2014-06-26 11:10:51 +00:00
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#include "SpinCore-PulseBlaster.h"
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#include "PulseBlasterProgram.h"
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#include "core/core.h"
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#ifndef SP_DEBUG
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# define SP_DEBUG 0
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#endif
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#ifdef __linux__
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# include <sys/types.h>
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# include <sys/stat.h>
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# include <unistd.h>
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SpinCorePulseBlasterLowlevel::SpinCorePulseBlasterLowlevel() {
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device_file_descriptor=open("/dev/" PULSEBLASTER_DEVICE_FILE_NAME,O_NONBLOCK|O_RDWR);
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if (device_file_descriptor<0)
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throw SpinCorePulseBlaster_error("could not open the device /dev/" PULSEBLASTER_DEVICE_FILE_NAME "\n");
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}
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SpinCorePulseBlasterLowlevel::~SpinCorePulseBlasterLowlevel() {
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close(device_file_descriptor);
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}
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int SpinCorePulseBlasterLowlevel::write_data(const unsigned char* data, size_t size) {
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size_t orig_size=size;
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const unsigned int max_chunk_size=100*1<<10; // 100k commands
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#if SP_DEBUG
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stopwatch write_data_time;
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write_data_time.start();
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#endif
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while (size>0) {
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int result=write(device_file_descriptor, data, ((size>max_chunk_size)?max_chunk_size:size) );
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// error handling
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if (result==-1) throw SpinCorePulseBlaster_error(std::string("write_data: error \"")+strerror(errno)+"\"");
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if (result<0) {
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char errorno[256];
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snprintf(errorno, 256, "%d",result);
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throw SpinCorePulseBlaster_error(std::string("write_register: ioctl returned negative value = ")+errorno);
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}
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// if (result==0) do some retry magic....
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// success!
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data+=result;
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size-=result;
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}
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#if SP_DEBUG
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fprintf(stderr, "wrote %d bytes in %f s\n", orig_size, write_data_time.elapsed());
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#endif
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return orig_size;
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}
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#endif
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#ifdef __CYGWIN__
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SpinCorePulseBlasterLowlevel::SpinCorePulseBlasterLowlevel() {
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const char spincore_dll[]="spinapi";
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const char sp_outp_func_name[]="pb_outp";
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const char sp_inp_func_name[]="pb_inp";
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const char sp_Close_func_name[]="pb_close";
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const char sp_Init_func_name[]="pb_init";
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PBP_DLL = LoadLibrary(spincore_dll);
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if (PBP_DLL==NULL) {
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throw SpinCorePulseBlaster_error(std::string("could not open ")+spincore_dll+" library\n");
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}
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sp_outp = (__attribute__((stdcall))int(*)(unsigned short, int))GetProcAddress(PBP_DLL,sp_outp_func_name);
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if (sp_outp==NULL) {
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FreeLibrary(PBP_DLL);
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PBP_DLL=NULL;
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throw SpinCorePulseBlaster_error("could not access Pulseblaster PCI communication function sp_outp");
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}
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sp_inp = (__attribute__((stdcall))int(*)(unsigned short))GetProcAddress(PBP_DLL, sp_inp_func_name);
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if (sp_inp==NULL) {
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FreeLibrary(PBP_DLL);
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PBP_DLL=NULL;
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throw SpinCorePulseBlaster_error("could not access Pulseblaster PCI communication function sp_inp");
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}
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sp_Init = (__attribute__((stdcall))int(*)())GetProcAddress(PBP_DLL,sp_Init_func_name);
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if (sp_Init==NULL) {
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FreeLibrary(PBP_DLL);
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PBP_DLL=NULL;
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throw SpinCorePulseBlaster_error("could not access Pulseblaster Init function");
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}
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sp_Close = (__attribute__((stdcall))int(*)())GetProcAddress(PBP_DLL, sp_Close_func_name);
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if (sp_Close==NULL) {
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FreeLibrary(PBP_DLL);
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PBP_DLL=NULL;
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throw SpinCorePulseBlaster_error("could not access Pulseblaster Close function");
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}
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#if SP_DEBUG
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__attribute__((stdcall))void (*sp_set_debug)(int flag);
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sp_set_debug=(__attribute__((stdcall))void(*)(int))GetProcAddress(PBP_DLL,"pb_set_debug");
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if (sp_set_debug!=NULL) sp_set_debug(1);
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else fprintf(stderr, "could not load debug function from %s DLL\n",spincore_dll);
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#endif
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int result=sp_Init();
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if (result!=0) {
