llvm dev - Aug 2016 - enabling interleaved access loop vectorization

Thanks Ayal!

On Wed, Aug 17, 2016 at 2:14 PM, Zaks, Ayal <ayal.zaks at intel.com>
wrote:
> Hi Michael,
>
>
>
> Don’t quite have a full reproducer for you yet. You’re welcome to try and
> see what’s happening in 32 bit mode when enabling  interleaving for the
> following, based on “https://en.wikipedia.org/wiki/YIQ#From_RGB_to_YIQ”:
>
>
>
> void rgb2yik (char * in, char * out, int N)
>
> {
>
>   int j;
>
>   for (j = 0; j < N; ++j) {
>
>     unsigned char r = *in++;
>
>     unsigned char g = *in++;
>
>     unsigned char b = *in++;
>
>     unsigned char y = 0.299*r + 0.587*g + 0.114*b;
>
>     signed char i = 0.596*r + -0.274*g + -0.321*b;
>
>     signed char q = 0.211*r + -0.523*g + 0.312*b;
>
>     *out++ = y;
>
>     *out++ = (unsigned char)i;
>
>     *out++ = (unsigned char)q;
>
>   }
>
> }
>
>
>
> but you’d currently need to force it to vectorize to overcome its expected
> cost.
>
>
>
> Ayal.
>
>
>
> *From:* Michael Kuperstein [mailto:mkuper at google.com]
> *Sent:* Wednesday, August 17, 2016 00:51
> *To:* Zaks, Ayal <ayal.zaks at intel.com>; Demikhovsky, Elena <
> elena.demikhovsky at intel.com>
> *Cc:* Renato Golin <renato.golin at linaro.org>; Matthew Simpson <
> mssimpso at codeaurora.org>; Nema, Ashutosh <Ashutosh.Nema at
amd.com>; Sanjay
> Patel <spatel at rotateright.com>; llvm-dev <llvm-dev at
lists.llvm.org>
>
> *Subject:* Re: [llvm-dev] enabling interleaved access loop vectorization
>
>
>
> Hi Ayal, Elena,
>
>
>
> I'd really like to enable this by default.
>
>
>
> As I wrote above, I didn't see any regressions in internal benchmarks,
and
> there doesn't seem to be anything in SPEC2006 either. I do see a
> performance improvement in an internal benchmark (that is, a real
> workload).
>
>
>
> Would you be able to provide an example that gets pessimized? I have no
> doubt you've seen regressions related to this, but the fact they exist
> doesn't help me analyze them as long as I can't see them. :-)
I'd really
> rather look at regressions before making the change - and either try to
> make the necessary improvements to the cost model, or abandon this as
> unfeasible for now (pending Ashutosh's work).
>
>
>
> If you can't, an alternative is to turn this on, and then, if
regressions
> show up on anyone's radar (where we can actually get a reproducer),
turn it
> off again and go back to analysis. But I'd strongly prefer to
"prefetch"
> the problem.
>
>
>
> Thanks,
>
>   Michael
>
>
>
>
>
>
>
>
>
> On Wed, Aug 10, 2016 at 4:32 PM, Michael Kuperstein <mkuper at
google.com>
> wrote:
>
> So, unfortunately, it turns out I don't have access to DENBench.
>
>
>
> Do you happen to have a reduced example that gets pessimized by this?
>
>
>
> On Tue, Aug 9, 2016 at 11:25 AM, Michael Kuperstein <mkuper at
google.com>
> wrote:
>
> Thanks Ayal!
>
>
>
> I'll take a look at DENBench.
>
>
>
> As another data point - I tried enabling this on our internal benchmarks.
> I'm seeing one regression, and it seems to be a regression of the
"good"
> kind - without interleaving we don't vectorize the innermost loop, and
with
> interleaving we do. The vectorized loop is actually significantly faster
> when benchmarked in isolation, but in this specific instance, the static
> loop count is unknown, and the dynamic loop count happens to almost always
> be 1 - and this lives inside a hot outer loop.
>
> That's something we ought to be handling through PGO (or, conceivably,
> outer loop vectorization :-) ).
>
>
>
> Michael
>
>
>
> On Mon, Aug 8, 2016 at 3:21 PM, Zaks, Ayal <ayal.zaks at intel.com>
wrote:
>
> > We also need to understand what to do with edge elements in the vector
> if their loading is not required. We, probably, should issue a masked load
> in this case.
>
>
>
> The existing code solves such edge cases where the last element of an
> InterleaveGroup is absent by making sure the last iteration (and up to last
> VF iterations) are peeled and executed scalarly; see
requiresScalarEpilogue.
>
>
>
>
>
> > All regressions that we see are in 32-bit mode.
