/external/tensorflow/tensorflow/core/ops/ |
H A D | random_ops_test.cc | 33 Tensor num_samples = test::AsScalar<int32>(3); local 34 op.input_tensors[1] = &num_samples; 36 num_samples = test::AsTensor<int32>({1, 2, 3});
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/external/mesa3d/src/mesa/drivers/dri/i965/ |
H A D | gen8_multisample_state.c | 34 gen8_emit_3dstate_multisample(struct brw_context *brw, unsigned num_samples) argument 36 assert(num_samples <= 16); 38 unsigned log2_samples = ffs(MAX2(num_samples, 1)) - 1; 77 gen8_emit_3dstate_multisample(brw, brw->num_samples);
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H A D | brw_formatquery.c | 99 size_t num_samples; local 102 num_samples = brw_query_samples_for_format(ctx, target, internalFormat, 104 params[0] = (GLint) num_samples;
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H A D | gen6_multisample_state.c | 127 unsigned num_samples) 135 switch (num_samples) { 150 unreachable("Unrecognized num_samples in gen6_emit_3dstate_multisample"); 172 unsigned num_samples = brw->num_samples; local 184 if (num_samples > 1) { 185 int coverage_int = (int) (num_samples * coverage + 0.5f); 188 coverage_bits ^= (1 << num_samples) - 1; 211 gen6_emit_3dstate_multisample(brw, brw->num_samples); 126 gen6_emit_3dstate_multisample(struct brw_context *brw, unsigned num_samples) argument
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/external/tensorflow/tensorflow/core/kernels/ |
H A D | multinomial_op_test.cc | 27 static Graph* Multinomial(int batch_size, int num_classes, int num_samples) { argument 32 num_samples_t.scalar<int32>().setConstant(num_samples);
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H A D | bincount_op_gpu.cu.cc | 57 int num_samples = arr.size(); local 70 /* num_samples */ num_samples, 93 /* num_samples */ num_samples,
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H A D | histogram_op_gpu.cu.cc | 68 int num_samples = values.size(); local 80 /* num_samples */ num_samples, 104 /* num_samples */ num_samples,
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H A D | multinomial_op_gpu.cu.cc | 42 const int32 num_samples, const float* scores, 61 int num_classes, int num_samples, 73 bsc.set(1, num_samples); 81 oso.set(1, num_samples); 84 Eigen::array<int, 3> bsc{batch_size, num_samples, num_classes}; 86 Eigen::array<int, 3> oso{1, num_samples, 1}; 106 const int32 work_items = batch_size * num_samples * num_classes; 110 num_samples, scores.data(), maxima.data(), 41 MultinomialKernel(int32 nthreads, const int32 num_classes, const int32 num_samples, const float* scores, const float* maxima, OutputType* output) argument 56 operator ()(OpKernelContext* ctx, const GPUDevice& d, typename TTypes<T>::ConstMatrix logits, typename TTypes<float>::Flat noises, typename TTypes<float>::Flat scores, typename TTypes<float>::Flat maxima, int batch_size, int num_classes, int num_samples, const random::PhiloxRandom& gen, typename TTypes<OutputType>::Matrix output) argument
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H A D | range_sampler_test.cc | 41 void CheckHistogram(int num_samples, float tolerance) { argument 44 std::vector<int64> a(num_samples); 49 for (int i = 0; i < num_samples; i++) { 56 EXPECT_NEAR((h[val] + 0.0) / num_samples, sampler_->Probability(val),
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H A D | multinomial_op.cc | 50 int num_classes, int num_samples, 62 int num_classes, int num_samples, 71 auto DoWork = [ctx, num_samples, num_classes, &gen, &output, &logits]( 79 gen_copy.Skip(start_row * (num_samples + 3) / 4); 113 for (int64 j = 0; j < num_samples; ++j) { 122 50 * (num_samples * std::log(num_classes) / std::log(2) + num_classes); 147 errors::InvalidArgument("num_samples should be a scalar, got shape ", 150 const int num_samples = num_samples_t.scalar<int>()(); variable 151 OP_REQUIRES(ctx, num_samples >= 0, 153 "num_samples shoul 57 operator ()(OpKernelContext* ctx, const CPUDevice& d, typename TTypes<T>::ConstMatrix logits, typename TTypes<float>::Flat , typename TTypes<float>::Flat , typename TTypes<float>::Flat , int batch_size, int num_classes, int num_samples, const random::PhiloxRandom& gen, typename TTypes<OutputType>::Matrix output) argument [all...] |
