[dpdk-dev] [PATCH] acl: If build does not support sse4.2, emulate missing instructions with C code

Ananyev, Konstantin konstantin.ananyev at intel.com
Wed Aug 6 14:26:13 CEST 2014



> -----Original Message-----
> From: Neil Horman [mailto:nhorman at tuxdriver.com]
> Sent: Wednesday, August 06, 2014 1:19 PM
> To: Ananyev, Konstantin
> Cc: dev at dpdk.org; Thomas Monjalon; Richardson, Bruce
> Subject: Re: [PATCH] acl: If build does not support sse4.2, emulate missing instructions with C code
> 
> On Wed, Aug 06, 2014 at 11:39:22AM +0000, Ananyev, Konstantin wrote:
> >
> >
> > > -----Original Message-----
> > > From: Neil Horman [mailto:nhorman at tuxdriver.com]
> > > Sent: Tuesday, August 05, 2014 7:21 PM
> > > To: Ananyev, Konstantin
> > > Cc: dev at dpdk.org; Thomas Monjalon; Richardson, Bruce
> > > Subject: Re: [PATCH] acl: If build does not support sse4.2, emulate missing instructions with C code
> > >
> > > On Tue, Aug 05, 2014 at 03:26:27PM +0000, Ananyev, Konstantin wrote:
> > > > Hi Neil,
> > > >
> > > > > From: Neil Horman [mailto:nhorman at tuxdriver.com]
> > > > > Sent: Monday, August 04, 2014 4:36 PM
> > > > > To: dev at dpdk.org
> > > > > Cc: Neil Horman; Thomas Monjalon; Ananyev, Konstantin; Richardson, Bruce
> > > > > Subject: [PATCH] acl: If build does not support sse4.2, emulate missing instructions with C code
> > > > >
> > > > > The ACL library makes extensive use of some SSE4.2 instructions, which means the
> > > > > default build can't compile this library.  Work around the problem by testing
> > > > > the __SSE42__ definition in the acl_vects.h file and defining the macros there
> > > > > as intrinsics or c-level equivalants.  Note this is a minimal patch, adjusting
> > > > > only the definitions that are currently used in the ACL library.
> > > > >
> > > >
> > > > My comments about actual implementations of c-level equivalents below.
> > > > None of them look correct to me.
> > > > Of course it could be fixed.
> > > > Though I am not sure that is a right way to proceed:
> > > > At first I really doubt that these equivalents will provide similar performance.
> > > > As you probably note - we do have a scalar version of  rte_acl_classify():  rte_acl_classify_scalar().
> > > > So I think it might be faster than vector one with 'emulated' instrincts.
> > > > Unfortunately it is all mixed right now into one file and 'scalar' version could use few sse4 instrincts through resolve_priority().
> > > > Another thing - we consider to add another version of rte_acl_classify() that will use avx2 instrincts.
> > > > If we go the way you suggest - I am afraid will soon have to provide scalar equivalents for several AVX2 instrincts too.
> > > > So in summary that way (providing our own scalar equivalents of SIMD instrincts) seems to me slow, hard to maintain and error
> > > prone.
> > > >
> > > > What porbably can be done instead: rework acl_run.c a bit, so it provide:
> > > > rte_acl_classify_scalar() - could be build and used on all systems.
> > > > rte_acl_classify_sse() - could be build and used only on systems with sse4.2 and upper, return ENOTSUP on lower arch.
> > > > In future: rte_acl_classify_avx2 - could be build and used only on systems with avx2 and upper, return ENOTSUP on lower arch.
> > > >
> > > > I am looking at rte_acl right now anyway.
> > > > So will try to come up with something workable.
> > > >
> > > So, this is exactly the opposite of what Bruce and I just spent several days and
> > > a huge email thread that you clearly are aware of discussing run time versus
> > > compile time selection of paths.  At this point I'm done ping ponging between
> > > your opposing viewpoints.  If you want to implement something that does run time
> > > checking, I'm fine with it, but I'm not going back and forth until you two come
> > > to an agreement on this.
> >
> > Right now, I am not talking about 'run time vs compile time selection'.
> But you are talking about exactly that, allbeit implicitly.  To implement what
> you recommend above (that being multiple functional paths that return a not
> supported error code at run time), we need to make run time tests for what the
> cpu supports.  While I'm actually ok with doing that (I think it makes alot of
> sense), Bruce and I just spent several days and dozens of emails debating that,
> so you can understand why I don't want to write yet another version of this
> patch that requires doing the exact thing we just argued about, especially if it
> means he's going to pipe back up and say no, driving me back to a common single
> implementation that compiles and runs for all platforms.  I'm not going to keep
> re-writing this boucing back and forth between your opposing viewpoints.  We
> need to agree on a direction before I make another pass at this.
> 
> > Whatever way we choose, I think the implementation need to be:
> > 1) correct
> Obviously.
> 
> > 2) allow easily add(/modify) code path optimised for particular architecture.
> > Without need to modify/re-test what you call  'least common denominator' code path.
> > And visa-versa, if someone find a way to optimise common code path - no need to
> > touch/retest architecture specific ones.
> So I'm fine with this, but it is anathema to what Bruce advocated for when I did
> this latest iteration.  Bruce advocated for a single common path that compiled
> in all cases.  Bruce, do you want to comment here?  I'd really like to get this
> settled before I go try this again.
> 
> Neil
> 

Ok, let me try to prepare a patch with what I suggested.
Hopefully it will make everyone reasonably happy.
Konstantin



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