>
>
>
> One place to find them, using the default
BaseT::getInterleavedMemoryOpCost(),
> is DENBench’s RGB conversions.
>
>
>
> Ayal.
>
>
>
> *From:* Demikhovsky, Elena
> *Sent:* Monday, August 08, 2016 00:09
> *To:* Michael Kuperstein <mkuper at google.com>; Renato Golin <
> renato.golin at linaro.org>
> *Cc:* Matthew Simpson <mssimpso at codeaurora.org>; Nema, Ashutosh
<
> Ashutosh.Nema at amd.com>; Sanjay Patel <spatel at
rotateright.com>; llvm-dev <
> llvm-dev at lists.llvm.org>; Zaks, Ayal <ayal.zaks at intel.com>
> *Subject:* RE: [llvm-dev] enabling interleaved access loop vectorization
>
>
>
> We checked the gathered data again. All regressions that we see are in
> 32-bit mode. The 64-bit mode looks good overall.
>
>
>
> -          * Elena*
>
>
>
> *From:* Michael Kuperstein [mailto:mkuper at google.com <mkuper at
google.com>]
> *Sent:* Saturday, August 06, 2016 02:56
> *To:* Renato Golin <renato.golin at linaro.org>
> *Cc:* Demikhovsky, Elena <elena.demikhovsky at intel.com>; Matthew
Simpson <
> mssimpso at codeaurora.org>; Nema, Ashutosh <Ashutosh.Nema at
amd.com>; Sanjay
> Patel <spatel at rotateright.com>; llvm-dev <llvm-dev at
lists.llvm.org>; Zaks,
> Ayal <ayal.zaks at intel.com>
> *Subject:* Re: [llvm-dev] enabling interleaved access loop vectorization
>
>
>
>
>
>
>
> On Fri, Aug 5, 2016 at 4:37 PM, Renato Golin <renato.golin at
linaro.org>
> wrote:
>
> On 6 August 2016 at 00:18, Michael Kuperstein <mkuper at google.com>
wrote:
> > I agree that we can get *more* improvement with better cost modeling,
but
> > I'd expect to be able to get *some* improvement the way things are
right
> > now.
>
> Elena said she saw "some" improvements. :)
>
>
>
> I didn't mean "some improvements, some regressions", I meant
"some of the
> improvement we'd expect from the full solution". :-)
>
>
>
>
> > That's why I'm curious about where we saw regressions -
I'm wondering
> > whether there's really a significant cost modeling issue I'm
missing, or
> > it's something that's easy to fix so that we can make forward
progress,
> > while Ashutosh is working on the longer-term solution.
>
> Sounds like a task to try a few patterns and fiddle with the cost model.
>
> Arnold did a lot of those during the first months of the vectorizer,
> so it might be just a matter of finding the right heuristics, at least
> for the low hanging fruits.
>
> Of course, that'd also involve benchmarking everything else, to make
> sure the new heuristics doesn't introduce regressions on
> non-interleaved vectorisation.
>
>
>
> I don't disagree with you.
>
>
>
> All I'm saying is that before fiddling with the heuristics, it'd be
good
> to understand what exactly breaks if we simply flip the flag. If the answer
> happens to be "nothing" - well, problem solved. Unfortunately,
according to
> Elena, that's not the answer.
>
> I'm going to play with it with our internal benchmarks, but it's my
> understanding that Elena/Ayal already have some idea of what the problems
> are.
>
>
>
> ---------------------------------------------------------------------
> Intel Israel (74) Limited
>
> This e-mail and any attachments may contain confidential material for
> the sole use of the intended recipient(s). Any review or distribution
> by others is strictly prohibited. If you are not the intended
> recipient, please contact the sender and delete all copies.
>
>
>
>
>
>
>
> ---------------------------------------------------------------------
> Intel Israel (74) Limited
>
> This e-mail and any attachments may contain confidential material for
> the sole use of the intended recipient(s). Any review or distribution
> by others is strictly prohibited. If you are not the intended
> recipient, please contact the sender and delete all copies.
>
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So, at least for this example, it looks like we actually want to vectorize
with -enable-interleaved-mem-accesses, we just need the backend to generate
good code for the vector types that produces, specifically, in this case,
<12 x i8>. The details are in PR29025.