H A D | random_poisson_op.cc | 73 int num_rate, int num_samples, 80 int num_rate, int num_samples, 105 auto DoWork = [num_samples, num_rate, &rng, samples_flat, rate_flat]( 115 const int64 rate_idx = output_idx / num_samples; 134 for (int64 sample_idx = output_idx % num_samples; 135 sample_idx < num_samples && output_idx < limit_output; 196 for (int64 sample_idx = output_idx % num_samples; 197 sample_idx < num_samples && output_idx < limit_output; 269 num_rate * num_samples, kElementCost, DoWork); 294 const int64 num_samples variable 79 operator ()(OpKernelContext* ctx, const CPUDevice& d, const T* rate_flat, int num_rate, int num_samples, const random::PhiloxRandom& rng, U* samples_flat) argument [all...] |
/external/adhd/cras/src/server/ |
H A D | rate_estimator.h | 20 int num_samples; member in struct:least_square
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/external/mesa3d/src/mesa/state_tracker/ |
H A D | st_atom_framebuffer.c | 72 framebuffer_quantize_num_samples(struct st_context *st, unsigned num_samples) argument 78 if (!num_samples) 83 assert(!(num_samples > msaa_mode)); /* be safe from infinite loops */ 87 * num_samples is supported, and if so returning it. 89 for (; msaa_mode >= num_samples; msaa_mode = msaa_mode / 2) {
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/external/tensorflow/tensorflow/compiler/tf2xla/kernels/ |
H A D | categorical_op.cc | 39 int64 num_samples; variable 40 OP_REQUIRES_OK(ctx, ctx->ConstantInputAsIntScalar(1, &num_samples)); 44 OP_REQUIRES(ctx, num_samples >= 0, 46 "num_samples should be nonnegative, got ", num_samples)); 62 {batch_size, num_samples, num_classes}}; 95 REGISTER_XLA_OP(Name("Multinomial").CompileTimeConstInput("num_samples"),
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/external/tensorflow/tensorflow/contrib/slim/python/slim/data/ |
H A D | data_provider.py | 51 def __init__(self, items_to_tensors, num_samples): 56 num_samples: the number of samples in the dataset being provided. 59 self._num_samples = num_samples 90 def num_samples(self): member in class:DataProvider
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/external/webrtc/webrtc/modules/video_coding/utility/ |
H A D | moving_average.h | 24 bool GetAverage(size_t num_samples, T* average); 44 bool MovingAverage<T>::GetAverage(size_t num_samples, T* avg) { argument 45 if (num_samples > samples_.size()) 49 while (num_samples < samples_.size()) { 54 *avg = sum_ / static_cast<T>(num_samples);
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/external/webrtc/webrtc/video/ |
H A D | receive_statistics_proxy.h | 82 SampleCounter() : sum(0), num_samples(0) {} 88 int num_samples; member in struct:webrtc::ReceiveStatisticsProxy::SampleCounter
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/external/opencv/ml/src/ |
H A D | mltestset.cpp | 60 int num_samples, 87 if( num_samples < 1 ) 88 CV_ERROR( CV_StsBadArg, "num_samples parameter must be positive" ); 105 CV_CALL( *samples = cvCreateMat( num_samples, num_features, CV_32FC1 ) ); 106 CV_CALL( *responses = cvCreateMat( 1, num_samples, CV_32SC1 ) ); 133 num_classes = MIN( num_samples, num_classes ); 136 for( i = 0, cur_class = 0; i < num_samples; ++cur_class ) 141 last_idx = num_samples * (cur_class + 1) / num_classes - 1; 145 for( ; elem.d <= max_dst && i < num_samples; ++i ) 148 if( i < num_samples 59 cvCreateTestSet( int type, CvMat** samples, int num_samples, int num_features, CvMat** responses, int num_classes, ... ) argument [all...] |
