Added a Generic x86 cpu set of resource tests to allow us to check all ISAs.
We currently use SandyBridge as our generic CPU model, but it's better if we actually duplicate these tests for if/when we change the model, it also means we don't end up polluting the SandyBridge folder with tests for ISAs it doesn't support.
llvm-svn: 334853
Summary:
While that is indeed a quite interesting summary stat,
there are cases where it does not really add anything
other than consuming extra lines.
Declutters the output of D48190.
Reviewers: RKSimon, andreadb, courbet, craig.topper
Reviewed By: andreadb
Subscribers: javed.absar, gbedwell, llvm-commits
Differential Revision: https://reviews.llvm.org/D48209
llvm-svn: 334833
Summary:
There does not seem to be any other tests for this.
Split off from D47676.
Reviewers: RKSimon, craig.topper, courbet, andreadb
Reviewed By: andreadb
Subscribers: javed.absar, gbedwell, llvm-commits
Differential Revision: https://reviews.llvm.org/D48190
llvm-svn: 334832
On x86-64, a write to register EAX implicitly clears the upper half or RAX.
128-bit AVX instructions clear the upper 128-bit of the YMM register that
aliases the XMM definition register.
llvm-mca doesn't know about register writes that implicitly clear the upper
portion of an aliasing super-register. This issue will be fixed in a future patch.
llvm-svn: 334742
This test checks that a physical register is correctly allocated for the partial
write to register BX.
The ADD instruction has to wait for the write to RBX (and BX) before being
executed.
llvm-svn: 334730
Fixes PR37790.
In some (very rare) cases, the LSUnit (Load/Store unit) was wrongly marking a
load (or store) as "ready to execute" effectively bypassing older memory barrier
instructions.
To reproduce this bug, the memory barrier must be the first instruction in the
input assembly sequence, and it doesn't have to perform any register writes.
llvm-svn: 334633
Summary:
This fixes most of the scheduling info for SKX vector operations.
I had to split a lot of the YMM/ZMM classes into separate classes for YMM and ZMM.
The before/after llvm-exegesis analysis are in the phabricator diff.
Subscribers: llvm-commits
Differential Revision: https://reviews.llvm.org/D47721
llvm-svn: 334407
As detailed on Agner's Microarchitecture doc (21.8 AMD Bobcat and Jaguar pipeline - Dependency-breaking instructions), these instructions are dependency breaking and fast-path zero the destination register (and appropriate EFLAGS bits).
llvm-svn: 334303
As detailed on Agner's Microarchitecture doc (21.8 AMD Bobcat and Jaguar pipeline - Dependency-breaking instructions), all these instructions are dependency breaking and zero the destination register.
llvm-svn: 334119
I noticed while working on zero-idiom + dependency-breaking support (PR36671) that most of our binary instruction tests were reusing the same src registers, which would cause the tests to fail once we enable scalar zero-idiom support on btver2. Fixed in all targets to keep them in sync.
llvm-svn: 334110
As detailed on Agner's Microarchitecture doc (21.8 AMD Bobcat and Jaguar pipeline - Dependency-breaking instructions), all these instructions are dependency breaking and zero the destination register.
TODO: Scalar instructions still need to be tested (need to check EFLAGS handling).
llvm-svn: 334104
This is a fix for the problem arising in D47374 (PR37678):
https://bugs.llvm.org/show_bug.cgi?id=37678
We may not have throughput info because it's not specified in the model
or it's not available with variant scheduling, so assume that those
instructions can execute/complete at max-issue-width.
Differential Revision: https://reviews.llvm.org/D47723
llvm-svn: 334055
This patch fixe the logic in ReadState::cycleEvent(). That method was not
correctly updating field `TotalCycles`.
Added extra code comments in class ReadState to better describe each field.
llvm-svn: 334028
This patch is the last of a sequence of three patches related to LLVM-dev RFC
"MC support for variant scheduling classes".
http://lists.llvm.org/pipermail/llvm-dev/2018-May/123181.html
This fixes PR36672.
The main goal of this patch is to teach llvm-mca how to solve variant scheduling
classes. This patch does that, plus it adds new variant scheduling classes to
the BtVer2 scheduling model to identify so-called zero-idioms (i.e. so-called
dependency breaking instructions that are known to generate zero, and that are
optimized out in hardware at register renaming stage).
Without the BtVer2 change, this patch would not have had any meaningful tests.
This patch is effectively the union of two changes:
1) a change that teaches llvm-mca how to resolve variant scheduling classes.
2) a change to the BtVer2 scheduling model that allows us to special-case
packed XOR zero-idioms (this partially fixes PR36671).