The upshot of this is that for the original program (with an outer loop
around it):

$ bin/clang -m32 -O2 -o ~/llvm/temp/rgb2yik.exe ~/llvm/temp/rgb2yik.c -mavx
&& time ~/llvm/temp/rgb2yik.exe
real 0m2.229s
user 0m2.224s
$ bin/clang -m32 -O2 -o ~/llvm/temp/rgb2yik.exe ~/llvm/temp/rgb2yik.c -mavx
-mllvm -enable-interleaved-mem-accesses && time ~/llvm/temp/rgb2yik.exe
real 0m2.590s
user 0m2.584s

This indicates that we do have a slight cost modeling issue - the cost
model is not quite conservative enough in case we really do use inserts and
extracts. One thing we're probably not accounting for is a bunch of GPR
spills  - although I'm not sure *why* we end up spilling so much. So
perhaps this should also be fixed in regalloc.

But if we modify the program by adding "*out++ = 0" right after
"*out++ q;" (thus eliminating the pesky <12 x i8>), we get:

$ bin/clang -m32 -O2 -o ~/llvm/temp/rgb2yik.exe ~/llvm/temp/rgb2yik.c -mavx
&& time ~/llvm/temp/rgb2yik.exe
real 0m2.257s
user 0m2.256s
$ bin/clang -m32 -O2 -o ~/llvm/temp/rgb2yik.exe ~/llvm/temp/rgb2yik.c -mavx
-mllvm -enable-interleaved-mem-accesses && time ~/llvm/temp/rgb2yik.exe
real 0m0.958s
user 0m0.956s

