PPC64: Poor StrictMath performance due to non-optimized compilation
joe darcy
joe.darcy at oracle.com
Thu Nov 17 21:33:48 UTC 2016
Hi Gustavo,
On 11/17/2016 10:31 AM, Gustavo Romero wrote:
> Hi Joe,
>
> Thanks a lot for your valuable comments.
>
> On 17-11-2016 15:35, joe darcy wrote:
>>> Currently, optimization for building fdlibm is disabled, except for the
>>> "solaris" OS target [1].
>> The reason for that is because historically the Solaris compilers have had sufficient discipline and control regarding floating-point semantics and compiler optimizations to still implement the
>> Java-mandated results when optimization was enabled. The gcc family of compilers, for example, has lacked such discipline.
> oh, I see. Thanks for clarifying that. I was exactly wondering why fdlibm
> optimization is off even for x86_x64 as it, AFAICS regarding gcc 5 only, does
> not affect the precision, even if setting -O3 does not improve the performance
> as much as on PPC64.
The fdlibm code relies on aliasing a two-element array of int with a
double to do bit-level reads and writes of floating-point values. As I
understand it, the C spec allows compilers to assume values of different
types don't overlap in memory. The compilation environment has to be
configured in such a way that the C compiler disables code generation
and optimization techniques that would run afoul of these fdlibm coding
practices.
>>> As a consequence on PPC64 (Linux) StrictMath methods like, but not limited to,
>>> sin(), cos(), and tan() perform verify poor in comparison to the same methods
>>> in Math class [2]:
>> If you are doing your work against JDK 9, note that the pow, hypot, and cbrt fdlibm methods required by StrictMath have been ported to Java (JDK-8134780: Port fdlibm to Java). I have intentions to
>> port the remaining methods to Java, but it is unclear whether or not this will occur for JDK 9.
> Yes, I'm doing my work against 9. So is there any problem if I proceed with my
> change? I understand that there is no conflict as JDK-8134780 progresses and
> replaces the StrictMath methods by their counterparts in Java. Please, advice.
If I manage to finish the fdlibm C -> Java port in JDK 9, the changes
you are proposing would eventually be removed as unneeded since the C
code wouldn't be there to get compiled anymore.
>
> Is it intended to downport JDK-8134780 to 8?
Such a backport would be technically possible, but we at Oracle don't
currently plan to do so.
>
>
>> Methods in the Math class, such as pow, are often intrinsified and use a different algorithm so a straight performance comparison may not be as fair or meaningful in those cases.
> I agree. It's just that the issue on StrictMath methods was first noted due to
> that huge gap (Math vs StrictMath) on PPC64, which is not prominent on x64.
Depending on how Math.{sin, cos} is implemented on PPC64, compiling the
fdlibm sin/cos with more aggressive optimizations should not be expected
to close the performance gap. In particular, if Math.{sin, cos} is an
intrinsic on PPC64 (I haven't checked the sources) that used
platform-specific feature (say fused multiply add instructions) then
just compiling fdlibm more aggressively wouldn't necessarily make up
that gap.
To allow cross-platform and cross-release reproducibility, StrictMath is
specified to use the particular fdlibm algorithms, which precludes using
better algorithms developed more recently. If we were to start with a
clean slate today, to get such reproducibility we would specify
correctly-rounded behavior of all those methods, but such an approach
was much less tractable technical 20+ years ago without benefit of the
research that was been done in the interim, such as the work of Prof.
Muller and associates: https://lipforge.ens-lyon.fr/projects/crlibm/.
>
>
>> Accumulating the the results of the functions and comparisons the sums is not a sufficiently robust way of checking to see if the optimized versions are indeed equivalent to the non-optimized ones.
>> The specification of StrictMath requires a particular result for each set of floating-point arguments and sums get round-away low-order bits that differ.
> That's really good point, thanks for letting me know about that. I'll re-test my
> change under that perspective.
>
>
>> Running the JDK math library regression tests and corresponding JCK tests is recommended for work in this area.
> Got it. By "the JDK math library regression tests" you mean exactly which test
> suite? the jtreg tests?
Specifically, the regression tests under test/java/lang/Math and
test/java/lang/StrictMath in the jdk repository. There are some other
math library tests in the hotspot repo, but I don't know where they are
offhand.
A note on methodologies, when I've been writing test for my port I've
tried to include test cases that exercise all the branches point in the
code. Due to the large input space (~2^64 for a single-argument method),
random sampling alone is an inefficient way to try to find differences
in behavior.
> For testing against JCK/TCK I'll need some help on that.
>
I believe the JCK/TCK does have additional testcases relevant here.
HTH; thanks,
-Joe
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