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fprintf(stderr, "sp_Init returned %d\n", result);
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FreeLibrary(PBP_DLL);
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PBP_DLL=NULL;
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throw SpinCorePulseBlaster_error("could not initialise Pulseblaster card");
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}
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}
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SpinCorePulseBlasterLowlevel::~SpinCorePulseBlasterLowlevel() {
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if (sp_Close!=NULL) sp_Close();
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sp_inp=NULL;
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sp_outp=NULL;
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sp_Close=NULL;
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sp_Init=NULL;
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if (PBP_DLL!=NULL) FreeLibrary(PBP_DLL);
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}
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#endif
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void SpinCorePulseBlaster::reset_flags(unsigned int flags) {
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unsigned char data[40];
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data[0]=(flags&0xff000000)>>24;
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data[1]=(flags&0xff0000)>>16;
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data[2]=(flags&0xff00)>>8;
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data[3]=flags&0xff;
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write_register(0,0); // dev reset
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write_register(2,4); // bytes per word
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write_register(3,0xFF); // dev to program
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write_register(4,0); //reset address counter
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write_data(data,4);
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write_register(5,0); //strobe clock
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write_register(5,0); //strobe clock
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}
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void SpinCorePulseBlaster::set_program(const std::string& data) {
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if (command_length==0)
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throw SpinCorePulseBlaster_error("command length not set");
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if (data.size()%command_length!=0)
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throw SpinCorePulseBlaster_error("program data length does not match command length");
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if (data.size()/command_length>max_commands) {
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throw SpinCorePulseBlaster_error("program length exceeds maximum command number");
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}
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write_register(0,0); // dev reset
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write_register(2,command_length); // bytes per word
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write_register(3,0); // dev to program
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write_register(4,0); //reset address counter
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write_data(data);
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}
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void SpinCorePulseBlaster::run_pulse_program_w_sync(state& exp, double sync_freq) {
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// set duration
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state_sequent* seq=dynamic_cast<state_sequent*>(&exp);
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if (seq==NULL)
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throw pulse_exception("pulse program should be a sequence");
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state_iterator i(*seq);
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while (!i.is_last()) i.next_state();
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duration=i.get_time();
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#if SP_DEBUG
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fprintf(stderr, "caluclated time of pulse program is %g\n",duration);
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#endif
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PulseBlasterProgram* prog=create_program(exp);
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if (prog==NULL)
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throw pulse_exception("could not create PulseBlasterProgram");
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if (sync_freq>0 && sync_mask!=0) {
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// synchronization with help of board P136
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// P136 derives a single trigger slope from sampling clock of Spectrum MI4021
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// using push_front(): we have to add the two commands in reverse order
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PulseBlasterCommand* c;
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// second command: clear sync mask
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c=prog->create_command();
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c->ttls=0x0;
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c->instruction=SpinCorePulseBlaster::CONTINUE;
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c->length=shortest_pulse;
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prog->push_front(c);
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// first command: wait for monoflop on P136 up again
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2017-01-16 16:01:31 +00:00
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// the monoflop will open if ADC sample clock goes through zero voltage
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// this synchronizes the start of the pulse program with the sampling clock
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2014-06-26 11:10:51 +00:00
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c=prog->create_command();
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c->ttls=sync_mask;
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c->instruction=SpinCorePulseBlaster::WAIT;
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c->length=shortest_pulse;
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prog->push_front(c);
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2017-01-16 16:01:31 +00:00
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if (1) {
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// zeroth command: pulse before WAIT opcode needs to be at least 120ns
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// otherwise the WAIT is ignored and the program keeps repeating until pb_stop()
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// reported to SpinCore (Contact Request 2016-12-19 at 1482143561)
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// markusro: When is this necessary? (TODO)
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2014-06-26 11:10:51 +00:00
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c=prog->create_command();
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c->ttls=sync_mask;
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c->instruction=SpinCorePulseBlaster::CONTINUE;
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2017-01-16 16:01:31 +00:00
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//c->length=shortest_pulse+2; // markusro: why +2 ??