On Wed, Aug 17, 2016 at 2:56 PM, Michael Kuperstein <mkuper at google.com>
wrote:
> Thanks Ayal!
>
> On Wed, Aug 17, 2016 at 2:14 PM, Zaks, Ayal <ayal.zaks at intel.com>
wrote:
>
>> Hi Michael,
>>
>>
>>
>> Don’t quite have a full reproducer for you yet. You’re welcome to try
and
>> see what’s happening in 32 bit mode when enabling  interleaving for the
>> following, based on
“https://en.wikipedia.org/wiki/YIQ#From_RGB_to_YIQ”:
>>
>>
>>
>> void rgb2yik (char * in, char * out, int N)
>>
>> {
>>
>>   int j;
>>
>>   for (j = 0; j < N; ++j) {
>>
>>     unsigned char r = *in++;
>>
>>     unsigned char g = *in++;
>>
>>     unsigned char b = *in++;
>>
>>     unsigned char y = 0.299*r + 0.587*g + 0.114*b;
>>
>>     signed char i = 0.596*r + -0.274*g + -0.321*b;
>>
>>     signed char q = 0.211*r + -0.523*g + 0.312*b;
>>
>>     *out++ = y;
>>
>>     *out++ = (unsigned char)i;
>>
>>     *out++ = (unsigned char)q;
>>
>>   }
>>
>> }
>>
>>
>>
>> but you’d currently need to force it to vectorize to overcome its
>> expected cost.
>>
>>
>>
>> Ayal.
>>
>>
>>
>> *From:* Michael Kuperstein [mailto:mkuper at google.com]
>> *Sent:* Wednesday, August 17, 2016 00:51
>> *To:* Zaks, Ayal <ayal.zaks at intel.com>; Demikhovsky, Elena
<
>> elena.demikhovsky at intel.com>
>> *Cc:* Renato Golin <renato.golin at linaro.org>; Matthew Simpson
<
>> mssimpso at codeaurora.org>; Nema, Ashutosh <Ashutosh.Nema at
amd.com>; Sanjay
>> Patel <spatel at rotateright.com>; llvm-dev <llvm-dev at
lists.llvm.org>
>>
>> *Subject:* Re: [llvm-dev] enabling interleaved access loop
vectorization
>>
>>
>>
>> Hi Ayal, Elena,
>>
>>
>>
>> I'd really like to enable this by default.
>>
>>
>>
>> As I wrote above, I didn't see any regressions in internal
benchmarks,
>> and there doesn't seem to be anything in SPEC2006 either. I do see
a
>> performance improvement in an internal benchmark (that is, a real
>> workload).
>>
>>
>>
>> Would you be able to provide an example that gets pessimized? I have no
>> doubt you've seen regressions related to this, but the fact they
exist
>> doesn't help me analyze them as long as I can't see them. :-)
I'd really
>> rather look at regressions before making the change - and either try to
>> make the necessary improvements to the cost model, or abandon this as
>> unfeasible for now (pending Ashutosh's work).
>>
>>
>>
>> If you can't, an alternative is to turn this on, and then, if
regressions
>> show up on anyone's radar (where we can actually get a reproducer),
turn it
>> off again and go back to analysis. But I'd strongly prefer to
"prefetch"
>> the problem.
>>
>>
>>
>> Thanks,
>>
>>   Michael
>>
>>
>>
>>
>>
>>
>>
>>
>>
>> On Wed, Aug 10, 2016 at 4:32 PM, Michael Kuperstein <mkuper at
google.com>
>> wrote:
>>
>> So, unfortunately, it turns out I don't have access to DENBench.
>>
>>
>>
>> Do you happen to have a reduced example that gets pessimized by this?
>>
>>
>>
>> On Tue, Aug 9, 2016 at 11:25 AM, Michael Kuperstein <mkuper at
google.com>
>> wrote:
>>
>> Thanks Ayal!
>>
>>
>>
>> I'll take a look at DENBench.
>>
>>
>>
>> As another data point - I tried enabling this on our internal
benchmarks.
>> I'm seeing one regression, and it seems to be a regression of the
"good"
>> kind - without interleaving we don't vectorize the innermost loop,
and with
>> interleaving we do. The vectorized loop is actually significantly
faster
>> when benchmarked in isolation, but in this specific instance, the
static
>> loop count is unknown, and the dynamic loop count happens to almost
always
>> be 1 - and this lives inside a hot outer loop.
>>
>> That's something we ought to be handling through PGO (or,
conceivably,
>> outer loop vectorization :-) ).
>>
>>
>>
>> Michael
>>
>>
>>
>> On Mon, Aug 8, 2016 at 3:21 PM, Zaks, Ayal <ayal.zaks at
intel.com> wrote:
>>
>> > We also need to understand what to do with edge elements in the
vector
>> if their loading is not required. We, probably, should issue a masked
load
>> in this case.
>>
>>
>>
>> The existing code solves such edge cases where the last element of an
>> InterleaveGroup is absent by making sure the last iteration (and up to
last
