/external/bison/etc/ |
Makefile.am | 16 nodist_noinst_SCRIPTS = bench.pl
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/external/eigen/bench/btl/libs/eigen3/ |
main_adv.cpp | 20 #include "bench.hh" 32 bench<Action_trisolve<eigen3_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 33 bench<Action_trisolve_matrix<eigen3_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 34 bench<Action_cholesky<eigen3_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 35 bench<Action_lu_decomp<eigen3_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 36 bench<Action_partial_lu<eigen3_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 38 bench<Action_hessenberg<eigen3_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 39 bench<Action_tridiagonalization<eigen3_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT);
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main_vecmat.cpp | 20 #include "bench.hh" 27 bench<Action_matrix_vector_product<eigen3_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 28 bench<Action_atv_product<eigen3_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 29 bench<Action_symv<eigen3_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 30 bench<Action_syr2<eigen3_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 31 bench<Action_ger<eigen3_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT);
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main_linear.cpp | 20 #include "bench.hh" 28 bench<Action_axpy<eigen3_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 29 bench<Action_axpby<eigen3_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 30 bench<Action_rot<eigen3_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT);
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main_matmat.cpp | 20 #include "bench.hh" 27 bench<Action_matrix_matrix_product<eigen3_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 28 // bench<Action_ata_product<eigen3_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 29 bench<Action_aat_product<eigen3_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 30 bench<Action_trmm<eigen3_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT);
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/external/eigen/bench/btl/libs/STL/ |
main.cpp | 22 #include "bench.hh" 29 bench<Action_axpy<STL_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 30 bench<Action_axpby<STL_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 31 bench<Action_matrix_vector_product<STL_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 32 bench<Action_atv_product<STL_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 33 bench<Action_symv<STL_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 34 bench<Action_syr2<STL_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 35 bench<Action_matrix_matrix_product<STL_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 36 bench<Action_ata_product<STL_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 37 bench<Action_aat_product<STL_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT) [all...] |
/external/eigen/bench/btl/libs/gmm/ |
main.cpp | 20 #include "bench.hh" 30 bench<Action_axpy<gmm_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 31 bench<Action_axpby<gmm_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 33 bench<Action_matrix_vector_product<gmm_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 34 bench<Action_atv_product<gmm_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 36 bench<Action_matrix_matrix_product<gmm_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 37 // bench<Action_ata_product<gmm_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 38 // bench<Action_aat_product<gmm_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 40 bench<Action_trisolve<gmm_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 41 //bench<Action_lu_solve<blitz_LU_solve_interface<REAL_TYPE> > >(MIN_LU,MAX_LU,NB_POINT) [all...] |
/external/eigen/bench/btl/libs/BLAS/ |
main.cpp | 22 #include "bench.hh" 39 bench<Action_axpy<blas_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 40 bench<Action_axpby<blas_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 42 bench<Action_matrix_vector_product<blas_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 43 bench<Action_atv_product<blas_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 44 bench<Action_symv<blas_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 45 bench<Action_syr2<blas_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 47 bench<Action_ger<blas_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 48 bench<Action_rot<blas_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 50 bench<Action_matrix_matrix_product<blas_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT) [all...] |
/external/eigen/bench/btl/libs/blitz/ |
