mirror of
https://github.com/slsdetectorgroup/slsDetectorPackage.git
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633 lines
20 KiB
C++
633 lines
20 KiB
C++
// SPDX-License-Identifier: LGPL-3.0-or-other
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// Copyright (C) 2021 Contributors to the SLS Detector Package
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#pragma once
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/************************************************
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* @file GeneralData.h
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* @short abstract for setting/getting properties of detector data
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***********************************************/
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/**
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*@short abstract for setting/getting properties of detector data
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*/
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#include "receiver_defs.h"
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#include "sls/ToString.h"
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#include "sls/logger.h"
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#include "sls/sls_detector_defs.h"
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#include <cmath> //ceil
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#include <vector>
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namespace sls {
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class GeneralData {
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public:
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slsDetectorDefs::detectorType detType{slsDetectorDefs::GENERIC};
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uint32_t nPixelsX{0};
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uint32_t nPixelsY{0};
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uint32_t headerSizeinPacket{0};
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/** Size of just data in 1 packet (in bytes) */
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uint32_t dataSize{0};
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uint32_t packetSize{0};
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/** Number of packets in an image (for each listening UDP port) */
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uint32_t packetsPerFrame{0};
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/** Image size (in bytes, for each listening UDP port) */
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uint32_t imageSize{0};
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uint64_t frameIndexMask{0};
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uint32_t frameIndexOffset{0};
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uint32_t packetIndexMask{0};
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uint32_t packetIndexOffset{0};
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uint32_t framesPerFile{0};
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uint32_t fifoDepth{0};
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int numUDPInterfaces{1};
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uint32_t headerPacketSize{0};
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/** Streaming (for ROI - mainly short Gotthard) */
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uint32_t nPixelsXComplete{0};
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/** Streaming (for ROI - mainly short Gotthard) */
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uint32_t nPixelsYComplete{0};
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/** Streaming (for ROI - mainly short Gotthard) - Image size (in bytes) */
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uint32_t imageSizeComplete{0};
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/** if standard header implemented in firmware */
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bool standardheader{false};
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uint32_t udpSocketBufferSize{RECEIVE_SOCKET_BUFFER_SIZE};
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uint32_t vetoDataSize{0};
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uint32_t vetoPacketSize{0};
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uint32_t vetoImageSize{0};
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uint32_t vetoHsize{0};
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uint32_t maxRowsPerReadout{0};
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uint32_t dynamicRange{16};
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bool tengigaEnable{false};
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uint32_t nAnalogSamples{0};
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uint32_t nDigitalSamples{0};
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slsDetectorDefs::readoutMode readoutType{slsDetectorDefs::ANALOG_ONLY};
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uint32_t adcEnableMaskOneGiga{BIT32_MASK};
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uint32_t adcEnableMaskTenGiga{BIT32_MASK};
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slsDetectorDefs::ROI detectorRoi{};
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uint32_t counterMask{0};
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GeneralData(){};
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virtual ~GeneralData(){};
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// Returns the pixel depth in byte, 4 bits being 0.5 byte
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float GetPixelDepth() { return float(dynamicRange) / 8; }
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void ThrowGenericError(std::string msg) const {
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throw RuntimeError(
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msg + std::string("This is a generic function that should be "
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"overloaded by a derived class"));
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}
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/**
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* Get Header Infomation (frame number, packet number)
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* @param index thread index for debugging purposes
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* @param packetData pointer to data
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* @param oddStartingPacket odd starting packet (gotthard)
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* @param frameNumber frame number
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* @param packetNumber packet number
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* @param bunchId bunch Id
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*/
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virtual void GetHeaderInfo(int index, char *packetData,
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bool oddStartingPacket, uint64_t &frameNumber,
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uint32_t &packetNumber,
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uint64_t &bunchId) const {
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frameNumber = ((uint32_t)(*((uint32_t *)(packetData))));
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frameNumber++;
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packetNumber = frameNumber & packetIndexMask;
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frameNumber = (frameNumber & frameIndexMask) >> frameIndexOffset;
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bunchId = -1;
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}
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virtual void SetDetectorROI(slsDetectorDefs::ROI i) {
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ThrowGenericError("SetDetectorROI");
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};
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/**@returns adc configured */
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virtual int GetAdcConfigured(int index, slsDetectorDefs::ROI i) const {
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ThrowGenericError("GetAdcConfigured");
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return 0;
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};
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virtual void SetDynamicRange(int dr) {