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c->length=12; // markusro: why +2 ??
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2014-06-26 11:10:51 +00:00
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prog->push_front(c);
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}
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duration+=2.0*shortest_pulse/clock+1.0/sync_freq;
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}
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// workaround for another PulseBlaster Bug:
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// extra CONTINUE opcodes with little more duration to force proper initialization of all internal counters
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while ((prog->size()>1 && (*(++(prog->begin())))->instruction!=CONTINUE) ||
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(prog->size()>0 && (*(prog->begin()))->instruction!=CONTINUE)) {
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PulseBlasterCommand* c;
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c=prog->create_command();
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c->instruction=SpinCorePulseBlaster::CONTINUE;
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c->length=shortest_pulse+2;
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prog->push_front(c);
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duration+=(1.0+shortest_pulse)/clock;
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}
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// end: clear flags and stop pulseblaster
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prog->push_back(prog->create_command());
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prog->push_back(prog->create_command());
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prog->back()->instruction=STOP;
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#if SP_DEBUG
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prog->write_to_file(stderr);
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#endif
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run_pulse_program(*prog);
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time_running.start();
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duration+=3.0*shortest_pulse/clock;
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delete prog;
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}
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void SpinCorePulseBlaster::wait_till_end() {
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double waittime=duration-time_running.elapsed();
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double timeout=(waittime>10)?(waittime*0.01):0.1;
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#if SP_DEBUG
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fprintf(stderr,"waiting while pulseprogram running (%f)...",waittime);
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#endif
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// Bit zero is stopped; bit one is reset; bit two is running; bit three is waiting.
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int status=get_status();
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#if SP_DEBUG
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fprintf(stderr,"status=0x%04x ",status);
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#endif
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// with synchronization, also waiting status can occur
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while (waittime>-timeout && core::term_signal==0 && (status&(RUNNING|WAITING))!=0) {
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if (waittime<1e-2)
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waittime=1e-2;
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else
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waittime*=0.9;
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#if SP_DEBUG
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fprintf(stderr,"sleeping for %g seconds...",waittime);
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fflush(stderr);
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#endif
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timespec nanosleep_time;
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nanosleep_time.tv_sec=(time_t)floor(waittime);
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nanosleep_time.tv_nsec=(long)ceil((waittime-nanosleep_time.tv_sec)*1e9);
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nanosleep(&nanosleep_time,NULL);
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waittime=duration-time_running.elapsed();
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status=get_status();
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#if SP_DEBUG
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fprintf(stderr,"status: 0x%04x\n",status);
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fflush(stderr);
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#endif
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}
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if (core::term_signal!=0) {
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//reset pulseblaster
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stop();
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reset_flags(0);
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}
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if (waittime<=-timeout) {
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fprintf(stderr, "Pulseblaster: status=0x%04x, ran into timeout after %f s\nPulseblaster: aborting...", status, time_running.elapsed());
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stop();
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reset_flags(0);
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status=get_status();
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fprintf(stderr,"now: status=0x%04x\n", status);
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}
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#if SP_DEBUG
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fprintf(stderr,"done\n");
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#endif
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}
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