I did gathered aggregate statistics reported by “-stats” over the ~400 test
files.
The following table summarizes the impact. The first column is the
sum where the new analysis is enabled, the second column is the
delta from baseline where no CFL alias analysis is performed. I am not
experienced enough to know which of these are “good” or “bad” indicators.
—david
72,250 685 SLP # vector instructions generated
1,256,401 566 adce # instructions removed
67,020,774 13,835,126 basicaa # times a GEP is decomposed
11,154 26 basicaa # times the limit to decompose GEPs is
reached
153,613 324 bdce # instructions removed (unused)
198,495 2 bdce # instructions trivialized (dead bits)
298,621 0 cfl-od-aa Maximum compressed graph
58,462,719 0 cfl-od-aa Number Search Steps
48,401 0 cfl-od-aa # NoAlias results absed on address roots
61,936 0 cfl-od-aa # NoAlias results on compressed search path
3,768,131 0 cfl-od-aa # NoAlias results on fast path
47,016,909 0 cfl-od-aa # calls to query()
43,172,261 0 cfl-od-aa # instructions analyzed
10,515,257 0 cfl-od-aa # times there was no graph node for a value
9,895,755 0 cfl-od-aa Total size of compressed graphs (edges)
2,797 2 correlated-value-propagation # comparisons propagated
66,515 -126 correlated-value-propagation # phis propagated
912 3 correlated-value-propagation # sdiv converted to udiv
13,527 501 dse # other instrs removed
40,973 416 dse # stores deleted
126 -2 early-cse # compare instructions CVP'd
1,824,703 -138 early-cse # instructions CSE'd
1,875,417 87 early-cse # instructions simplified or DCE'd
62,505 1 functionattrs # arguments marked nocapture
29,979 1 functionattrs # arguments marked readonly
42,648 37 globaldce # functions removed
40,498 10 globaldce # global variables removed
4,368 35 gvn # blocks merged
21,961 26 gvn # equalities propagated
29,434 45 gvn # instructions PRE'd
631,597 3,307 gvn # instructions deleted
217,618 494 gvn # instructions simplified
51,089 634 gvn # loads PRE'd
135,568 1,526 gvn # loads deleted
2,197 4 indvars # IV comparisons eliminated
826 8 indvars # congruent IVs eliminated
2,538 4 indvars # exit values replaced
1,856 1 indvars # loop exit tests replaced
5,740,738 8 inline # caller-callers analyzed
1,629,169 3 inline # functions deleted because all callers
found
3,563,497 2 inline # functions inlined
10,879,125 86 inline-cost # call sites analyzed
34,766 5 instcombine # constant folds
3,979,078 2,004 instcombine # dead inst eliminated
6,323 2 instcombine # dead stores eliminated
1,522 4 instcombine # factorizations
254,146 66 instcombine # instructions sunk
10,427,131 1,749 instcombine # insts combined
57,943 -205 instcombine # reassociations
1,072 1 instsimplify # expansions
135,129 1 instsimplify # reassociations
121,777 246 instsimplify # redundant instructions removed
27,612 -12 jump-threading # branch blocks duplicated to eliminate
phi
76,000 197 jump-threading # jumps threaded
4,991 8 jump-threading # terminators folded
869,838 1,370 lcssa # live out of a loop variables
345,329 433 licm # instructions hoisted out of loop
702 -27 licm # instructions sunk out of loop
19,520 192 licm # load insts hoisted or sunk
202 37 licm # memory locations promoted to registers
467,244 246 local # unreachable basic blocks removed
1,586 34 loop-delete # loops deleted
84 27 loop-idiom # memcpy's formed from loop load+stores
752 7 loop-idiom # memset's formed from loop stores
63,364 -8 loop-rotate # loops rotated
4,602 1 loop-simplify # nested loops split out
1,244,741 472 loop-simplify # pre-header or exit blocks inserted
2,847 2 loop-unroll # loops completely unrolled
9,668 -29 loop-unroll # loops unrolled (completely or otherwise)
5,799 -35 loop-unroll # loops unrolled with run-time trip counts
3,863 25 loop-unswitch # branches unswitched
1,054,060 1,482 loop-unswitch Total number of instructions analyzed
109,279 -3 loop-vectorize # loops analyzed for vectorization
526,766 -136 mem2reg # PHI nodes inserted
4,150,078 -3 mem2reg # alloca's promoted with a single store
4,567 6 memcpyopt # memcpy instructions deleted
96 1 memcpyopt # memcpys converted to memset
1,074 173 memcpyopt # memmoves converted to memcpy
39,584 6 memcpyopt # memsets inferred
179,629 2,475 memdep # block queries that were completely cached
1,020 -3 memdep # cached, but dirty, non-local ptr
responses
9,108,504 146,792 memdep # fully cached non-local ptr responses
11,678,674 92,225 memdep # uncached non-local ptr responses
399,802 1,832 memory-builtins # arguments with unsolved size and
offset
10,844 -24,169 memory-builtins # load instructions with unsolved size
and offset
188,181 54 reassociate # insts reassociated
87,009 -82 scalar-evolution # loops with predictable loop counts
402,724 71 scalar-evolution # loops without predictable loop counts
133,310 72 sccp # basic blocks unreachable
275,949 263 sccp # instructions removed
2,056,414 723 simplifycfg # blocks simplified
5,292 -36 simplifycfg # common instructions sunk down to the end
block
15,110 1 simplifycfg # speculative executed instructions
43,068 -2 sroa Maximum number of uses of a partition
11,754,901 -180 sroa # alloca partition uses rewritten
4,623,115 -11 sroa # alloca partitions formed
5,927,727 -11 sroa # allocas analyzed for replacement
4,576,406 -5 sroa # allocas promoted to SSA values
13,770,636 -227 sroa # instructions deleted
3,797 -1 strip-dead-prototypes # dead prototypes removed
From: Daniel Berlin <dberlin at dberlin.org<mailto:dberlin at
dberlin.org>>
Date: Thursday, August 25, 2016 at 9:06 AM
To: David Callahan <dcallahan at fb.com<mailto:dcallahan at fb.com>>
Cc: George Burgess IV <george.burgess.iv at
gmail.com<mailto:george.burgess.iv at gmail.com>>, LLVM Dev Mailing
list <llvm-dev at lists.llvm.org<mailto:llvm-dev at lists.llvm.org>>
Subject: Re: [llvm-dev] CFLAA
Hey David,
I'll take a look at the patch :)
Sounds like fun work.
