autotune_tmc.py

import math, logging, os
from enum import Enum
from . import tmc

# Autotune config parameters
TUNING_GOAL = 'auto'
EXTRA_HYSTERESIS = 0
TBL = 1
TOFF = 0
SGT = 1
SG4_THRS = 40
VOLTAGE = 24.0
OVERVOLTAGE_VTH = None

# Generic tuning parameters
COOLSTEP_THRS_FACTOR = 0.6
FULLSTEP_THRS_FACTOR = 1.2
MULTISTEP_FILT = True

# PWM parameters
PWM_AUTOSCALE = True # Setup pwm autoscale even if we won't use PWM, because it
                     # gives more data about the motor and is needed for CoolStep.
PWM_AUTOGRAD = True
PWM_REG = 15
PWM_LIM = 4
PWM_FREQ_TARGET = 55e3 # Default to 55 kHz

# SpreadCycle parameters
TPFD = 0

# CoolStep parameters
FAST_STANDSTILL = True
SMALL_HYSTERESIS = False
SEMIN = 2
SEMAX = 2
SEUP = 3
SEDN = 2
SEIMIN = 0 # If we drop to 1/4 current, high accels don't work right
SFILT = 0
IHOLDDELAY = 12
IRUNDELAY = 0

# High speed parameters
VHIGHFS = False
VHIGHCHM = False # Even though we are fullstepping, we want SpreadCycle control


TRINAMIC_DRIVERS = ["tmc2130", "tmc2208", "tmc2209", "tmc2240", "tmc2660", "tmc5160"]

AUTO_PERFORMANCE_MOTORS = {'stepper_x', 'stepper_y', 'stepper_x1', 'stepper_y1', 'stepper_a', 'stepper_b', 'stepper_c'}

class TuningGoal(str, Enum):
    AUTO = "auto" # This is the default: automatically choose SILENT for Z and PERFORMANCE for X/Y
    AUTOSWITCH = "autoswitch" # Experimental mode that use StealthChop at low speed and switch to SpreadCycle when needed
    SILENT = "silent" # StealthChop at all speeds
    PERFORMANCE = "performance" # SpreadCycle at all speeds

class AutotuneTMC:
    def __init__(self, config):
        self.printer = config.get_printer()

        # Load motor database
        pconfig = self.printer.lookup_object('configfile')
        dirname = os.path.dirname(os.path.realpath(__file__))
        filename = os.path.join(dirname, 'motor_database.cfg')
        try:
            motor_db = pconfig.read_config(filename)
        except Exception:
            raise config.error("Cannot load config '%s'" % (filename,))
        for motor in motor_db.get_prefix_sections(''):
            self.printer.load_object(motor_db, motor.get_name())

        # Now find our stepper and driver in the running Klipper config
        self.name = config.get_name().split(None, 1)[-1]
        if not config.has_section(self.name):
            raise config.error(
                "Could not find stepper config section '[%s]' required by TMC autotuning"
                % (self.name))
        self.tmc_section = None
        for driver in TRINAMIC_DRIVERS:
            driver_name = "%s %s" % (driver, self.name)
            if config.has_section(driver_name):
                self.tmc_section = config.getsection(driver_name)
                self.driver_name = driver_name
                break
        if self.tmc_section is None:
            raise config.error(
                "Could not find any TMC driver config section for '%s' required by TMC autotuning"
                % (self.name))