>> VF iterations) are peeled and executed scalarly; see
requiresScalarEpilogue.
>>
>>
>>
>>
>>
>> > All regressions that we see are in 32-bit mode.
>>
>>
>>
>> One place to find them, using the default
BaseT::getInterleavedMemoryOpCost(),
>> is DENBench’s RGB conversions.
>>
>>
>>
>> Ayal.
>>
>>
>>
>> *From:* Demikhovsky, Elena
>> *Sent:* Monday, August 08, 2016 00:09
>> *To:* Michael Kuperstein <mkuper at google.com>; Renato Golin
<
>> renato.golin at linaro.org>
>> *Cc:* Matthew Simpson <mssimpso at codeaurora.org>; Nema,
Ashutosh <
>> Ashutosh.Nema at amd.com>; Sanjay Patel <spatel at
rotateright.com>; llvm-dev <
>> llvm-dev at lists.llvm.org>; Zaks, Ayal <ayal.zaks at
intel.com>
>> *Subject:* RE: [llvm-dev] enabling interleaved access loop
vectorization
>>
>>
>>
>> We checked the gathered data again. All regressions that we see are in
>> 32-bit mode. The 64-bit mode looks good overall.
>>
>>
>>
>> -          * Elena*
>>
>>
>>
>> *From:* Michael Kuperstein [mailto:mkuper at google.com <mkuper at
google.com>]
>>
>> *Sent:* Saturday, August 06, 2016 02:56
>> *To:* Renato Golin <renato.golin at linaro.org>
>> *Cc:* Demikhovsky, Elena <elena.demikhovsky at intel.com>;
Matthew Simpson <
>> mssimpso at codeaurora.org>; Nema, Ashutosh <Ashutosh.Nema at
amd.com>; Sanjay
>> Patel <spatel at rotateright.com>; llvm-dev <llvm-dev at
lists.llvm.org>;
>> Zaks, Ayal <ayal.zaks at intel.com>
>> *Subject:* Re: [llvm-dev] enabling interleaved access loop
vectorization
>>
>>
>>
>>
>>
>>
>>
>> On Fri, Aug 5, 2016 at 4:37 PM, Renato Golin <renato.golin at
linaro.org>
>> wrote:
>>
>> On 6 August 2016 at 00:18, Michael Kuperstein <mkuper at
google.com> wrote:
>> > I agree that we can get *more* improvement with better cost
modeling,
>> but
>> > I'd expect to be able to get *some* improvement the way things
are right
>> > now.
>>
>> Elena said she saw "some" improvements. :)
>>
>>
>>
>> I didn't mean "some improvements, some regressions", I
meant "some of the
>> improvement we'd expect from the full solution". :-)
>>
>>
>>
>>
>> > That's why I'm curious about where we saw regressions -
I'm wondering
>> > whether there's really a significant cost modeling issue
I'm missing, or
>> > it's something that's easy to fix so that we can make
forward progress,
>> > while Ashutosh is working on the longer-term solution.
>>
>> Sounds like a task to try a few patterns and fiddle with the cost
model.
>>
>> Arnold did a lot of those during the first months of the vectorizer,
>> so it might be just a matter of finding the right heuristics, at least
>> for the low hanging fruits.
>>
>> Of course, that'd also involve benchmarking everything else, to
make
>> sure the new heuristics doesn't introduce regressions on
>> non-interleaved vectorisation.
>>
>>
>>
>> I don't disagree with you.
>>
>>
>>
>> All I'm saying is that before fiddling with the heuristics,
it'd be good
>> to understand what exactly breaks if we simply flip the flag. If the
answer
>> happens to be "nothing" - well, problem solved.
Unfortunately, according to
>> Elena, that's not the answer.
>>
>> I'm going to play with it with our internal benchmarks, but
it's my
>> understanding that Elena/Ayal already have some idea of what the
problems
>> are.
>>
>>
>>
>> ---------------------------------------------------------------------
>> Intel Israel (74) Limited
>>
>> This e-mail and any attachments may contain confidential material for
>> the sole use of the intended recipient(s). Any review or distribution
>> by others is strictly prohibited. If you are not the intended
>> recipient, please contact the sender and delete all copies.
>>
>>
>>
>>
>>
>>
>>
>> ---------------------------------------------------------------------
>> Intel Israel (74) Limited
>>
>> This e-mail and any attachments may contain confidential material for
>> the sole use of the intended recipient(s). Any review or distribution
>> by others is strictly prohibited. If you are not the intended
>> recipient, please contact the sender and delete all copies.
>>
>
>
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So turns out it is a full reproducer after all (choosing to vectorize on AVX),
good.

