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# EMC controller parameters for a simulated machine.
# General note: Comments can either be preceded with a # or ; - either is
# acceptable, although # is in keeping with most linux config files.
# General section -------------------------------------------------------------
[EMC]
# Version of this INI file
VERSION = $Revision$
# Name of machine, for use with display, etc.
MACHINE = LinuxCNC-HAL-SIM-AXIS
# Debug level, 0 means no messages. See src/emc/nml_int/emcglb.h for others
#DEBUG = 0x7FFFFFFF
DEBUG = 0
# Sections for display options ------------------------------------------------
[DISPLAY]
; -c sets the glade and handler file to load -d is to display extra debug messages
; In this case the glade and handler file are named gscreen so we don't need -c
DISPLAY = gscreen
# Cycle time, in milliseconds, that display will sleep between polls
CYCLE_TIME = 100
# Highest / lowest value that will be allowed for overrides, 1.0 = 100%
MAX_SPINDLE_OVERRIDE = 2.0
MIN_SPINDLE_OVERRIDE = .5
MAX_FEED_OVERRIDE = 2.0
# Max and default jog speeds in units per second
MAX_LINEAR_VELOCITY = 1.2
DEFAULT_LINEAR_VELOCITY = .5
# list of selectable jog increments
INCREMENTS = 1 in, 0.1 in, 10 mil, 1 mil, 1mm, .1mm, 1/8000 in
# set up 3 user popup message dialogs
MESSAGE_BOLDTEXT = NONE
MESSAGE_TEXT = This is a statusbar test
MESSAGE_TYPE = status
MESSAGE_PINNAME = statustest
MESSAGE_BOLDTEXT = NONE
MESSAGE_TEXT = This is a yes no dialog test
MESSAGE_TYPE = yesnodialog
MESSAGE_PINNAME = yndialogtest
MESSAGE_BOLDTEXT = This is the short text
MESSAGE_TEXT = This is the longer text of the both type test. It can be longer then the status bar text
MESSAGE_TYPE = okdialog status
MESSAGE_PINNAME = bothtest
# set up 2 embedded gladeVCP panels
EMBED_TAB_NAME = Embedded 1
EMBED_TAB_LOCATION = vcp_box
EMBED_TAB_COMMAND = gladevcp -x {XID} -t Redmond vcp_box.glade
EMBED_TAB_NAME = Embedded 2
EMBED_TAB_LOCATION = notebook_mode
EMBED_TAB_COMMAND = gladevcp -x {XID} -t Redmond gladevcp-test.ui
# Prefix to be used
PROGRAM_PREFIX = ../../nc_files/
# Introductory graphic
INTRO_GRAPHIC = linuxcnc.gif
INTRO_TIME = 5
# if you press the 'tooleditor' button then this program will be launched
# leave it commented out if you prefer Gscreens tooleditor.
#TOOL_EDITOR = tooledit
[FILTER]
PROGRAM_EXTENSION = .png,.gif,.jpg Grayscale Depth Image
PROGRAM_EXTENSION = .py Python Script
png = image-to-gcode
gif = image-to-gcode
jpg = image-to-gcode
py = python
# Task controller section -----------------------------------------------------
[TASK]
# Name of task controller program, e.g., milltask
TASK = milltask
# Cycle time, in seconds, that task controller will sleep between polls
CYCLE_TIME = 0.001
# Part program interpreter section --------------------------------------------
[RS274NGC]
# File containing interpreter variables
PARAMETER_FILE = sim.var
# Motion control section ------------------------------------------------------
[EMCMOT]
EMCMOT = motmod
# Timeout for comm to emcmot, in seconds
COMM_TIMEOUT = 1.0
# Interval between tries to emcmot, in seconds
COMM_WAIT = 0.010
# BASE_PERIOD is unused in this configuration but specified in core_sim.hal
BASE_PERIOD = 0
# Servo task period, in nano-seconds
SERVO_PERIOD = 1000000
# Hardware Abstraction Layer section --------------------------------------------------
[HAL]
# The run script first uses halcmd to execute any HALFILE
# files, and then to execute any individual HALCMD commands.
#
# list of hal config files to run through halcmd
# files are executed in the order in which they appear
HALFILE = core_sim.hal
HALFILE = sim_spindle_encoder.hal
HALFILE = axis_manualtoolchange.hal
HALFILE = simulated_home.hal
# list of halcmd commands to execute
# commands are executed in the order in which they appear
# Single file that is executed after the GUI has started. Only supported by
# AXIS at this time (only AXIS creates a HAL component of its own)
# POSTGUI_HALFILE = test_postgui.hal
HALUI = halui
# Trajectory planner section --------------------------------------------------
[TRAJ]
AXES = 3
COORDINATES = X Y Z
HOME = 0 0 0
LINEAR_UNITS = inch
ANGULAR_UNITS = degree
CYCLE_TIME = 0.010
DEFAULT_VELOCITY = 1.2
MAX_VELOCITY = 2.4
POSITION_FILE = position.txt
# Axes sections ---------------------------------------------------------------
# First axis
[AXIS_0]
TYPE = LINEAR
HOME = 0.000
MAX_VELOCITY = 4
MAX_ACCELERATION = 100.0
BACKLASH = 0.000
INPUT_SCALE = 4000
OUTPUT_SCALE = 1.000
MIN_LIMIT = -40.0
MAX_LIMIT = 40.0
FERROR = 0.050
MIN_FERROR = 0.010
HOME_OFFSET = 0.0
HOME_SEARCH_VEL = 20.0
HOME_LATCH_VEL = 20.0
HOME_USE_INDEX = NO
HOME_IGNORE_LIMITS = NO
HOME_SEQUENCE = 1
HOME_IS_SHARED = 1
# Second axis
[AXIS_1]
TYPE = LINEAR
HOME = 0.000
MAX_VELOCITY = 4
MAX_ACCELERATION = 100.0
BACKLASH = 0.000
INPUT_SCALE = 4000
OUTPUT_SCALE = 1.000
MIN_LIMIT = -40.0
MAX_LIMIT = 40.0
FERROR = 0.050
MIN_FERROR = 0.010
HOME_OFFSET = 0.0
HOME_SEARCH_VEL = 20.0
HOME_LATCH_VEL = 20.0
HOME_USE_INDEX = NO
HOME_IGNORE_LIMITS = NO
HOME_SEQUENCE = 1
# Third axis
[AXIS_2]
TYPE = LINEAR
HOME = 0.0
MAX_VELOCITY = 4
MAX_ACCELERATION = 100.0
BACKLASH = 0.000
INPUT_SCALE = 4000
OUTPUT_SCALE = 1.000
MIN_LIMIT = -8.0
MAX_LIMIT = 0.0001
FERROR = 0.050
MIN_FERROR = 0.010
HOME_OFFSET = 1.0
HOME_SEARCH_VEL = 20.0
HOME_LATCH_VEL = 20.0
HOME_USE_INDEX = NO
HOME_IGNORE_LIMITS = NO
HOME_SEQUENCE = 0
HOME_IS_SHARED = 1
# section for main IO controller parameters -----------------------------------
[EMCIO]
# Name of IO controller program, e.g., io
EMCIO = io
# cycle time, in seconds
CYCLE_TIME = 0.100
# tool table file
TOOL_TABLE = sim.tbl
TOOL_CHANGE_POSITION = 0 0 0
TOOL_CHANGE_QUILL_UP = 1
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