Differential Revision: https://reviews.llvm.org/D47374
llvm-svn: 333909
Summary:
It's super irritating.
[properly configured] git client then complains about that double-newline,
and you have to use `--force` to ignore the warning, since even if you
fix it manually, it will be reintroduced the very next runtime :/
Reviewers: RKSimon, andreadb, courbet, craig.topper, javed.absar, gbedwell
Reviewed By: gbedwell
Subscribers: javed.absar, tschuett, gbedwell, llvm-commits
Differential Revision: https://reviews.llvm.org/D47697
llvm-svn: 333887
Summary:
{FLDL2E, FLDL2T, FLDLG2, FLDLN2, FLDPI} were using WriteMicrocoded.
- I've measured the values for Broadwell, Haswell, SandyBridge, Skylake.
- For ZnVer1 and Atom, values were transferred form InstRWs.
- For SLM and BtVer2, I've guessed some values :(
Reviewers: RKSimon, craig.topper, andreadb
Subscribers: gbedwell, llvm-commits
Differential Revision: https://reviews.llvm.org/D47585
llvm-svn: 333656
Summary:
- I've measured the values for Broadwell, Haswell, SandyBridge, Skylake.
- For ZnVer1 and Atom, values were transferred form `InstRW`s.
- For SLM and BtVer2, values are from Agner.
This is split off from https://reviews.llvm.org/D47377
Reviewers: RKSimon, andreadb
Subscribers: gbedwell, llvm-commits
Differential Revision: https://reviews.llvm.org/D47523
llvm-svn: 333642
As confirmed by llvm-exegesis, there is no scheduler difference between MOVDQA/MOVDQU and VMOVDQA/VMOVDQU xmm reg-reg moves
Another chapter in the never ending crusade to remove useless InstRW overrides from the x86 scheduler models......
llvm-svn: 333271
Previously update_mca_test_checks worked entirely at "block" level where
a block is some sequence of lines delimited by at least one empty line.
This generally worked well, but could sometimes lead to excessive
repetition of check lines for various prefixes if some block was almost
identical between prefixes, but not quite (for example, due to a
different dispatch width in the otherwise identical summary views).
This new analyis attempts to split blocks further in the case where the
following conditions are met:
a) There is some prefix common to every RUN line (typically 'ALL').
b) The first line of the block is common to the output with every prefix.
c) The block has the same number of lines for the output with every prefix.
Also, regenerated all llvm-mca test files with the following command:
update_mca_test_checks.py "../test/tools/llvm-mca/*/*.s" "../test/tools/llvm-mca/*/*/*.s"
The new analysis showed a "multiple lines not disambiguated by prefixes" warning
for test "AArch64/Exynos/scheduler-queue-usage.s" so I've also added some
explicit prefixes to each of the RUN lines in that test.
Differential Revision: https://reviews.llvm.org/D47321
llvm-svn: 333204
This patch implements the "block reciprocal throughput" computation in the
SummaryView.
The block reciprocal throughput is computed as the MAX of:
- NumMicroOps / DispatchWidth
- Resource Cycles / #Units (for every resource consumed).
The block throughput is bounded from above by the hardware dispatch throughput.
That is because the DispatchWidth is an upper bound on how many opcodes can be part
of a single dispatch group.
The block throughput is also limited by the amount of hardware parallelism. The
number of available resource units affects how the resource pressure is
distributed, and also how many blocks can be delivered every cycle.
llvm-svn: 333095
BtVer2 - fix NumMicroOp and account for the Lat+6cy GPR->XMM and Lat+1cy XMm->GPR delays (see rL332737)
The high number of MOVD/MOVQ equivalent instructions meant that there were a number of missed patterns in SNB/Znver1:
SNB - add missing GPR<->MMX costs (taken from Agner / Intel AOM)
Znver1 - add missing GPR<->XMM MOVQ costs (taken from Agner)
llvm-svn: 332745
Retag some instructions that were missed when we split off vector load/store/moves - MOVQ/MOVD etc.
Fixes BtVer2/SLM which have different behaviours for GPR stores.
llvm-svn: 332718
Retag some instructions that were missed when we split off vector load/store/moves - MOVSS/MOVSD/MOVHPD/MOVHPD/MOVLPD/MOVLPS etc.