> The details are in PR29025.
Interesting. (So we should carefully insert unconditional branches inside
shuffle sequences, eh? ;-)

> But if we modify the program by adding "*out++ = 0" right after
"*out++ = q;" (thus eliminating the pesky <12 x i8>), we get:
Indeed such padding is a known (programmer) optimization to effectively have
power-of-2 strides and/or alignment.

> So, unfortunately, it turns out I don't have access to DENBench.
If you like we could test your patch to see how it (mis)behaves.



From: Michael Kuperstein [mailto:mkuper at google.com]
Sent: Thursday, August 18, 2016 03:57
To: Zaks, Ayal <ayal.zaks at intel.com>
Cc: Demikhovsky, Elena <elena.demikhovsky at intel.com>; Renato Golin
<renato.golin at linaro.org>; Matthew Simpson <mssimpso at
codeaurora.org>; Nema, Ashutosh <Ashutosh.Nema at amd.com>; Sanjay
Patel <spatel at rotateright.com>; llvm-dev <llvm-dev at
lists.llvm.org>
Subject: Re: [llvm-dev] enabling interleaved access loop vectorization

So, at least for this example, it looks like we actually want to vectorize with
-enable-interleaved-mem-accesses, we just need the backend to generate good code
for the vector types that produces, specifically, in this case, <12 x i8>.
The details are in PR29025.

The upshot of this is that for the original program (with an outer loop around
it):

$ bin/clang -m32 -O2 -o ~/llvm/temp/rgb2yik.exe ~/llvm/temp/rgb2yik.c -mavx
&& time ~/llvm/temp/rgb2yik.exe
real      0m2.229s
user      0m2.224s
$ bin/clang -m32 -O2 -o ~/llvm/temp/rgb2yik.exe ~/llvm/temp/rgb2yik.c -mavx
-mllvm -enable-interleaved-mem-accesses && time ~/llvm/temp/rgb2yik.exe
real      0m2.590s
user      0m2.584s

This indicates that we do have a slight cost modeling issue - the cost model is
not quite conservative enough in case we really do use inserts and extracts. One
thing we're probably not accounting for is a bunch of GPR spills  - although
I'm not sure *why* we end up spilling so much. So perhaps this should also
be fixed in regalloc.

But if we modify the program by adding "*out++ = 0" right after
"*out++ = q;" (thus eliminating the pesky <12 x i8>), we get:

$ bin/clang -m32 -O2 -o ~/llvm/temp/rgb2yik.exe ~/llvm/temp/rgb2yik.c -mavx
&& time ~/llvm/temp/rgb2yik.exe
real      0m2.257s
user      0m2.256s
$ bin/clang -m32 -O2 -o ~/llvm/temp/rgb2yik.exe ~/llvm/temp/rgb2yik.c -mavx
-mllvm -enable-interleaved-mem-accesses && time ~/llvm/temp/rgb2yik.exe
real      0m0.958s
user      0m0.956s

On Wed, Aug 17, 2016 at 2:56 PM, Michael Kuperstein <mkuper at
google.com<mailto:mkuper at google.com>> wrote:
Thanks Ayal!