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ThrowGenericError("SetDynamicRange");
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};
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virtual void SetTenGigaEnable(bool tgEnable) {
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ThrowGenericError("SetTenGigaEnable");
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};
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virtual bool SetOddStartingPacket(int index, char *packetData) {
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ThrowGenericError("SetOddStartingPacket");
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return false;
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};
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virtual void SetNumberofInterfaces(const int n) {
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ThrowGenericError("SetNumberofInterfaces");
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};
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virtual void SetCounterMask(const int n) {
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ThrowGenericError("setCounterMask");
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};
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virtual int GetNumberOfAnalogDatabytes() {
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ThrowGenericError("GetNumberOfAnalogDatabytes");
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return 0;
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};
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virtual void SetNumberOfAnalogSamples(int n) {
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ThrowGenericError("SetNumberOfAnalogSamples");
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};
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virtual void SetNumberOfDigitalSamples(int n) {
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ThrowGenericError("SetNumberOfDigitalSamples");
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};
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virtual void SetOneGigaAdcEnableMask(int n) {
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ThrowGenericError("SetOneGigaAdcEnableMask");
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};
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virtual void SetTenGigaAdcEnableMask(int n) {
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ThrowGenericError("SetTenGigaAdcEnableMask");
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};
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virtual void SetReadoutMode(slsDetectorDefs::readoutMode r) {
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ThrowGenericError("SetReadoutMode");
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};
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};
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class GotthardData : public GeneralData {
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private:
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const int nChan = 128;
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const int nChipsPerAdc = 2;
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public:
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GotthardData() {
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detType = slsDetectorDefs::GOTTHARD;
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nPixelsY = 1;
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headerSizeinPacket = 6;
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framesPerFile = MAX_FRAMES_PER_FILE;
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UpdateImageSize();
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};
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/**
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* Get Header Infomation (frame number, packet number)
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* @param index thread index for debugging purposes
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* @param packetData pointer to data
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* @param oddStartingPacket odd starting packet (gotthard)
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* @param frameNumber frame number
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* @param packetNumber packet number
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* @param bunchId bunch Id
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*/
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void GetHeaderInfo(int index, char *packetData, bool oddStartingPacket,
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uint64_t &frameNumber, uint32_t &packetNumber,
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uint64_t &bunchId) const {
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if (nPixelsX == 1280) {
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frameNumber = *reinterpret_cast<uint32_t *>(packetData);
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if (oddStartingPacket)
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frameNumber++;
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packetNumber = frameNumber & packetIndexMask;
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frameNumber = (frameNumber & frameIndexMask) >> frameIndexOffset;
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} else {
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frameNumber = *reinterpret_cast<uint32_t *>(packetData);
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packetNumber = 0;
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}
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bunchId = -1;
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}
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/** @returns adc configured */
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int GetAdcConfigured(int index, slsDetectorDefs::ROI i) const {
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int adc = -1;
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// single adc
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if (i.xmin != -1) {
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// gotthard can have only one adc per detector enabled (or all)
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// adc = mid value/numchans also for only 1 roi
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adc = ((((i.xmax) + (i.xmin)) / 2) / (nChan * nChipsPerAdc));
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if ((adc < 0) || (adc > 4)) {
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LOG(logWARNING) << index
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<< ": Deleting ROI. "
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"Adc value should be between 0 and 4";
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adc = -1;
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}
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}
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LOG(logINFO) << "Adc Configured: " << adc;
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return adc;
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};
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/**
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* Set odd starting packet (gotthard)
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* @param index thread index for debugging purposes
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* @param packetData pointer to data
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* @returns true or false for odd starting packet number
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*/
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bool SetOddStartingPacket(int index, char *packetData) {
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bool oddStartingPacket = true;
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// care only if no roi
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if (nPixelsX == 1280) {
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uint32_t fnum = ((uint32_t)(*((uint32_t *)(packetData))));
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uint32_t firstData = ((uint32_t)(*((uint32_t *)(packetData + 4))));
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// first packet
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if (firstData == 0xCACACACA) {
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// packet number should be 0, but is 1 => so odd starting packet
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if (fnum & packetIndexMask) {