As George says, improving AA significantly will almost always cause significant
performance regressions at first, in almost any compiler.
Compilers knobs, passes, usually get tuned for x amount of freedom, and if you
give them 10x, they start moving things too far, vectorizing too much, spilling,
etc.
This was definitely the case for GCC, where adding a precise interprocedural
field-sensitive analysis initially regressed performance by a few percent on
average.
I know it was also the case for XLC at IBM, etc.
Like anything else, just gotta figure out what passes are going nuts, and rework
them to have better heuristics/etc.
The end result is performance improvements, but the path takes a bit of time.
If you need a way to see whether your analysis has actually done an okay job in
the meantime, usually a good way to see if you are doing well or not is to see
how many loads/stores get eliminated or moved by various passes before and
after.
If the number is significantly higher, great.
If the number is significantly lower, something has likely gone wrong :)
On Thu, Aug 25, 2016 at 8:11 AM, David Callahan via llvm-dev <llvm-dev at
lists.llvm.org<mailto:llvm-dev at lists.llvm.org>> wrote:
(Adding “LLVM Dev”)
My variant is up as
https://reviews.llvm.org/D23876<https://urldefense.proofpoint.com/v2/url?u=https-3A__reviews.llvm.org_D23876&d=DQMFaQ&c=5VD0RTtNlTh3ycd41b3MUw&r=lFyiPUrFdOHdaobP7i4hoA&m=3IIr_u9iBJMmiJs5esz2CusHub4rwjMYvjBstOaOQTQ&s=w5NvhJ0O9-ynWwh32R64KxDnRJN4Mv9OxUgD44L1GSI&e=>
—david
From: George Burgess IV <george.burgess.iv at
gmail.com<mailto:george.burgess.iv at gmail.com>>
Date: Wednesday, August 24, 2016 at 3:17 PM
To: David Callahan <dcallahan at fb.com<mailto:dcallahan at fb.com>>
Subject: Re: CFLAA
Hi!
> I see there is on going work with alias analysis and it appears the prior
CFLAA has been abandoned.
There was quite a bit of refactoring done, yeah. The original CFLAA is now
called CFLSteens, and graph construction was moved to its own bit. We also have
CFLAnders, which is based more heavily on the paper by Zheng and Rugina (e.g. no
stratifiedsets magic).
> I have a variant of it where I reworked how compression was done to be less
conservative, reworked the interprocedural to do simulated but bounded inlining,
and added code to do on-demand testing of CFL paths on both compressed and full
graphs.
Awesome!
> Happy to share the patch with you if you are interested as well as some
data collected
Yes, please. Would you mind if I CC'ed llvm-dev on this thread (and a few
people specifically, who also might find this interesting)?
> However I was not able to see any performance improvements in the code. In
fact on a various benchmarks there were noticeable regressions in measured
performance of the generated code. Have you noticed any similar problems?
I know that a number of people people in the community expressed concerns about
how other passes will perform with better AA results (e.g. If LICM becomes more
aggressive, register pressure may increase, which may cause us to spill when we
haven't before, etc). So, such a problem isn't unthinkable. :)
On Wed, Aug 24, 2016 at 2:56 PM, David Callahan <dcallahan at
fb.com<mailto:dcallahan at fb.com>> wrote:
Hi Greg,
I see there is on going work with alias analysis and it appears the prior CFLAA
has been abandoned.
I have a variant of it where I reworked how compression was done to be less
conservative, reworked the interprocedural to do simulated but bounded inlining,
and added code to do on-demand testing of CFL paths on both compressed and full
graphs.
I reached a point where the ahead-of-time compression was linear but still very
accurate compared to on-demand path search and there were noticeable
improvements in the alias analysis results and impacted transformations. Happy
to share the patch with you if you are interested as well as some data
collected.
However I was not able to see any performance improvements in the code. In fact
on a various benchmarks there were noticeable regressions in measured
performance of the generated code. Have you noticed any similar problems?
--david
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