On Wed, Aug 17, 2016 at 2:14 PM, Zaks, Ayal <ayal.zaks at
intel.com<mailto:ayal.zaks at intel.com>> wrote:
Hi Michael,

Don’t quite have a full reproducer for you yet. You’re welcome to try and see
what’s happening in 32 bit mode when enabling  interleaving for the following,
based on “https://en.wikipedia.org/wiki/YIQ#From_RGB_to_YIQ”:

void rgb2yik (char * in, char * out, int N)
{
  int j;
  for (j = 0; j < N; ++j) {
    unsigned char r = *in++;
    unsigned char g = *in++;
    unsigned char b = *in++;
    unsigned char y = 0.299*r + 0.587*g + 0.114*b;
    signed char i = 0.596*r + -0.274*g + -0.321*b;
    signed char q = 0.211*r + -0.523*g + 0.312*b;
    *out++ = y;
    *out++ = (unsigned char)i;
    *out++ = (unsigned char)q;
  }
}

but you’d currently need to force it to vectorize to overcome its expected cost.

Ayal.

From: Michael Kuperstein [mailto:mkuper at google.com<mailto:mkuper at
google.com>]
Sent: Wednesday, August 17, 2016 00:51
To: Zaks, Ayal <ayal.zaks at intel.com<mailto:ayal.zaks at
intel.com>>; Demikhovsky, Elena <elena.demikhovsky at
intel.com<mailto:elena.demikhovsky at intel.com>>
Cc: Renato Golin <renato.golin at linaro.org<mailto:renato.golin at
linaro.org>>; Matthew Simpson <mssimpso at
codeaurora.org<mailto:mssimpso at codeaurora.org>>; Nema, Ashutosh
<Ashutosh.Nema at amd.com<mailto:Ashutosh.Nema at amd.com>>; Sanjay
Patel <spatel at rotateright.com<mailto:spatel at rotateright.com>>;
llvm-dev <llvm-dev at lists.llvm.org<mailto:llvm-dev at
lists.llvm.org>>

Subject: Re: [llvm-dev] enabling interleaved access loop vectorization

Hi Ayal, Elena,

I'd really like to enable this by default.

As I wrote above, I didn't see any regressions in internal benchmarks, and
there doesn't seem to be anything in SPEC2006 either. I do see a performance
improvement in an internal benchmark (that is, a real workload).

Would you be able to provide an example that gets pessimized? I have no doubt
you've seen regressions related to this, but the fact they exist doesn't
help me analyze them as long as I can't see them. :-) I'd really rather
look at regressions before making the change - and either try to make the
necessary improvements to the cost model, or abandon this as unfeasible for now
(pending Ashutosh's work).

If you can't, an alternative is to turn this on, and then, if regressions
show up on anyone's radar (where we can actually get a reproducer), turn it
off again and go back to analysis. But I'd strongly prefer to
"prefetch" the problem.

Thanks,
  Michael




On Wed, Aug 10, 2016 at 4:32 PM, Michael Kuperstein <mkuper at
google.com<mailto:mkuper at google.com>> wrote:
So, unfortunately, it turns out I don't have access to DENBench.

Do you happen to have a reduced example that gets pessimized by this?

On Tue, Aug 9, 2016 at 11:25 AM, Michael Kuperstein <mkuper at
google.com<mailto:mkuper at google.com>> wrote:
Thanks Ayal!

I'll take a look at DENBench.

As another data point - I tried enabling this on our internal benchmarks.
I'm seeing one regression, and it seems to be a regression of the
"good" kind - without interleaving we don't vectorize the
innermost loop, and with interleaving we do. The vectorized loop is actually
significantly faster when benchmarked in isolation, but in this specific
instance, the static loop count is unknown, and the dynamic loop count happens
to almost always be 1 - and this lives inside a hot outer loop.
That's something we ought to be handling through PGO (or, conceivably, outer
loop vectorization :-) ).

Michael

On Mon, Aug 8, 2016 at 3:21 PM, Zaks, Ayal <ayal.zaks at
intel.com<mailto:ayal.zaks at intel.com>>
wrote:
> We also need to understand what to do with edge elements in the vector if
their loading is not required. We, probably, should issue a masked load in this
case.
The existing code solves such edge cases where the last element of an
InterleaveGroup is absent by making sure the last iteration (and up to last VF
iterations) are peeled and executed scalarly; see requiresScalarEpilogue.

