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Andrey Filippov authored
leanMeasure now measures peaks ON the GPU (corr2D_peak_eig_f via GpuQuad.execCorr2DPeaks, float = the ratified production precision; the double kernel stays the validation tier): per LMA iteration only the small task streams go up and [n_corr][8] peak floats come down - the PD download happens ONLY for debug rendering (-POSE-RT-CORR2D), the pose_corr export capture, or the JCuda fallback (the original Java-oracle loop, kept intact). - GpuQuad: execCorr2DPeaks/setPeakDebias base = null/false (JCuda -> Java fallback); PEAK_ROW_FLOATS contract constant. - GpuQuadJna + TpJna: tp_proc_exec_corr2d_peak(use_float)/get_peaks/ set_peak_debias bindings. - TDCorrTile: convertTDtoPDInPlace split - fetchNormalizedPD is now the optional D2H half. - CuasPoseRT.leanMeasure: normalize in place -> float peak kernel -> map rows by packed corr index (valid==0 = kernel reject == oracle null); de-bias uploaded as the float array when pose_debias > 0; once-per-program 'GPU peak kernel active' console line. - PoseCorrExport.iterGpuPeaks: the production float rows land in the case (expected_gpu_peaks_it<k>, corr_indices order) = the TOL-0 peak tier; test_pose_corr_jna compares its float replay bit-exactly when present (tile_processor_gpu companion commit). mvn package OK; CuasTD headless self-test ALL PASSED; run_cases.sh ALL PASS (pre-hookup case: gpu_peaks buffer absent -> skipped gracefully). Co-Authored-By:Claude Fable 5 <noreply@anthropic.com>
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| .. | ||
| AvgTdExport.java | ||
| PoseCorrExport.java | ||
| TestDataReader.java | ||
| TestDataView.java | ||
| TestDataWriter.java |