        # AutotuneTMC config parameters
        self.motor = config.get('motor')
        self.motor_name = "motor_constants " + self.motor
        tgoal = config.get('tuning_goal', default=TUNING_GOAL).lower()
        try:
            self.tuning_goal = TuningGoal(tgoal)
        except ValueError:
            raise config.error(
                "Tuning goal '%s' is invalid for TMC autotuning"
                % (tgoal))
        self.auto_silent = False # Auto silent off by default
        self.tmc_object=None # look this up at connect time
        self.tmc_cmdhelper=None # Ditto
        self.tmc_init_registers=None # Ditto
        self.run_current = 0.0
        self.fclk = None
        self.motor_object = None
        self.extra_hysteresis = config.getint('extra_hysteresis', default=EXTRA_HYSTERESIS,
                                              minval=0, maxval=8)
        self.tbl = config.getint('tbl', default=TBL, minval=0, maxval=3)
        self.toff = config.getint('toff', default=None, minval=1, maxval=15)
        self.tpfd = config.getint('tpfd', default=None, minval=0, maxval=15)
        self.sgt = config.getint('sgt', default=SGT, minval=-64, maxval=63)
        self.sg4_thrs = config.getint('sg4_thrs', default=SG4_THRS, minval=0, maxval=255)
        self.voltage = config.getfloat('voltage', default=VOLTAGE, minval=0.0, maxval=60.0)
        self.overvoltage_vth = config.getfloat('overvoltage_vth', default=OVERVOLTAGE_VTH,
                                              minval=0.0, maxval=60.0)
        self.pwm_freq_target = config.getfloat('pwm_freq_target', default=PWM_FREQ_TARGET,
                                               minval=10e3, maxval=100e3)
        self.printer.register_event_handler("klippy:connect",
                                            self.handle_connect)
        self.printer.register_event_handler("klippy:ready",
                                            self.handle_ready)
        # Register command
        gcode = self.printer.lookup_object("gcode")
        gcode.register_mux_command("AUTOTUNE_TMC", "STEPPER", self.name,
                                   self.cmd_AUTOTUNE_TMC,
                                   desc=self.cmd_AUTOTUNE_TMC_help)

    def handle_connect(self):
        self.tmc_object = self.printer.lookup_object(self.driver_name)
        # The cmdhelper itself isn't a member... but we can still get to it.
        self.tmc_cmdhelper = self.tmc_object.get_status.__self__
        try:
            motor = self.printer.lookup_object(self.motor_name)
        except Exception:
            raise self.printer.config_error(
                "Could not find motor definition '[%s]' required by TMC autotuning. "
                "It is not part of the database, please define it in your config!"
                % (self.motor_name))
        if self.tuning_goal == TuningGoal.AUTO:
            # Very small motors may not run in silent mode.
            self.auto_silent = self.name not in AUTO_PERFORMANCE_MOTORS and motor.T > 0.3
            self.tuning_goal = TuningGoal.SILENT if self.auto_silent else TuningGoal.PERFORMANCE
        self.motor_object = self.printer.lookup_object(self.motor_name)
        #self.tune_driver()
    def handle_ready(self):
        if self.tmc_init_registers is not None:
            self.tmc_init_registers(print_time=print_time)
        try:
            self.fclk = self.tmc_object.mcu_tmc.get_tmc_frequency()
        except AttributeError:
            pass
        if self.fclk is None:
            self.fclk = 12.5e6
        self.tune_driver()

    cmd_AUTOTUNE_TMC_help = "Apply autotuning configuration to TMC stepper driver"
    def cmd_AUTOTUNE_TMC(self, gcmd):
        logging.info("AUTOTUNE_TMC %s", self.name)
        tgoal = gcmd.get('TUNING_GOAL', TUNING_GOAL).lower()
        if tgoal is not None:
            try:
                self.tuning_goal = TuningGoal(tgoal)
            except ValueError:
                # TODO: add some logging/error here in case the tuning_goal doesn't exist
                pass
            if self.tuning_goal == TuningGoal.AUTO:
                self.tuning_goal = TuningGoal.SILENT if self.auto_silent else TuningGoal.PERFORMANCE
        extra_hysteresis = gcmd.get_int('EXTRA_HYSTERESIS', None)
        if extra_hysteresis is not None:
            if extra_hysteresis >= 0 or extra_hysteresis <= 8:
                self.extra_hysteresis = extra_hysteresis
        tbl = gcmd.get_int('TBL', None)
        if tbl is not None:
            if tbl >= 0 or tbl <= 3:
                self.tbl = tbl
        toff = gcmd.get_int('TOFF', None)
        if toff is not None:
            if toff >= 1 or toff <= 15:
                self.toff = toff
        tpfd = gcmd.get_int('TPFD', None)
        if tpfd is not None:
            if tpfd >= 0 or tpfd <= 15:
                self.tpfd = tpfd
        sgt = gcmd.get_int('SGT', None)
        if sgt is not None:
            if sgt >= -64 or sgt <= 63:
                self.sgt = sgt
        sg4_thrs = gcmd.get_int('SG4_THRS', None)
        if sg4_thrs is not None:
            if sg4_thrs >= 0 or sg4_thrs <= 255:
                self.sg4_thrs = sg4_thrs
        voltage = gcmd.get_float('VOLTAGE', None)
        if voltage is not None:
            if voltage >= 0.0 or voltage <= 60.0:
                self.voltage = voltage
        overvoltage_vth = gcmd.get_float('OVERVOLTAGE_VTH', None)
        if overvoltage_vth is not None:
            if overvoltage_vth >= 0.0 or overvoltage_vth <= 60.0:
                self.overvoltage_vth = overvoltage_vth
        self.tune_driver()

