# ---------------------------------------------------------------------- # # input.general # BLIS test suite # # This file contains input values that control how BLIS operations are # tested. Comments explain the purpose of each parameter as well as # accepted values. # 1 # Number of repeats per experiment (best result is reported) rc # Matrix storage scheme(s) to test: # 'c' = col-major storage; 'g' = general stride storage; # 'r' = row-major storage cj # Vector storage scheme(s) to test: # 'c' = colvec / unit stride; 'j' = colvec / non-unit stride; # 'r' = rowvec / unit stride; 'i' = rowvec / non-unit stride 0 # Test all combinations of storage schemes? 1 # Perform all tests with alignment? # '0' = do NOT align buffers/ldims; '1' = align buffers/ldims 0 # Randomize vectors and matrices using: # '0' = real values on [-1,1]; # '1' = powers of 2 in narrow precision range 32 # General stride spacing (for cases when testing general stride) sdcz # Datatype(s) to test: # 's' = single real; 'c' = single complex; # 'd' = double real; 'z' = double complex 0 # Test gemm with mixed-domain operands? 0 # Test gemm with mixed-precision operands? 100 # Problem size: first to test 500 # Problem size: maximum to test 100 # Problem size: increment between experiments # Complex level-3 implementations to test: 1 # 1m ('1' = enable; '0' = disable) 1 # native ('1' = enable; '0' = disable) 1 # Simulate application-level threading: # '1' = disable / use one testsuite thread; # 'n' = enable and use n testsuite threads 1 # Error-checking level: # '0' = disable error checking; '1' = full error checking i # Reaction to test failure: # 'i' = ignore; 's' = sleep() and continue; 'a' = abort 0 # Output results in matlab/octave format? ('1' = yes; '0' = no) 0 # Output results to stdout AND files? ('1' = yes; '0' = no)