Fixes BtVer2/SLM which have different behaviours for GPR stores.
llvm-svn: 332714
BtVer2 - Fixes schedules for (V)CVTPS2PD instructions
A lot of the Intel models still have too many InstRW overrides for these new classes - this needs cleaning up but I wanted to get the classes in first
llvm-svn: 332376
Btver2 - VCVTPH2PSYrm needs to double pump the AGU
Broadwell - missing VCVTPS2PH*mr stores extra latency
Allows us to remove the WriteCvtF2FSt conversion store class
llvm-svn: 332357
Confirmed by both Agner and Intel's AOM - the IEC/FPC are not required for pure load/stores (even if its a partial update).
Can't fix WriteStore until all RMW instructions are cleaned up though....
llvm-svn: 332096
MOVNTPD/MOVNTPS should be WriteFStore
Standardized BDW/HSW/SKL/SKX WriteFStore/WriteVecStore - fixes some missed instregex patterns. (V)MASKMOVDQU was already using the default, its costs gets increased but is still nowhere near the real cost of that nasty instruction....
llvm-svn: 331864
This fixes a couple of BtVer2 missing instructions that weren't been handled in the override.
NOTE: There are still a lot of overrides that still need cleaning up!
llvm-svn: 331770
I've created the necessary classes but there are still a lot of overrides that need cleaning up.
NOTE: The Znver1 model was missing some div/idiv variants in the instregex patterns and wasn't setting the resource cycles at all in the overrides.
llvm-svn: 331767
Split to support single/double for scalar, XMM and YMM/ZMM instructions - removing InstrRW overrides for these instructions.
Fixes Atom ADDSUBPD instruction and reclassifies VFPCLASS as WriteFCmp which is closer in behaviour.
llvm-svn: 331672
These are more like cross-lane shuffles than regular shuffles - we already do this for AVX512 equivalents.
Differential Revision: https://reviews.llvm.org/D46229
llvm-svn: 331659
WriteFRcp/WriteFRsqrt are split to support scalar, XMM and YMM/ZMM instructions.
WriteFSqrt is split into single/double/long-double sizes and scalar, XMM, YMM and ZMM instructions.
This removes all InstrRW overrides for these instructions.
NOTE: There were a couple of typos in the Znver1 model - notably a 1cy throughput for SQRT that is highly unlikely and doesn't tally with Agner.
NOTE: I had to add Agner's numbers for several targets for WriteFSqrt80.
llvm-svn: 331629
Split off from SchedWriteFAdd for fp rounding/bit-manipulation instructions.
Fixes an issue on btver2 which only had the ymm version using the JSTC pipe instead of JFPA.
llvm-svn: 331515
This fixes PR37293.
We can have scheduling classes with no write latency entries, that still consume
processor resources. We don't want to treat those instructions as zero-latency
instructions; they still have to be issued to the underlying pipelines, so they
still consume resource cycles.
This is likely to be a regression which I have accidentally introduced at
revision 330807. Now, if an instruction has a non-empty set of write processor
resources, we conservatively treat it as a normal (i.e. non zero-latency)
instruction.
llvm-svn: 331193
I intend to add further instruction tests to the resources-x86_64.s test file as required, but this initial commit is to help remove a load of unnecessary InstRW overrides in a future patch
llvm-svn: 331108
The instruction printer used by llvm-mca to generate the performance report now
defaults the output assembly format to the format used for the input assembly
file.
On x86, the asm format can be either AT&T or Intel, depending on the
presence/absence of directive `.intel_syntax`.
Users can still specify a different assembly dialect with the command line flag
-output-asm-variant=<uint>.
llvm-svn: 330733
Split off pinsr/pextr and extractps instructions.
(Mostly) fixes PR36887.
Note: It might be worth adding a WriteFInsertLd class as well in the future.
Differential Revision: https://reviews.llvm.org/D45929
llvm-svn: 330714
The SandyBridge BMI tests are actually run on IvyBridge as that's the first lowest CPU that actually support the ISAs (but still use the SandyBridge model).
llvm-svn: 330556
I've copied and regenerated a resource file from btver2 to every x86 scheduler model supported by llvm-mca so we have at least some basic coverage.
For most this has been the avx1 tests, but for silvermont I've used sse42 as thats the latest it supports.
More will be added later.
llvm-svn: 330352
This script can be used to regenerate tests in the
test/tools/llvm-mca directory (PR36904).
Regenerated a number of tests using the pattern: test/tools/llvm-mca/*/*/*.s
Differential Revision: https://reviews.llvm.org/D45369
llvm-svn: 330246
Normally, the Scheduler prioritizes older instructions over younger instructions
during the instruction issue stage. In one particular case where a dependent
instruction had a schedule read-advance associated to one of the input operands,
this rule was not correctly applied.
This patch fixes the issue and adds a test to verify that we don't regress that
particular case.
llvm-svn: 330032
Simon Pilgrim