    def tune_driver(self, print_time=None):
        _currents = self.tmc_cmdhelper.current_helper.get_current()
        self.run_current = _currents[0]
        self._set_pwmfreq()
        self._setup_spreadcycle()
        self._set_hysteresis(self.run_current)
        self._set_sg4thrs()
        motor = self.motor_object
        maxpwmrps = motor.maxpwmrps(volts=self.voltage, current=self.run_current)
        rdist, _ = self.tmc_cmdhelper.stepper.get_rotation_distance()
        # Speed at which we run out of PWM control and should switch to fullstep
        vmaxpwm = maxpwmrps * rdist
        logging.info("autotune_tmc using max PWM speed %f", vmaxpwm)
        if self.overvoltage_vth is not None:
            vth = int((self.overvoltage_vth / 0.009732))
            self._set_driver_field('overvoltage_vth', vth)
        coolthrs = COOLSTEP_THRS_FACTOR * rdist
        self._setup_pwm(self.tuning_goal, self._pwmthrs(vmaxpwm, coolthrs))
        # One revolution every two seconds is about as slow as coolstep can go
        self._setup_coolstep(coolthrs)
        self._setup_highspeed(FULLSTEP_THRS_FACTOR * vmaxpwm)
        self._set_driver_field('multistep_filt', MULTISTEP_FILT)


    def _set_driver_field(self, field, arg):
        tmco = self.tmc_object
        register = tmco.fields.lookup_register(field, None)
        # Just bail if the field doesn't exist.
        if register is None:
            return
        logging.info("autotune_tmc set %s %s=%s", self.name, field, repr(arg))
        val = tmco.fields.set_field(field, arg)
        tmco.mcu_tmc.set_register(register, val, None)

    def _set_driver_velocity_field(self, field, velocity):
        tmco = self.tmc_object
        register = tmco.fields.lookup_register(field, None)
        # Just bail if the field doesn't exist.
        if register is None:
            return
        step_dist = self.tmc_cmdhelper.stepper.get_step_dist()
        mres = tmco.fields.get_field("mres")
        arg = tmc.TMCtstepHelper(step_dist, mres, self.fclk, velocity)
        logging.info("autotune_tmc set %s %s=%s(%s)",
                     self.name, field, repr(arg), repr(velocity))
        tmco.fields.set_field(field, arg)

    def _set_pwmfreq(self):
        # calculate the highest pwm_freq that gives less than 50 kHz chopping
        pwm_freq = next((i
                         for i in [(3, 2./410),
                                   (2, 2./512),
                                   (1, 2./683),
                                   (0, 2./1024),
                                   (0, 0.) # Default case, just do the best we can.
                                   ]
                         if self.fclk*i[1] < self.pwm_freq_target))[0]
        self._set_driver_field('pwm_freq', pwm_freq)

    def _set_hysteresis(self, run_current):
        hstrt, hend = self.motor_object.hysteresis(
            volts=self.voltage,
            current=run_current,
            tbl=self.tbl,
            toff=self.toff,
            fclk=self.fclk,
            extra=self.extra_hysteresis)
        self._set_driver_field('hstrt', hstrt)
        self._set_driver_field('hend', hend)

    def _set_sg4thrs(self):
        if self.tmc_object.fields.lookup_register("sg4_thrs", None) is not None:
            # we have SG4
            self._set_driver_field('sg4_thrs', self.sg4_thrs)
            self._set_driver_field('sg4_filt_en', True)
        elif self.tmc_object.fields.lookup_register("sgthrs", None) is not None:
            # With SG4 on 2209, pwmthrs should be greater than coolthrs
            self._set_driver_field('sgthrs', self.sg4_thrs)
        else:
            # We do not have SG4
            pass

