leonarski_f
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This is an UNSTABLE release. The release has significant modifications for data processing - in case of troubles go back to 1.0.0-rc.144. jfjoch_process: Generate a dedicated file (_process.h5), which can be used as a replacement for the _master.h5 file for a reanalyzed dataset. jfjoch_process: Improve the performance of scaling and merging, implement on the fly scaling. jfjoch_writer: All final data analysis results are repopulated in the _master.h5 file. jfjoch_scale: Dedicated tool for rescaling/merging existing data. jfjoch_viewer: Fix bugs where pixel labels where displayed on a wrong pixel. WARNING! Scaling and merging are experimental at the moment, and may not provide reasonable results for the time being. Reviewed-on: #56
58 lines
2.4 KiB
C++
58 lines
2.4 KiB
C++
// SPDX-FileCopyrightText: 2024 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
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// SPDX-License-Identifier: GPL-3.0-only
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#pragma once
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#include "../fpga/pcie_driver/jfjoch_fpga.h"
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#include <cstdint>
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#include <cstddef>
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#include <chrono>
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#include <array>
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constexpr float WVL_1A_IN_KEV = 12.39854f;
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constexpr size_t CONVERTED_MODULE_LINES = 514;
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constexpr size_t CONVERTED_MODULE_COLS = 1030;
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constexpr size_t CONVERTED_MODULE_SIZE = CONVERTED_MODULE_LINES * CONVERTED_MODULE_COLS;
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constexpr size_t JUNGFRAU_PACKET_SIZE_BYTES = 8192;
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constexpr int MAX_IMAGE_NUMBER = 2*1024*1024;
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constexpr std::chrono::nanoseconds MIN_COUNT_TIME = std::chrono::microseconds(3);
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constexpr std::chrono::nanoseconds MIN_STORAGE_CELL_DELAY = std::chrono::nanoseconds(2100);
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constexpr std::chrono::nanoseconds MIN_FRAME_TIME_JUNGFRAU_HALF_SPEED = std::chrono::microseconds(1000);
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constexpr std::chrono::nanoseconds MIN_FRAME_TIME_JUNGFRAU_FULL_SPEED = std::chrono::microseconds(470);
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constexpr std::chrono::nanoseconds MIN_FRAME_TIME_EIGER = std::chrono::microseconds(250);
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constexpr std::chrono::nanoseconds MAX_COUNT_TIME_JUNGFRAU = std::chrono::microseconds(2000);
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constexpr std::chrono::nanoseconds FRAME_TIME_PEDE_G1G2 = std::chrono::microseconds(10*1000);
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constexpr std::chrono::nanoseconds PSI_JUNGFRAU_READOUT_TIME = std::chrono::microseconds(20);
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constexpr std::chrono::nanoseconds PSI_EIGER_READOUT_TIME = std::chrono::microseconds(20);
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constexpr std::chrono::nanoseconds DARK_MASK_FRAME_TIME = std::chrono::milliseconds(10);
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constexpr float MIN_ENERGY_KEV = 0.001;
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constexpr float MAX_ENERGY_KEV = 500.0;
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constexpr float DEFAULT_G0_FACTOR = 41.0f;
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constexpr float DEFAULT_G1_FACTOR = -1.439f;
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constexpr float DEFAULT_G2_FACTOR = -0.1145f;
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constexpr float DEFAULT_HG0_FACTOR = 100.0f;
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constexpr int MAX_SPOT_COUNT = 64 * 1024;
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constexpr uint32_t MASK_PEDESTAL_G0_RMS_LIMIT = (1U<<4);
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constexpr size_t PEDESTAL_MIN_IMAGE_COUNT = 128;
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constexpr uint16_t PEDESTAL_WRONG = (UINT16_MAX);
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constexpr size_t PEDESTAL_G0_WRONG_GAIN_ALLOWED_COUNT = 2;
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constexpr size_t MESSAGE_SIZE_FOR_START_END = (256*1024*1024); // pessimistic highest value
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constexpr float LAB6_CELL_A = 4.156468f;
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// Ice ring resolution taken from:
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// Moreau, Atakisi, Thorne, Acta Cryst D77, 2021, 540,554
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// https://journals.iucr.org/d/issues/2021/04/00/tz5104/index.html
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constexpr std::array<float, 11> ICE_RING_RES_A = {3.895, 3.661, 3.438, 2.667, 2.249, 2.068, 1.947, 1.916, 1.882, 1.719, 1.522};
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