/external/webrtc/webrtc/modules/audio_coding/neteq/ |
H A D | dtmf_tone_generator.cc | 151 // Generate num_samples of DTMF signal and write to |output|. 152 int DtmfToneGenerator::Generate(size_t num_samples, argument 162 output->AssertSize(num_samples); 163 for (size_t i = 0; i < num_samples; ++i) { 189 return static_cast<int>(num_samples);
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/external/webrtc/webrtc/modules/utility/source/ |
H A D | file_player_unittests.cc | 64 size_t num_samples; local 66 player_->Get10msAudioFromFile(out, num_samples, kSampleRateHz)); 67 checksum.Update(out, num_samples * sizeof(out[0])); 69 ASSERT_EQ(num_samples, 70 fwrite(out, sizeof(out[0]), num_samples, output_file_));
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/external/libxaac/decoder/ |
H A D | ixheaacd_mps_hybrid_filt.c | 50 WORD32 num_samples, WORD32 *filt_coeff) 63 for (i = 0; i < num_samples; i++) { 110 WORD32 num_samples, WORD32 *filt_coeff) 123 for (i = 0; i < num_samples; i++) { 175 WORD32 num_bands, WORD32 num_samples, 184 lf_samples_shift = BUFFER_LEN_LF_MPS - num_samples; 185 hf_samples_shift = BUFFER_LEN_HF_MPS - num_samples; 191 handle->lf_buffer[k][n].re = handle->lf_buffer[k][n + num_samples].re; 192 handle->lf_buffer[k][n].im = handle->lf_buffer[k][n + num_samples].im; 197 for (n = 0; n < num_samples; 48 ixheaacd_mps_hyb_filt_type1( ia_cmplx_w32_struct *input, ia_cmplx_w32_struct output[8][MAX_TIME_SLOTS], WORD32 num_samples, WORD32 *filt_coeff) argument 108 ixheaacd_mps_hyb_filt_type2( ia_cmplx_w32_struct *input, ia_cmplx_w32_struct output[2][MAX_TIME_SLOTS], WORD32 num_samples, WORD32 *filt_coeff) argument 172 ixheaacd_mps_qmf_hybrid_analysis( ia_mps_hybrid_filt_struct *handle, ia_cmplx_flt_struct in_qmf[MAX_TIME_SLOTS][MAX_NUM_QMF_BANDS_MPS_NEW], WORD32 num_bands, WORD32 num_samples, ia_cmplx_flt_struct hyb[MAX_TIME_SLOTS][MAX_HYBRID_BANDS_MPS]) argument 267 ixheaacd_mps_qmf_hybrid_synthesis( ia_cmplx_flt_struct hyb[MAX_TIME_SLOTS][MAX_HYBRID_BANDS_MPS], WORD32 num_bands, WORD32 num_samples, ia_cmplx_flt_struct in_qmf[MAX_TIME_SLOTS][MAX_NUM_QMF_BANDS_MPS]) argument [all...] |
/external/mesa3d/src/gallium/drivers/ilo/ |
H A D | ilo_blitter.h | 87 unsigned num_samples; member in struct:ilo_blitter::__anon16211
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/external/webrtc/webrtc/common_audio/ |
H A D | wav_header_unittest.cc | 98 size_t num_samples = 0; local 123 &bytes_per_sample, &num_samples)); 144 &bytes_per_sample, &num_samples)); 165 &bytes_per_sample, &num_samples)); 187 &bytes_per_sample, &num_samples)); 210 &bytes_per_sample, &num_samples)); 229 &bytes_per_sample, &num_samples)); 241 &bytes_per_sample, &num_samples)); 275 size_t num_samples = 0; local 279 &bytes_per_sample, &num_samples)); 311 size_t num_samples = 0; local [all...] |
/external/webrtc/webrtc/modules/audio_processing/test/ |
H A D | test_utils.cc | 25 void RawFile::WriteSamples(const int16_t* samples, size_t num_samples) { argument 29 fwrite(samples, sizeof(*samples), num_samples, file_handle_); 32 void RawFile::WriteSamples(const float* samples, size_t num_samples) { argument 33 fwrite(samples, sizeof(*samples), num_samples, file_handle_);
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/external/webrtc/webrtc/modules/audio_processing/transient/ |
H A D | transient_suppression_test.cc | 127 size_t num_samples, 130 rtc::scoped_ptr<int16_t[]> ibuf(new int16_t[num_channels * num_samples]); 133 for (size_t j = 0; j < num_samples; ++j) { 134 ibuf[i + j * num_channels] = FloatS16ToS16(buffer[i * num_samples + j]); 137 fwrite(ibuf.get(), sizeof(ibuf[0]), num_channels * num_samples, f); 126 WritePCM(FILE* f, size_t num_samples, int num_channels, const float* buffer) argument
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