter.org> said:

> On 10/10/14, 7:52 PM, dpreed@reed.com wrote:
> > The best approach to dealing with "locking overhead" is to stop thinking
> > that if locks are good, more locking (finer grained locking) is better.
> > OS designers (and Linux designers in particular) are still putting in
> > way too much locking. I deal with this in my day job (we support
> > systems with very large numbers of cpus and because of the "fine
> > grained" locking obsession, the parallelized capacity is limited). If
> > you do a thoughtful design of your network code, you don't need lots of
> > locking - because TCP/IP streams don't have to interact much - they are
> > quite independent. But instead OS designers spend all their time
> > thinking about doing "one thing at a time".
>
> The IX project looks like a promising step in that direction, although
> it still doesn't support sub-core granularity like Linux does.
>
> https://www.usenix.org/conference/osdi14/technical-sessions/presentation/belay
>
> --
> Wes Felter
> IBM Research - Austin
>
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