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oddStartingPacket = true;
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} else {
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oddStartingPacket = false;
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}
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}
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// second packet
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else {
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// packet number should be 1, but is 0 => so odd starting packet
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if (!(fnum & packetIndexMask)) {
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oddStartingPacket = true;
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} else {
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oddStartingPacket = false;
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}
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}
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}
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return oddStartingPacket;
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};
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void SetDetectorROI(slsDetectorDefs::ROI i) {
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detectorRoi = i;
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UpdateImageSize();
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};
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private:
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void UpdateImageSize() {
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// all adcs
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if (detectorRoi.xmin == -1) {
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nPixelsX = 1280;
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dataSize = 1280;
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packetsPerFrame = 2;
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frameIndexMask = 0xFFFFFFFE;
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frameIndexOffset = 1;
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packetIndexMask = 1;
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framesPerFile = MAX_FRAMES_PER_FILE;
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nPixelsXComplete = 0;
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nPixelsYComplete = 0;
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imageSizeComplete = 0;
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fifoDepth = 50000;
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} else {
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nPixelsX = 256;
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dataSize = 512;
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packetsPerFrame = 1;
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frameIndexMask = 0xFFFFFFFF;
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frameIndexOffset = 0;
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packetIndexMask = 0;
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framesPerFile = SHORT_MAX_FRAMES_PER_FILE;
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nPixelsXComplete = 1280;
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nPixelsYComplete = 1;
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imageSizeComplete = 1280 * 2;
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fifoDepth = 75000;
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}
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imageSize = int(nPixelsX * nPixelsY * GetPixelDepth());
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packetSize = headerSizeinPacket + dataSize;
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packetsPerFrame = imageSize / dataSize;
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};
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};
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class EigerData : public GeneralData {
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public:
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EigerData() {
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detType = slsDetectorDefs::EIGER;
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headerSizeinPacket = sizeof(slsDetectorDefs::sls_detector_header);
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framesPerFile = EIGER_MAX_FRAMES_PER_FILE;
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numUDPInterfaces = 2;
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headerPacketSize = 40;
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standardheader = true;
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maxRowsPerReadout = 256;
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UpdateImageSize();
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};
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void SetDynamicRange(int dr) {
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dynamicRange = dr;
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UpdateImageSize();
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}
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void SetTenGigaEnable(bool tgEnable) {
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tengigaEnable = tgEnable;
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UpdateImageSize();
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};
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private:
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void UpdateImageSize() {
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nPixelsX = (256 * 4) / numUDPInterfaces;
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nPixelsY = 256;
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dataSize = (tengigaEnable ? 4096 : 1024);
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packetSize = headerSizeinPacket + dataSize;
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imageSize = int(nPixelsX * nPixelsY * GetPixelDepth());
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packetsPerFrame = imageSize / dataSize;
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fifoDepth = (dynamicRange == 32 ? 100 : 1000);
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};
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};
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class JungfrauData : public GeneralData {
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public:
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JungfrauData() {
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detType = slsDetectorDefs::JUNGFRAU;
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headerSizeinPacket = sizeof(slsDetectorDefs::sls_detector_header);
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dataSize = 8192;
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packetSize = headerSizeinPacket + dataSize;
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framesPerFile = JFRAU_MAX_FRAMES_PER_FILE;
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fifoDepth = 2500;
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standardheader = true;
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maxRowsPerReadout = 512;
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UpdateImageSize();
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};
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void SetNumberofInterfaces(const int n) {
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numUDPInterfaces = n;
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UpdateImageSize();
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};
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private:
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void UpdateImageSize() {
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nPixelsX = (256 * 4);
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nPixelsY = (256 * 2) / numUDPInterfaces;
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imageSize = int(nPixelsX * nPixelsY * GetPixelDepth());
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packetsPerFrame = imageSize / dataSize;
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udpSocketBufferSize = (1000 * 1024 * 1024) / numUDPInterfaces;
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};
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};
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class Mythen3Data : public GeneralData {
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private:
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int ncounters{0};
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const int NCHAN = 1280;
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public:
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Mythen3Data() {
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detType = slsDetectorDefs::MYTHEN3;
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nPixelsY = 1;
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headerSizeinPacket = sizeof(slsDetectorDefs::sls_detector_header);
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framesPerFile = MYTHEN3_MAX_FRAMES_PER_FILE;
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fifoDepth = 50000;
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standardheader = true;
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udpSocketBufferSize = (1000 * 1024 * 1024);
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dynamicRange = 32;
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tengigaEnable = true;
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SetCounterMask(0x7);
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UpdateImageSize();
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};
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void SetDynamicRange(int dr) {
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dynamicRange = dr;
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UpdateImageSize();
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};
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void SetTenGigaEnable(bool tg) {
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tengigaEnable = tg;
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UpdateImageSize();
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};
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virtual void SetCounterMask(const int mask) {
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int n = __builtin_popcount(mask);
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if (n < 1 || n > 3) {
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throw RuntimeError("Invalid number of counters " +
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std::to_string(n) + ". Expected 1-3.");
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}
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counterMask = mask;
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ncounters = n;
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UpdateImageSize();
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};
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private:
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void UpdateImageSize() {
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nPixelsX = (NCHAN * ncounters); // max 1280 channels x 3 counters
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LOG(logINFO) << "nPixelsX: " << nPixelsX;
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imageSize = nPixelsX * nPixelsY * GetPixelDepth();
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// 10g
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if (tengigaEnable) {
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if (dynamicRange == 32 && ncounters > 1) {
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packetsPerFrame = 2;
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} else {
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packetsPerFrame = 1;
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}
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dataSize = imageSize / packetsPerFrame;
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}
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// 1g
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else {
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if (ncounters == 3) {
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dataSize = 768;
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} else {
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dataSize = 1280;
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}
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packetsPerFrame = imageSize / dataSize;
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}
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LOG(logINFO) << "Packets Per Frame: " << packetsPerFrame;
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packetSize = headerSizeinPacket + dataSize;
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LOG(logINFO) << "PacketSize: " << packetSize;
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};
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};
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class Gotthard2Data : public GeneralData {
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public:
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Gotthard2Data() {
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detType = slsDetectorDefs::GOTTHARD2;
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nPixelsX = 128 * 10;
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nPixelsY = 1;
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headerSizeinPacket = sizeof(slsDetectorDefs::sls_detector_header);
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dataSize = 2560; // 1280 channels * 2 bytes
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framesPerFile = GOTTHARD2_MAX_FRAMES_PER_FILE;
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fifoDepth = 50000;
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standardheader = true;
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vetoDataSize = 160;
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vetoHsize = 16;
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UpdateImageSize();
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};
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void SetNumberofInterfaces(const int n) {
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numUDPInterfaces = n;
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UpdateImageSize();
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};
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/**
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* Get Header Infomation (frame number, packet number) for veto packets
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* @param index thread index for debugging purposes
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* @param packetData pointer to data
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* @param oddStartingPacket odd starting packet (gotthard)
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* @param frameNumber frame number
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* @param packetNumber packet number
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* @param bunchId bunch Id
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*/
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void GetHeaderInfo(int index, char *packetData, bool oddStartingPacket,
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uint64_t &frameNumber, uint32_t &packetNumber,
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uint64_t &bunchId) const {
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frameNumber = *reinterpret_cast<uint64_t *>(packetData);
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bunchId = *reinterpret_cast<uint64_t *>(packetData + 8);
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packetNumber = 0;
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};
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private:
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void UpdateImageSize() {
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packetSize = headerSizeinPacket + dataSize;
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imageSize = int(nPixelsX * nPixelsY * GetPixelDepth());
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packetsPerFrame = imageSize / dataSize;
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vetoPacketSize = vetoHsize + vetoDataSize;
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vetoImageSize = vetoDataSize * packetsPerFrame;
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udpSocketBufferSize = (1000 * 1024 * 1024) / numUDPInterfaces;
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};
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};
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class ChipTestBoardData : public GeneralData {
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private:
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const int NCHAN_DIGITAL = 64;
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const int NUM_BYTES_PER_ANALOG_CHANNEL = 2;
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int nAnalogBytes = 0;
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public:
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/** Constructor */
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ChipTestBoardData() {
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detType = slsDetectorDefs::CHIPTESTBOARD;
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nPixelsY = 1; // number of samples
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headerSizeinPacket = sizeof(slsDetectorDefs::sls_detector_header);
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frameIndexMask = 0xFFFFFF; // 10g
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frameIndexOffset = 8; // 10g
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packetIndexMask = 0xFF; // 10g
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framesPerFile = CTB_MAX_FRAMES_PER_FILE;
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fifoDepth = 2500;
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standardheader = true;
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UpdateImageSize();
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};
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public:
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int GetNumberOfAnalogDatabytes() { return nAnalogBytes; };
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void SetNumberOfAnalogSamples(int n) {
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nAnalogSamples = n;
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UpdateImageSize();
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};
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void SetNumberOfDigitalSamples(int n) {
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nDigitalSamples = n;
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UpdateImageSize();
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};
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void SetOneGigaAdcEnableMask(int n) {
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adcEnableMaskOneGiga = n;
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UpdateImageSize();
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};
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void SetTenGigaAdcEnableMask(int n) {
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adcEnableMaskTenGiga = n;
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UpdateImageSize();
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};
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void SetReadoutMode(slsDetectorDefs::readoutMode r) {
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readoutType = r;
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UpdateImageSize();
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};
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void SetTenGigaEnable(bool tg) {
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tengigaEnable = tg;
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UpdateImageSize();
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};
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private:
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void UpdateImageSize() {
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nAnalogBytes = 0;
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int nDigitalBytes = 0;
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int nAnalogChans = 0, nDigitalChans = 0;
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// analog channels (normal, analog/digital readout)
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if (readoutType == slsDetectorDefs::ANALOG_ONLY ||
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readoutType == slsDetectorDefs::ANALOG_AND_DIGITAL) {
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uint32_t adcEnableMask =
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(tengigaEnable ? adcEnableMaskTenGiga : adcEnableMaskOneGiga);
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nAnalogChans = __builtin_popcount(adcEnableMask);
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nAnalogBytes =
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nAnalogChans * NUM_BYTES_PER_ANALOG_CHANNEL * nAnalogSamples;
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LOG(logDEBUG1) << " Number of Analog Channels:" << nAnalogChans
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<< " Databytes: " << nAnalogBytes;
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}
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// digital channels
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if (readoutType == slsDetectorDefs::DIGITAL_ONLY ||
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readoutType == slsDetectorDefs::ANALOG_AND_DIGITAL) {
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nDigitalChans = NCHAN_DIGITAL;
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nDigitalBytes = (sizeof(uint64_t) * nDigitalSamples);
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LOG(logDEBUG1) << "Number of Digital Channels:" << nDigitalChans
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<< " Databytes: " << nDigitalBytes;
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}
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nPixelsX = nAnalogChans + nDigitalChans;
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dataSize = tengigaEnable ? 8144 : UDP_PACKET_DATA_BYTES;
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packetSize = headerSizeinPacket + dataSize;
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imageSize = nAnalogBytes + nDigitalBytes;
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packetsPerFrame = ceil((double)imageSize / (double)dataSize);
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|
|
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LOG(logDEBUG1) << "Total Number of Channels:" << nPixelsX
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<< " Databytes: " << imageSize;
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|
};
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|
};
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class MoenchData : public GeneralData {
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|
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private:
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const int NUM_BYTES_PER_ANALOG_CHANNEL = 2;
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|
|
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public:
|
|
MoenchData() {
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|
detType = slsDetectorDefs::MOENCH;
|
|
headerSizeinPacket = sizeof(slsDetectorDefs::sls_detector_header);
|
|
frameIndexMask = 0xFFFFFF;
|
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framesPerFile = MOENCH_MAX_FRAMES_PER_FILE;
|
|
fifoDepth = 2500;
|
|
standardheader = true;
|
|
UpdateImageSize();
|
|
};
|
|
|
|
void SetNumberOfAnalogSamples(int n) {
|
|
nAnalogSamples = n;
|
|
UpdateImageSize();
|
|
};
|
|
|
|
void SetOneGigaAdcEnableMask(int n) {
|
|
adcEnableMaskOneGiga = n;
|
|
UpdateImageSize();
|
|
};
|
|
|
|
void SetTenGigaAdcEnableMask(int n) {
|
|
adcEnableMaskTenGiga = n;
|
|
UpdateImageSize();
|
|
};
|
|
|
|
void SetTenGigaEnable(bool tg) {
|
|
tengigaEnable = tg;
|
|
UpdateImageSize();
|
|
};
|
|
|
|
private:
|
|
void UpdateImageSize() {
|
|
uint32_t adcEnableMask =
|
|
(tengigaEnable ? adcEnableMaskTenGiga : adcEnableMaskOneGiga);
|
|
|
|
// count number of channels in x, each adc has 25 channels each
|
|
int nchanTop = __builtin_popcount(adcEnableMask & 0xF0F0F0F0) * 25;
|
|
int nchanBot = __builtin_popcount(adcEnableMask & 0x0F0F0F0F) * 25;
|
|
nPixelsX = nchanTop > 0 ? nchanTop : nchanBot;
|
|
|
|
// if both top and bottom adcs enabled, rows = 2
|
|
int nrows = 1;
|
|
if (nchanTop > 0 && nchanBot > 0) {
|
|
nrows = 2;
|
|
}
|
|
nPixelsY = nAnalogSamples / 25 * nrows;
|
|
LOG(logINFO) << "Number of Pixels: [" << nPixelsX << ", " << nPixelsY
|
|
<< "]";
|
|
|
|
dataSize = tengigaEnable ? 8144 : UDP_PACKET_DATA_BYTES;
|
|
packetSize = headerSizeinPacket + dataSize;
|
|
imageSize = nPixelsX * nPixelsY * NUM_BYTES_PER_ANALOG_CHANNEL;
|
|
packetsPerFrame = ceil((double)imageSize / (double)dataSize);
|
|
|
|
LOG(logDEBUG) << "Databytes: " << imageSize;
|
|
};
|
|
};
|
|
|
|
} // namespace sls
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