btl_blitz.cpp | 23 #include "bench.hh" 37 bench<Action_matrix_vector_product<blitz_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 38 bench<Action_atv_product<blitz_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 40 bench<Action_matrix_matrix_product<blitz_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 41 bench<Action_ata_product<blitz_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 42 bench<Action_aat_product<blitz_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 44 bench<Action_axpy<blitz_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 46 //bench<Action_lu_solve<blitz_LU_solve_interface<REAL_TYPE> > >(MIN_LU,MAX_LU,NB_POINT);
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/external/eigen/bench/btl/libs/eigen2/ |
main_adv.cpp | 20 #include "bench.hh" 32 bench<Action_trisolve<eigen2_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 33 bench<Action_trisolve_matrix<eigen2_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 34 bench<Action_cholesky<eigen2_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 35 bench<Action_lu_decomp<eigen2_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 36 // bench<Action_partial_lu<eigen2_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 38 bench<Action_hessenberg<eigen2_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 39 bench<Action_tridiagonalization<eigen2_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT);
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main_linear.cpp | 20 #include "bench.hh" 28 bench<Action_axpy<eigen2_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 29 bench<Action_axpby<eigen2_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT);
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main_matmat.cpp | 20 #include "bench.hh" 27 bench<Action_matrix_matrix_product<eigen2_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 28 // bench<Action_ata_product<eigen2_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 29 bench<Action_aat_product<eigen2_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 30 // bench<Action_trmm<eigen2_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT);
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main_vecmat.cpp | 20 #include "bench.hh" 27 bench<Action_matrix_vector_product<eigen2_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 28 bench<Action_atv_product<eigen2_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 29 // bench<Action_symv<eigen2_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 30 // bench<Action_syr2<eigen2_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 31 // bench<Action_ger<eigen2_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT);
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/external/eigen/bench/btl/libs/mtl4/ |
main.cpp | 20 #include "bench.hh" 30 bench<Action_axpy<mtl4_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 31 bench<Action_axpby<mtl4_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 33 bench<Action_matrix_vector_product<mtl4_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 34 bench<Action_atv_product<mtl4_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 35 bench<Action_matrix_matrix_product<mtl4_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 36 // bench<Action_ata_product<mtl4_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 37 // bench<Action_aat_product<mtl4_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 39 bench<Action_trisolve<mtl4_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 40 // bench<Action_cholesky<mtl4_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT) [all...] |
/external/eigen/bench/btl/libs/ublas/ |
main.cpp | 22 #include "bench.hh" 29 bench<Action_axpy<ublas_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 30 bench<Action_axpby<ublas_interface<REAL_TYPE> > >(MIN_AXPY,MAX_AXPY,NB_POINT); 32 bench<Action_matrix_vector_product<ublas_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 33 bench<Action_atv_product<ublas_interface<REAL_TYPE> > >(MIN_MV,MAX_MV,NB_POINT); 35 bench<Action_matrix_matrix_product<ublas_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 36 // bench<Action_ata_product<ublas_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 37 // bench<Action_aat_product<ublas_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT); 39 bench<Action_trisolve<ublas_interface<REAL_TYPE> > >(MIN_MM,MAX_MM,NB_POINT);
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/external/eigen/bench/ |
benchFFT.cpp | 12 #include <bench/BenchUtil.h> 44 void bench(int nfft,bool fwd,bool unscaled=false, bool halfspec=false) function 99 bench<complex<float> >(NFFT,true); 100 bench<complex<float> >(NFFT,false); 101 bench<float>(NFFT,true); 102 bench<float>(NFFT,false); 103 bench<float>(NFFT,false,true); 104 bench<float>(NFFT,false,true,true); 106 bench<complex<double> >(NFFT,true); 107 bench<complex<double> >(NFFT,false) [all...] |
