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664ec4813d
Details: - Created a new test suite that exercises only the BLAS compatibility found in BLIS. The test suite is a straightforward port of code obtained from netlib LAPACK, run through f2c and linked to a stripped- down version of libf2c that is compiled along with the test drivers (to prevent any obvious ABI issues). The new BLAS test suite can be run from within its new local directory, 'blastest' (through its local 'make ; make run' targets) or from the top-level Makefile (via the 'make testblas' target). Output files are created in whatever directory the test drivers are run, whether it be the 'blastest' directory, the top-level source distribution directory, or the out-of-tree directory in which 'configure' was run. Also, the results of the BLAS test suite can be checked via 'make checkblas', which summarizes the presence or absence of test failures in a single line printed to stdout. - Updated the 'test' target to run both 'testblis' and 'testblas'. - Added a new 'testblis-fast' target that runs the BLIS testsuite with smaller problem sizes, allowing it to finish more quickly. - Added a 'make check' target, which runs 'checkblis-fast' and 'checkblas'. - Changed .travis.yml so that Travis CI runs 'testblis-fast' instead of 'testblis' before (calling the check-blistest.sh script to check the result manually). - Renamed some targets in the top-level Makefile to be consistent between BLAS and BLIS.
45 lines
2.0 KiB
Plaintext
45 lines
2.0 KiB
Plaintext
# ----------------------------------------------------------------------
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#
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# input.general
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# BLIS test suite
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#
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# This file contains input values that control how BLIS operations are
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# tested. Comments explain the purpose of each parameter as well as
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# accepted values.
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#
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1 # Number of repeats per experiment (best result is reported)
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rc # Matrix storage scheme(s) to test:
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# 'c' = col-major storage; 'g' = general stride storage;
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# 'r' = row-major storage
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cj # Vector storage scheme(s) to test:
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# 'c' = colvec / unit stride; 'j' = colvec / non-unit stride;
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# 'r' = rowvec / unit stride; 'i' = rowvec / non-unit stride
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0 # Test all combinations of storage schemes?
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1 # Perform all tests with alignment?
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# '0' = do NOT align buffers/ldims; '1' = align buffers/ldims
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0 # Randomize vectors and matrices using:
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# '0' = real values on [-1,1];
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# '1' = powers of 2 in narrow precision range
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32 # General stride spacing (for cases when testing general stride)
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sdcz # Datatype(s) to test:
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# 's' = single real; 'c' = single complex;
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# 'd' = double real; 'z' = double complex
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100 # Problem size: first to test
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500 # Problem size: maximum to test
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100 # Problem size: increment between experiments
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# Complex level-3 implementations to test
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0 # 3mh ('1' = enable; '0' = disable)
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0 # 3m1 ('1' = enable; '0' = disable)
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0 # 4mh ('1' = enable; '0' = disable)
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0 # 4m1b ('1' = enable; '0' = disable)
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0 # 4m1a ('1' = enable; '0' = disable)
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1 # 1m ('1' = enable; '0' = disable)
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1 # native ('1' = enable; '0' = disable)
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1 # Error-checking level:
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# '0' = disable error checking; '1' = full error checking
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i # Reaction to test failure:
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# 'i' = ignore; 's' = sleep() and continue; 'a' = abort
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0 # Output results in matlab/octave format? ('1' = yes; '0' = no)
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0 # Output results to stdout AND files? ('1' = yes; '0' = no)
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