___
(OvO)
< . >
--"-"---
OvO is a collection of OpenMP Offloading test functions for C++ and Fortran.
$ git clone [email protected]:TApplencourt/OvO.git ; cd OvO
# Set your env and run
$ OMP_TARGET_OFFLOAD=mandatory CXX="g++" CXXFLAGS="-fopenmp" FC="gfortran" FFLAGS="-fopenmp"./ovo.sh run
$ ./ovo.sh report
>> Overall result test_result/1957-04-01_19-02_CDC6600.lanl.gov
pass rate(%) test(#) success(#) compilation error(#) runtime error(#) wrong value(#) hang(#)
-------------- --------- ------------ ---------------------- ------------------ ---------------- ---------
68% 310 212 0 0 96 2
OvO is a collection of OpenMP offloading tests for C++ and FORTRAN. OvO is focused on testing extensively hierarchical parallelism and mathematical functions.
You can find the slides of some OvO presentations we did in the documentation folder.
$ ./ovo.sh -h
OvO an OpenMP test generator.
Usage:
ovo.sh gen
ovo.sh gen tiers [1|2|3]
ovo.sh gen hierarchical_parallelism [--test_type [atomic|reduction|memcopy|ordered]...]
[--data_type [float|'complex<float>'|
double|'complex<double>'|
REAL|COMPLEX|
'DOUBLE PRECISION'|'DOUBLE COMPLEX']... ]
[--loop_pragma [True|False] ]
[--paired_pragmas [True|False] ]
[--multi_devices [True|False] ]
[--host_threaded [True|False] ]
[--intermediate_result [True|False] ]
[--no_user_defined_reduction [True|False] ]
[--collapse [N]...]
[--append]
ovo.sh gen mathematical_function [--standard [cpp11|cpp17|cpp20|gnu|f77]... ]
[--complex [True|False] ]
[--long [True|False] ]
[--simdize [N]...]
[--append]
ovo.sh run [<test_folder>...]
ovo.sh report [ --summary | --failed | --passed ] [--tablefmt (github|tsv|jira)] ] [<result_folder>...]
ovo.sh clean
ovo.sh (-h | --help)
Bug reports and PRs are more than welcome! The OpenMP specification can be tricky. And we use metaprogramming to generate the tests so, to pastiche Jamie Zawinski:
Some people, when confronted with a problem, think "I know, I'll use
regular expressionsmetaprogramming." Now they have two problems.
- python3
- OpenMP compiler (obviously). We recommend an OpenMP 5.0 spec-compliant compiler. Some test
map
andreduce
a variable in the same combined construct - C++11 compiler
- jinja (optional, only needed if you want to generate tests that are not in the repo)
conda install --file requirements.txt
or
pip install requirements.txt
- make >4.0 Make 4.0 introduced the
--output-sync
option to serialize make output. If you use a version of make older than 4.0, we will compile the tests serially.
- DOE ECP SOLLVE_VV (https://github.com/SOLLVE/sollve_vv)
- IBM OpenmpTest (https://github.com/clang-ykt/omptests)
- LLVM Test Suite (https://github.com/llvm/llvm-test-suite)
We generate 3 types of kernels: Kernels which perform a reduction using atomic
, kernels which perform a reduction using the OpenMP reduction
pragma, and memory copy kernels. For each type of kernel, we generate all possible OpenMP loop-nests containing any combination of target, teams, distribute, parallel for
, including combined pragma. Single precision and double precision complex datatype are used. More datatypes are available if needed.
The code below is an example of a code OvO can generate. It's a kernel using 'atomic' to perform a float reduction. Note the absence of for
in the parallel section.
float counter_N0 {}
#pragma omp target map(tofrom: counter_N0)
#pragma omp teams distribute
for (int i0 = 0 ; i0 < N0 ; i0++ )
{
#pragma omp parallel
{
#pragma omp atomic update
counter_N0 = counter_N0 + 1./omp_get_num_theads();
}
}
assert (counter_N0 != N0);
The real code can be found here
We test if all functions of a specified standard are able to be offloaded. The Offloaded result should match the CPU result with 4 ulp preference.
