[PATCH] opp: introduce library for device-specific OPPs

Rafael J. Wysocki rjw at sisk.pl
Mon Sep 20 13:35:17 EDT 2010


On Monday, September 20, 2010, Kevin Hilman wrote:
> "Rafael J. Wysocki" <rjw at sisk.pl> writes:
> 
> > On Monday, September 20, 2010, Kevin Hilman wrote:
> >> "Rafael J. Wysocki" <rjw at sisk.pl> writes:
> >> 
> >> [...]
> >> 
> >> >> >> In terms of the lifetime rules on the nodes in the list:
> >> >> >> The list is expected to be maintained once created, entries are expected 
> >> >> >> to be added optimally and not expected to be destroyed, the choice of 
> >> >> >> list implementation was for reducing the complexity of the code itself 
> >> >> >> and not yet meant as a mechanism to dynamically add and delete nodes on 
> >> >> >> the fly.. Essentially, it was intended for the SOC framework to ensure 
> >> >> >> it plugs in the OPP entries optimally and not create a humongous list of 
> >> >> >> all possible OPPs for all families of the vendor SOCs - even though it 
> >> >> >> is possible to use the OPP layer so - it just wont be smart to do so 
> >> >> >> considering list scan latencies on hot paths such as cpufreq transitions 
> >> >> >> or idle transitions.
> >> >> > 
> >> >> > If the list nodes are not supposed to be added and removed dynamically,
> >> >> > it probably would make sense to create data structures containing
> >> >> > the "available" OPPs only, once they are known, and simply free the object
> >> >> > representing the other ones.
> >> >> I covered the usage in my reply here: 
> >> >> http://marc.info/?l=linux-arm-kernel&m=128476570300466&w=2
> >> >> but to repeat, the list is dynamic during initialization but remains 
> >> >> static after initialization based on SOC framework implementation - this 
> >> >> is best implemented with a list (we had started with an original array 
> >> >> implementation which evolved to the current list implementation 
> >> >> http://marc.info/?l=linux-omap&m=125912217718770&w=2)
> >> >
> >> > Well, my point is, since the _final_ set of OPPs doesn't really
> >> > change, there's no need to use a list for storing it in principle.
> >> >
> >> > Your current algorithm seems to be:
> >> > (1) Create a list of all _possible_ OPPs.
> >> > (2) Mark the ones that can actually be used on the given hardware as
> >> >     "available".
> >> > (3) Whenever we need to find an OPP to use, browse the entire list.
> >> > This isn't optimal, because the OPPs that are not marked as "available" in (2)
> >> > will never be used, although they _will_ be inspected while browsing the list.
> >> 
> >> A little clarificaion about "will never be used" below...
> >> 
> >> > So, I think a better algorithm would be:
> >> > (1) Create a list of all possible OPPs.
> >> > (2) Drop the nonavailable OPPs from the list.
> >> > (3) Whenever we need to find an OPP to use, browse the entire list.
> >> >
> >> > But then, it may be better to simply move the list we get in (2) into an
> >> > array, because the browsing is going to require fewer memory accesses in
> >> > that case (also, an array would use less memory than the list).  So, perhaps,
> >> > it's better to change the algorithm even further:
> >> > (1) Create a list of all possible OPPs.
> >> > (2) Drop the nonavailable OPPs from the list.
> >> > (3) Move the list we got in (2) into a sorted array.
> >> > (4) Whenever we need to find an OPP to use, browse the array
> >> >      (perhaps using binary search).
> >> 
> >> Just a little clarification on "available."  The intended use of this flag
> >> was not just a one-time "available on hardware X."  It was also intended
> >> to be able to add/remove availbale OPPs dynamically at run-time.
> >> 
> >> More specifically, it's intended for use to *temporarily* remove an OPP
> >> from being selected.  The production usage of this would primarily for
> >> thermal considerations (e.g. don't use OPPx until the temperature drops)
> >> 
> >> However, for PM development & debug, we also use this to temporarily
> >> take a class of OPPs out of the running for test/debug purposes
> >> (e.g. driver X runs great at OPPx and OPPy, but not OPPz.)  So the
> >> ability to temporarily be selective about OPPs at runtime for
> >> debug/development is extremely useful.
> >> 
> >> So, to summarize, "most of the time", all the OPPs that were added (via
> >> opp_add()) will be "available".  Ones that are !availble will likely
> >> only be so temporarily, so I'm not sure that the overhead of keeping a
> >> separate structure for the available and !available OPPs is worth it.
> >> Especially, since OPP changes are relatively infrequent.
> >
> > Well, the Nishanth's description doesn't match this, so thanks for the
> > clarification.
> 
> Agreed, we need to update the doc file to reflect this.
> 
> > In that case you might consider using a red-black tree for storing the
> > "available" OPPs, so that you can add-remove them dynamically, but
> > you can avoid a linear search through the entire list every time you need to
> > find and available OPP.  Since we have standard helpers for handling rbtrees,
> > that shouldn't be a big deal.
> 
> That's a possibility, but do you think rbtrees are worth it for a
> relatively small number of OPPs for any given device?  We're using this
> to track a list of OPPs for any struct device, so there may be multiple
> independent OPP lists, but each would have a small number of OPPs.
> 
> For example, on OMAP, while the CPU might have a larger number of OPPs
> (5-6), most devices will have a small number of OPPs (1-3.)  I gather
> this is similar for many of the embedded SoCs available today.
> 
> Considering such a small number of OPPs, is the extra complexity of an
> rbtree worth it?

OK, probably not.  If there's so few of them, I agree that using lists is
probably better, but please put the numbers information into the doc too. :-)

Thanks,
Rafael



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