> All regressions that we see are in 32-bit mode.
One place to find them, using the default BaseT::getInterleavedMemoryOpCost(),
is DENBench’s RGB conversions.

Ayal.

From: Demikhovsky, Elena
Sent: Monday, August 08, 2016 00:09
To: Michael Kuperstein <mkuper at google.com<mailto:mkuper at
google.com>>; Renato Golin <renato.golin at
linaro.org<mailto:renato.golin at linaro.org>>
Cc: Matthew Simpson <mssimpso at codeaurora.org<mailto:mssimpso at
codeaurora.org>>; Nema, Ashutosh <Ashutosh.Nema at
amd.com<mailto:Ashutosh.Nema at amd.com>>; Sanjay Patel <spatel at
rotateright.com<mailto:spatel at rotateright.com>>; llvm-dev
<llvm-dev at lists.llvm.org<mailto:llvm-dev at lists.llvm.org>>;
Zaks, Ayal <ayal.zaks at intel.com<mailto:ayal.zaks at intel.com>>
Subject: RE: [llvm-dev] enabling interleaved access loop vectorization

We checked the gathered data again. All regressions that we see are in 32-bit
mode. The 64-bit mode looks good overall.

-           Elena

From: Michael Kuperstein [mailto:mkuper at google.com]
Sent: Saturday, August 06, 2016 02:56
To: Renato Golin <renato.golin at linaro.org<mailto:renato.golin at
linaro.org>>
Cc: Demikhovsky, Elena <elena.demikhovsky at
intel.com<mailto:elena.demikhovsky at intel.com>>; Matthew Simpson
<mssimpso at codeaurora.org<mailto:mssimpso at codeaurora.org>>;
Nema, Ashutosh <Ashutosh.Nema at amd.com<mailto:Ashutosh.Nema at
amd.com>>; Sanjay Patel <spatel at rotateright.com<mailto:spatel at
rotateright.com>>; llvm-dev <llvm-dev at
lists.llvm.org<mailto:llvm-dev at lists.llvm.org>>; Zaks, Ayal
<ayal.zaks at intel.com<mailto:ayal.zaks at intel.com>>
Subject: Re: [llvm-dev] enabling interleaved access loop vectorization



On Fri, Aug 5, 2016 at 4:37 PM, Renato Golin <renato.golin at
linaro.org<mailto:renato.golin at linaro.org>> wrote:
On 6 August 2016 at 00:18, Michael Kuperstein <mkuper at
google.com<mailto:mkuper at google.com>> wrote:
> I agree that we can get *more* improvement with better cost modeling, but
> I'd expect to be able to get *some* improvement the way things are
right
> now.
Elena said she saw "some" improvements. :)

I didn't mean "some improvements, some regressions", I meant
"some of the improvement we'd expect from the full solution". :-)

> That's why I'm curious about where we saw regressions - I'm
wondering
> whether there's really a significant cost modeling issue I'm
missing, or
> it's something that's easy to fix so that we can make forward
progress,
> while Ashutosh is working on the longer-term solution.
Sounds like a task to try a few patterns and fiddle with the cost model.

Arnold did a lot of those during the first months of the vectorizer,
so it might be just a matter of finding the right heuristics, at least
for the low hanging fruits.

Of course, that'd also involve benchmarking everything else, to make
sure the new heuristics doesn't introduce regressions on
non-interleaved vectorisation.

I don't disagree with you.

All I'm saying is that before fiddling with the heuristics, it'd be good
to understand what exactly breaks if we simply flip the flag. If the answer
happens to be "nothing" - well, problem solved. Unfortunately,
according to Elena, that's not the answer.
I'm going to play with it with our internal benchmarks, but it's my
understanding that Elena/Ayal already have some idea of what the problems are.


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