191 lines
6.0 KiB
C++
191 lines
6.0 KiB
C++
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/* **************************************************************************
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Author: Markus Rosenstihl
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Created: February 2017
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****************************************************************************/
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#include "machines/hardware.h"
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#include "core/core.h"
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#include "drivers/PTS-Synthesizer/PTS.h"
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#include "drivers/Spectrum-MI40xxSeries/Spectrum-MI40xxSeries.h"
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#include "drivers/SpinCore-PulseBlaster24Bit/SpinCore-PulseBlaster24Bit.h"
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#include <boost/property_tree/ptree.hpp>
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#include <boost/property_tree/ini_parser.hpp>
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#include <iostream>
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#include <drivers/dummy/dummy.h>
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/**
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\defgroup damaris Backend configurable by config files
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\ingroup machines
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Uses Spincore Pulseblaster 24 Bit and Spectrum MI4021, PTS310 with cabledriver with phase control and a synchronization board
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or dummy or tempcontrol or ...
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\li line 0 for gate
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\li line 1 for pulse
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\li line 17 for trigger
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\li line 16 for synchronization
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\par Starting the hardware
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This procedure should assure the correct initialisation of the hardware:
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\li Switch off main switches of SpinCore Pulseblaster and Computer (the main switch of the computer is at the rear)
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\li Switch on Computer and start Linux
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@{
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*/
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class Mobile_hardware: public hardware
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{
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boost::property_tree::ptree device_configuration;
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public:
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Mobile_hardware()
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{
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}
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result* experiment(const state& exp)
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{
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result* r = NULL;
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for (size_t tries = 0; r == NULL && core::term_signal == 0 && tries < 102; ++tries)
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{
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state* work_copy = exp.copy_flat();
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if (work_copy == NULL)
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return new error_result(1, "could not create work copy of experiment sequence");
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try
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{
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/**
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* this section configures the frequency generator
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*/
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std::string fg_driver = device_configuration.get<std::string>("PTS.driver");
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if (fg_driver == "pts310") {
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PTS* the_fg;
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the_fg = new PTS_latched(0);
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}
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else if (fg_driver == "dummy"){
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dummy* the_fg;
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the_fg = new dummy();
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}
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if (the_fg != NULL)
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the_fg->set_frequency(*work_copy);
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/**
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* this section configures the ADC driver
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*/
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std::string adc_driver = device_configuration.get<std::string>("ADC.driver");
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if (adc_driver == "mi40xx") {
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ttlout trigger;
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trigger.id = device_configuration.get<int>("ADC.id");
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trigger.ttls = 1 << device_configuration.get<int>("ADC.trigger_line"); /* trigger on line 17 */
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the_adc = new SpectrumMI40xxSeries(trigger);
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}
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else if (adc_driver == "dummy") {
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dummy* my_adc;
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the_adc = new dummy();
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}
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if (the_adc != NULL)
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the_adc->set_daq(*work_copy);
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/**
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* this section configures the pulse generator
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*/
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std::string pg_driver = device_configuration.get<std::string>("PB.driver");
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if (pg_driver =="pb24") {
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// device_id=0, clock=100MHz, sync_mask: Bit 16
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int pg_id = device_configuration.get<int>("PB.id");
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unsigned int pg_sync = device_configuration.get<unsigned int>("PB.sync_mask");
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double pg_clock = device_configuration.get<double>("PB.refclock");
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SpinCorePulseBlaster24Bit* the_pg;
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if (pg_sync == 128){
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the_pg = new SpinCorePulseBlaster24Bit(pg_id, pg_clock, 0);
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the_pg->run_pulse_program(*work_copy);
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}
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else {
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the_pg = new SpinCorePulseBlaster24Bit(pg_id, pg_clock, 1 << pg_sync);
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the_pg->run_pulse_program_w_sync(*work_copy, the_adc->get_sample_clock_frequency());
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}
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}
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else if (pg_driver == "dummy"){
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dummy* the_pg = new dummy();
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the_pg->run_pulse_program(*work_copy);
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}
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//
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if (the_pg == NULL) {
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throw(DamarisException("Pulse generator not set, aborting"));
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}
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// wait for pulse generator
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the_pg->wait_till_end();
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// after that, the result must be available
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if (the_adc != NULL)
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r = the_adc->get_samples();
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else
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r = new adc_result(1, 0, NULL);
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}
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catch (const RecoverableException &e)
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{
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r = new error_result(1, e.what());
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}
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delete work_copy;
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if (core::quit_signal != 0)
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break;
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}
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return r;
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}
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virtual ~Mobile_hardware()
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{
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if (the_adc != NULL)
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delete the_adc;
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if (the_fg != NULL)
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delete the_fg;
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if (the_pg != NULL)
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delete the_pg;
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}
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};
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/**
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\brief brings standard core together with the Mobile NMR hardware
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*/
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class Mobile_core: public core
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{
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std::string the_name;
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public:
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Mobile_core(const core_config& conf) :
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core(conf)
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{
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the_hardware = new Mobile_hardware();
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the_name = "Mobile core";
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}
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virtual const std::string& core_name() const
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{
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return the_name;
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}
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};
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/**
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@}
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*/
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int main(int argc, const char** argv)
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{
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int return_result = 0;
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try
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{
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core_config my_conf(argv, argc);
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// setup input and output
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Mobile_core my_core(my_conf);
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// start core application
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my_core.run();
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}
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catch (const DamarisException& e)
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{
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fprintf(stderr, "%s\n", e.what());
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return_result = 1;
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}
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return return_result;
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}
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