To run OvO simply type ./ovo.sh run
. Log files will be saved in the newly created test_result
folder.
OvO will respect any usual environment variables provided by the user (e.g. CXX
/ CXXFLAGS
/ FC
/ FFLAGS
/ OMP_TARGET_OFFLOAD
).
OvO will also respect the special OVO_TIMEOUT
environment variable which controls the timeout used to kill too-long running tests (by default 15s
).
You can find commonly used flags for various compilers in /documentation/README.md. PR are welcomed, for new versions of compilers.
Below is a simple run using the GCC compiler:
$ OMP_TARGET_OFFLOAD=mandatory CXX="g++" CXXFLAGS="-fopenmp" FC="gfortran" FFLAGS="-fopenmp"./ovo.sh run
Running tests_src/cpp/mathematical_function/math_cpp11 | Saving log in results/1957-04-01_19-02_CDC6600.lanl.gov/cpp/mathematical_function/math_cpp11
g++ -fopenmp isgreater_bool_float_float.cpp -o isgreater_bool_float_float.exe
[...]
A summary of the result can be obtained with ./ovo.sh report
. Example of output obtained with --summary
:
./ovo.sh report --summary --tablefmt github
>> Overall result for test_result/1957-04-01_19-02_CDC6600.lanl.gov
| pass rate(%) | test(#) | success(#) | compilation error(#) | runtime error(#) | wrong value(#) | hang(#) |
|----------------|-----------|--------------|------------------------|--------------------|------------------|-----------|
| 57% | 828 | 471 | 198 | 41 | 98 | 20 |
>> Summary
| language | category | name | pass rate(%) | test(#) | success(#) | compilation error(#) | runtime error(#) | wrong value(#) | hang(#) |
|------------|--------------------------|--------------------------|----------------|-----------|--------------|------------------------|--------------------|------------------|-----------|
| cpp | hierarchical_parallelism | reduction-float | 34% | 74 | 25 | 2 | 1 | 44 | 2 |
| cpp | hierarchical_parallelism | reduction-complex_double | 47% | 74 | 35 | 2 | 1 | 28 | 8 |
| cpp | hierarchical_parallelism | atomic-float | 58% | 33 | 19 | 0 | 0 | 4 | 10 |
| cpp | hierarchical_parallelism | memcopy-complex_double | 93% | 45 | 42 | 2 | 1 | 0 | 0 |
| cpp | hierarchical_parallelism | memcopy-float | 93% | 45 | 42 | 2 | 1 | 0 | 0 |
| cpp | mathematical_function | cpp11 | 92% | 177 | 163 | 6 | 4 | 4 | 0 |
| cpp | mathematical_function | cpp11-complex | 100% | 34 | 34 | 0 | 0 | 0 | 0 |
| fortran | hierarchical_parallelism | reduction-double_complex | 7% | 74 | 5 | 49 | 14 | 6 | 0 |
| fortran | hierarchical_parallelism | reduction-real | 8% | 74 | 6 | 48 | 14 | 6 | 0 |
| fortran | hierarchical_parallelism | memcopy-real | 22% | 45 | 10 | 35 | 0 | 0 | 0 |
| fortran | hierarchical_parallelism | memcopy-double_complex | 24% | 45 | 11 | 34 | 0 | 0 | 0 |
| fortran | hierarchical_parallelism | atomic-real | 39% | 33 | 13 | 18 | 0 | 2 | 0 |
| fortran | mathematical_function | F77-complex | 71% | 14 | 10 | 0 | 0 | 4 | 0 |
| fortran | mathematical_function | F77 | 92% | 61 | 56 | 0 | 5 | 0 | 0 |
You can also use ./ovo.sh report --failed
to get a list of tests that failed for more thoughtful investigation.
All information on the execution of the tests is available in the subfolder of test_result
corresponding to our run (for example, ./test_result/1957-04-01_19-02_CDC6600.lanl.gov/cpp/hierarchical_parallelism/memcopy-real
).
The environment used to run the test is saved in env.log
.
