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Jungfraujoch/image_analysis/MXAnalysisAfterFPGA.cpp
Filip Leonarski 06949caf1a
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v1.0.0-rc.112 (#18) 
This is an UNSTABLE release and not recommended for production use (please use rc.11 instead).

* jfjoch_broker: Experimental rotation (3D) indexing
* jfjoch_broker: Minor fix to error in optimizer potentially returning NaN values

Reviewed-on: #18
Co-authored-by: Filip Leonarski <filip.leonarski@psi.ch>
Co-committed-by: Filip Leonarski <filip.leonarski@psi.ch>
2025-11-30 17:39:22 +01:00

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// SPDX-FileCopyrightText: 2024 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
// SPDX-License-Identifier: GPL-3.0-only
#include "MXAnalysisAfterFPGA.h"
#include "spot_finding/DetModuleSpotFinder_cpu.h"
#include "../common/CUDAWrapper.h"
#include "spot_finding/SpotUtils.h"
#include "bragg_integration/BraggPredictionFactory.h"
double stddev(const std::vector<float> &v) {
if (v.size() <= 1)
return 0.0;
double mean = 0.0f;
for (const auto &i: v)
mean += i;
mean /= v.size();
double stddev = 0.0f;
for (const auto &i: v)
stddev += (i - mean) * (i - mean);
return sqrt(stddev / (v.size() - 1));
}
MXAnalysisAfterFPGA::MXAnalysisAfterFPGA(const DiffractionExperiment &in_experiment, IndexAndRefine &indexer)
: experiment(in_experiment), indexer(indexer) {
if (experiment.IsSpotFindingEnabled())
find_spots = true;
prediction = CreateBraggPrediction();
}
void MXAnalysisAfterFPGA::ReadFromFPGA(const DeviceOutput *output, const SpotFindingSettings &settings, size_t module_number) {
if (!find_spots || !settings.enable)
return;
StrongPixelSet strong_pixel_set;
strong_pixel_set.ReadFPGAOutput(experiment, *output);
strong_pixel_set.FindSpots(experiment, settings, spots, module_number);
}
void MXAnalysisAfterFPGA::ReadFromCPU(DeviceOutput *output, const SpotFindingSettings &settings, size_t module_number) {
std::unique_lock ul(read_from_cpu_mutex);
if (!find_spots)
return;
std::vector<float> d_map(RAW_MODULE_SIZE);
experiment.CalcSpotFinderResolutionMap(d_map.data(), module_number);
arr_mean.resize(RAW_MODULE_SIZE);
arr_sttdev.resize(RAW_MODULE_SIZE);
arr_valid_count.resize(RAW_MODULE_SIZE);
arr_strong_pixel.resize(RAW_MODULE_SIZE);
if (experiment.GetByteDepthImage() == 2)
FindSpots(*output,
settings,
d_map.data(),
arr_mean.data(),
arr_sttdev.data(),
arr_valid_count.data(),
arr_strong_pixel.data());
else if (experiment.GetByteDepthImage() == 4)
FindSpots<int32_t>(*output,
settings,
d_map.data(),
arr_mean.data(),
arr_sttdev.data(),
arr_valid_count.data(),
arr_strong_pixel.data());
else if (experiment.GetByteDepthImage() == 1)
FindSpots<int8_t>(*output,
settings,
d_map.data(),
arr_mean.data(),
arr_sttdev.data(),
arr_valid_count.data(),
arr_strong_pixel.data());
ReadFromFPGA(output, settings, module_number);
}
void MXAnalysisAfterFPGA::Process(DataMessage &message, const SpotFindingSettings& spot_finding_settings) {
if (!find_spots)
return;
SpotAnalyze(experiment, spot_finding_settings, spots, message);
if (spot_finding_settings.indexing)
indexer.ProcessImage(message, spot_finding_settings, message.image, *prediction);
spots.clear();
}
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