    def _pwmthrs(self, vmaxpwm, coolthrs):
        if self.tmc_object.fields.lookup_register("sg4_thrs", None) is not None:
            # we have SG4
            # 2240 doesn't care about pwmthrs vs coolthrs ordering, but this is desirable
            return max(0.2 * vmaxpwm, 1.125 * coolthrs)
        elif self.tmc_object.fields.lookup_register("sgthrs", None) is not None:
            # With SG4 on 2209, pwmthrs should be greater than coolthrs
            return max(0.2 * vmaxpwm, 1.125 * coolthrs)
        else:
            # We do not have SG4, so this makes the world safe for
            # sensorless homing in the presence of CoolStep
            return 0.5 * coolthrs

    def _setup_pwm(self, tgoal, pwmthrs):
        motor = self.motor_object
        pwmgrad = motor.pwmgrad(volts=self.voltage, fclk=self.fclk)
        pwmofs = motor.pwmofs(volts=self.voltage, current=self.run_current)
        self._set_driver_field('pwm_autoscale', PWM_AUTOSCALE)
        self._set_driver_field('pwm_autograd', PWM_AUTOGRAD)
        self._set_driver_field('pwm_grad', pwmgrad)
        self._set_driver_field('pwm_ofs', pwmofs)
        self._set_driver_field('pwm_reg', PWM_REG)
        self._set_driver_field('pwm_lim', PWM_LIM)
        if tgoal == TuningGoal.AUTOSWITCH:
            self._set_driver_velocity_field('tpwmthrs', pwmthrs)
            self._set_driver_field('en_pwm_mode', True)
            self._set_driver_field('en_spreadcycle', False) # TMC2208 use en_spreadcycle instead of en_pwm_mode
        elif tgoal == TuningGoal.SILENT:
            self._set_driver_field('tpwmthrs', 0)
            self._set_driver_field('en_pwm_mode', True)
            self._set_driver_field('en_spreadcycle', False) # TMC2208 use en_spreadcycle instead of en_pwm_mode
        elif tgoal == TuningGoal.PERFORMANCE:
            self._set_driver_field('tpwmthrs', 0xfffff)
            self._set_driver_field('en_pwm_mode', False)
            self._set_driver_field('en_spreadcycle', True) # TMC2208 use en_spreadcycle instead of en_pwm_mode

    def _setup_spreadcycle(self):
        ncycles = int(math.ceil(self.fclk / self.pwm_freq_target))
        sdcycles = ncycles / 4
        if self.toff == 0 or self.toff is None:
            # About half the cycle should be taken by the two slow decay cycles
            self.toff = max(min(int(math.ceil(max(sdcycles - 24, 0) / 32)), 15), 1)

        if self.tbl is None:
            self.tbl = TBL

        if self.toff == 1 and self.tbl == 0:
            # blank time of 16 cycles will not work in this case
            self.tbl = 1

        pfdcycles = ncycles - (24 + 32 * self.toff) * 2 - [16, 34, 36, 54][self.tbl]
        if self.tpfd is None:
            self.tpfd = max(0, min(15, int(math.ceil(pfdcycles / 128))))

        logging.info("autotune_tmc %s ncycles=%d pfdcycles=%d", self.name, ncycles, pfdcycles)

        self._set_driver_field('tpfd', self.tpfd)
        self._set_driver_field('tbl', self.tbl)
        self._set_driver_field('toff', self.toff)

    def _setup_coolstep(self, coolthrs):
        self._set_driver_velocity_field('tcoolthrs', coolthrs)
        self._set_driver_field('sgt', self.sgt)
        self._set_driver_field('fast_standstill', FAST_STANDSTILL)
        self._set_driver_field('small_hysteresis', SMALL_HYSTERESIS)
        self._set_driver_field('semin', SEMIN)
        self._set_driver_field('semax', SEMAX)
        self._set_driver_field('seup', SEUP)
        self._set_driver_field('sedn', SEDN)
        self._set_driver_field('seimin', SEIMIN)
        self._set_driver_field('sfilt', SFILT)
        self._set_driver_field('iholddelay', IHOLDDELAY)
        self._set_driver_field('irundelay', IRUNDELAY)

    def _setup_highspeed(self, vhigh):
        self._set_driver_velocity_field('thigh', vhigh)
        self._set_driver_field('vhighfs', VHIGHFS)
        self._set_driver_field('vhighchm', VHIGHCHM)


def load_config_prefix(config):
    return AutotuneTMC(config)