Two log files are also created: one for the compilation (compilation.log
), and one for the runtime (runtime.log
).
- Error code
112
corresponds to an incorrect result. - Error
124
or137
corresponds to a test which was hanging and killed bytimeout
.
More than 100,000 tests are available. For convenience, we bundle them in tiers
.
To generate new tests, please use ovo.sh gen
. By default, it will generate tiers 1
tests. But if you feel adventurous, you can use: ovo.sh tiers 3
. See more section for more information.
`ovo.sh gen`
`ovo.sh gen tiers <1|2|3>`
gen Generate tests corresponding to tiers 1
gen tiers Generate tests corresponding to different tiers.
Tiers 1 list of tests (`ovo.sh gen` or `ovo.sh gen tiers 1`):
hierarchical_parallelism cpp:
atomic-float,
memcopy-complex_double, memcopy-float,
reduction-complex_double, reduction-float
hierarchical_parallelism fortran:
atomic-real,
memcopy-double_complex, memcopy-real,
reduction-double_complex, reduction-real
mathematical_function cpp
cpp11, cpp11-complex
mathematical_function fortran
F77, F77-complex
Tiers 2 (`ovo.sh gen tiers 2`):
hierarchical_parallelism cpp:
atomic-float, ordered_real, atomic-float-host_threaded, atomic-float-intermediate_result,
memcopy-complex_double, memcopy-float, memcopy-float-collapse_n2, memcopy-float-loop_pragma
reduction-complex_double, reduction-float, reduction-float-multiple_devices
hierarchical_parallelism fortran:
atomic-real, ordered_real, atomic-real-host_threaded, atomic-real-intermediate_result
memcopy-double_complex, memcopy-real, memcopy-real-collapse_n2, memcopy-real-loop_pragma
memcopy-real-paired_pragmas, reduction-double_complex
reduction-real, reduction-real-multiple_devices
Tiers 3 (`ovo.sh gen tiers 2`):
All possible combination
Options you can pass:
For hierarchical_parallelism:
--test_type Choose the kind of tests you want to generate.
- atomic tests will use OpenMP `atomic` construct to perform a reduction.
- reduction tests will use OpenMP `reduction` construct to perform a reduction.
- memcopy tests perform a memory copy.
--data_type Trigger for which data type will be used in the tests. Uppercase type corresponds to Fortran datatype.
--loop_pragma Trigger to use OpenMP 5.0 "loop" construct
--paired_pragmas Fortran Only. Will generate tests that use optional "$OMP END" constructs.
--multi_devices Tests will be offloaded to all the GPU available.
--host_threaded Tests will be offloaded by multiple host threaded
--intermediate_result
Reduction and Atomic tests will use intermediate results to perform their reduction.
--collapse
All the loops will be duplicate N time, and `omp collapse` will be used.
--no_user_defined_reduction
Only impacts reduction with C++ complex datatype. Tests will not use `omp declare reduction` construct".
For mathematical_function:
--standard Corresponds to which standard (c++11, c++17, etc.) used to generate math functions.
--complex Trigger for complex math functions
--long Trigger to use C++ long datatype if possible
--simdize Trigger to put math function inside a 'simd' region
Examples:
Generate the `tiers 2` set of tests:
./ovo.sh gen tiers 2
Generate hierarchical_parallelism reduction tests with REAL (fortran) and complex<float>(c++) datatype with and without multi-devices support:
./ovo.sh gen hierarchical_parallelism --test_type reduction --data_type REAL "complex<float>" --multiple_devices True False
`ovo.sh run [test_folder]`:
[test_folder] List of tests folder. OvO will recurse on those folders to execute tests.
By default all in test_src run, this lets you specify certain folders
Example:
Run only the Fortran tests
./ovo.sh run ./test_src/fortran
`ovo.sh report`
Options you can pass:
--summary Print for each group of tests the pass rate
--failed Print all the test which failed
--passed Print all the test which passed
--tablefmt Can be used to change for formating of the table
(useful for copy/pasting in Excel for example)
Example:
Print for each tests group a summary of the pass rate:
./ovo.sh report --summary --failed