bench_multi_compilers.sh | 19 # echo "${CLIST[$i]} $benchfile -I.. -o bench~" 20 # if [ -e ./.bench ] ; then rm .bench; fi 21 ${CLIST[$i]} $benchfile -I.. -o .bench && ./.bench 2> /dev/null
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quatmul.cpp | 4 #include <bench/BenchTimer.h> 20 template<typename Quat> void bench(const std::string& label) function 32 BENCH(t, tries, rep, quatmul_default(a,b,c)); 35 BENCH(t, tries, rep, quatmul_novec(a,b,c)); 41 bench<Quaternionf>("float "); 42 bench<Quaterniond>("double");
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geometry.cpp | 4 #include <bench/BenchTimer.h> 76 BENCH(timer,10,100000,transform(t,data)); 90 EIGEN_DONT_INLINE void bench(const std::string& msg, const Transformation& t) function 118 bench("matrix 3x3", mat33); 119 bench("quaternion", quat); 120 bench("quat-mat ", quatmat); 121 bench("isometry3 ", iso3); 122 bench("affine3 ", aff3); 123 bench("c affine3 ", caff3); 124 bench("proj3 ", proj3) [all...] |
/external/llvm/utils/yaml-bench/ |
Makefile | 1 ##===- utils/yaml-bench/Makefile ---------------------------*- Makefile -*-===## 11 TOOLNAME = yaml-bench
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/system/extras/tests/memtest/ |
bandwidth.h | 39 bench(_num_warm_loops); 42 bench(_num_loops); 84 virtual void bench(size_t num_loops) = 0; 142 bench(1); 151 bench(2); 176 void bench(size_t num_loops) { function in class:CopyLdrdStrdBenchmark 230 void bench(size_t num_loops) { function in class:CopyLdmiaStmiaBenchmark 271 void bench(size_t num_loops) { function in class:CopyVld1Vst1Benchmark 314 void bench(size_t num_loops) { function in class:CopyVldrVstrBenchmark 371 void bench(size_t num_loops) function in class:CopyVldmiaVstmiaBenchmark 409 void bench(size_t num_loops) { function in class:MemcpyBenchmark 493 void bench(size_t num_loops) { function in class:WriteStrdBenchmark 537 void bench(size_t num_loops) { function in class:WriteStmiaBenchmark 584 void bench(size_t num_loops) { function in class:WriteVst1Benchmark 629 void bench(size_t num_loops) { function in class:WriteVstrBenchmark 678 void bench(size_t num_loops) { function in class:WriteVstmiaBenchmark 720 void bench(size_t num_loops) { function in class:MemsetBenchmark 736 void bench(size_t num_loops) { function in class:ReadLdrdBenchmark 774 void bench(size_t num_loops) { function in class:ReadLdmiaBenchmark 810 void bench(size_t num_loops) { function in class:ReadVld1Benchmark 848 void bench(size_t num_loops) { function in class:ReadVldrBenchmark 891 void bench(size_t num_loops) { function in class:ReadVldmiaBenchmark [all...] |
bandwidth.cpp | 93 BandwidthBenchmark *bench = NULL; local 101 bench = new CopyLdrdStrdBenchmark(); 103 bench = new CopyLdmiaStmiaBenchmark(); 105 bench = new CopyVld1Vst1Benchmark(); 107 bench = new CopyVldrVstrBenchmark(); 109 bench = new CopyVldmiaVstmiaBenchmark(); 111 bench = new MemcpyBenchmark(); 113 bench = new WriteStrdBenchmark(); 115 bench = new WriteStmiaBenchmark(); 117 bench = new WriteVst1Benchmark() 174 BandwidthBenchmark *bench; member in struct:__anon62838 229 BandwidthBenchmark *bench = createBandwidthBenchmarkObject(*values); local [all...] |
/external/skia/bench/ |
bench_compare.py | 14 print '-o <file> the old bench output file.' 15 print '-n <file> the new bench output file.' 25 print ' b: bench' 33 print '--match <bench> only matches benches which begin with <bench>.' 36 """A compare between data points produced by bench. 103 if match_bench and not old_bench.bench.startswith(match_bench): 107 new_bench_match = [bench for bench in new_benches 108 if old_bench.bench == bench.bench an [all...] |
bench_analyze.py | 6 """ Analyze recent bench data from graphs, and output suggested ranges. 10 bench ranges to use in bench_expectations.txt, with analytical plots. 23 # Constants for calculating suggested bench ranges. 25 # We use moving average as expected bench value, and calculate average Variance 26 # of bench from the moving average. Set range to be [X_UB * Variance above 44 # List of bench representation algorithms. Flag "-a" is chosen from the list. 47 # Regular expressions for parsing bench/revision values. 48 HEIGHT_RE = 'height (\d+\.\d+) corresponds to bench value (\d+\.\d+).-->' 50 LINE_RE = '<polyline id="(.*)".*points="(.*)"/>' # Bench value lines. 52 # Bench graph url pattern [all...] |
bench_util.py | 10 # bench representation algorithm constant names 18 SETTINGS_RE = 'skia bench:((?:\s+' + PER_SETTING_RE + ')*)' 19 BENCH_RE = 'running bench (?:\[\d+ \d+\] )?\s*(\S+)' 23 # per-tile bench lines are in the following format. Note that there are 24 # non-averaged bench numbers in separate lines, which we ignore now due to 40 """A single data point produced by bench. 43 def __init__(self, bench, config, time_type, time, settings, 45 self.bench = bench 52 # list of per_tile bench values, if applicabl [all...] |