/* ************************************************************************** Author: Achim Gaedke Created: June 2004 ****************************************************************************/ #include "machines/hardware.h" #include "core/core.h" #include "drivers/Tecmag-DAC20/DAC20.h" #include "drivers/PTS-Synthesizer/PTS.h" #include "drivers/Spectrum-M2i40xxSeries/Spectrum-M2i40xxSeries.h" #include "drivers/SpinCore-PulseBlaster24Bit/SpinCore-PulseBlaster24Bit.h" /** \defgroup fc1neu_machine FC1neu NMR Spectrometer \ingroup machines Uses Spincore Pulseblaster 24 Bit and Spectrum M2i4021, and some DACs \par Starting the hardware This procedure should assure the correct initialisation of the hardware: \li Switch off main switches of SpinCore Pulseblaster and Computer (the main switch of the computer is at the rear) \li Switch on Computer and start Windows or linux @{ */ /** line 0 for gate line 1 for pulse line 22 for trigger line 3 free */ class FC1_hardware: public hardware { SpinCorePulseBlaster24Bit* my_pulseblaster; SpectrumM2i40xxSeries* my_adc; public: FC1_hardware() { ttlout trigger; trigger.id = 0; trigger.ttls = 0x400000; /* line 22 */ // my_adc = new SpectrumM2i40xxSeries(trigger, 1e8); my_pulseblaster = new SpinCorePulseBlaster24Bit(0, 1e8, 0); PTS* my_pts = new PTS_latched(0); // ID of PTS_analogout 0 the_fg = my_pts; the_pg = my_pulseblaster; the_adc = my_adc; DAC20* dac; dac = new DAC20(1); list_dacs.push_back(dac); dac = new DAC20(2); dac->set_latch_bit(19); list_dacs.push_back(dac); dac = new DAC20(3); dac->set_latch_bit(20); list_dacs.push_back(dac); dac = new DAC20(4); dac->set_latch_bit(21); list_dacs.push_back(dac); } /* virtual */ //void experiment_run_pulse_program(state* work_copy) { //my_pulseblaster->run_pulse_program_w_sync(*work_copy, my_adc->get_sample_clock_frequency()); //} /** override to implement digital sampling */ result* experiment(const state& exp) { result* r = NULL; for (size_t tries = 0; r == NULL && core::term_signal == 0 && tries < 102; ++tries) { state* work_copy = exp.copy_flat(); if (work_copy == NULL) return new error_result(1, "couldn't create work copy of experiment sequence"); try { if (the_fg != NULL) the_fg->set_frequency(*work_copy); if (the_adc != NULL) the_adc->set_daq(*work_copy); experiment_prepare_dacs(work_copy); // the pulse generator is necessary experiment_run_pulse_program(work_copy); // wait for pulse generator the_pg->wait_till_end(); // after that, the result must be available if (the_adc != NULL) r = the_adc->get_samples(); else r = new adc_result(1, 0, NULL); // todo: implement digital sampling here } catch (const DamarisException &e) { r = new error_result(1, e.what()); } delete work_copy; if (core::quit_signal != 0) break; } return r; } virtual ~FC1_hardware() { if (the_adc != NULL) delete the_adc; if (the_pg != NULL) delete the_pg; if (the_fg != NULL) delete the_fg; } }; /** \brief brings standard core together with the Mobile NMR hardware */ class FC1_core: public core { std::string the_name; public: FC1_core(const core_config& conf) : core(conf), the_name("FC1 core") { the_hardware = new FC1_hardware(); } virtual const std::string& core_name() const { return the_name; } }; /** @} */ int main(int argc, const char** argv) { int return_result = 0; try { core_config my_conf(argv, argc); // setup input and output FC1_core my_core(my_conf); // start core application my_core.run(); } catch (const DamarisException& e) { fprintf(stderr, "%s\n", e.what()); return_result = 1; } return return_result; }