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PCW

Today 17:13 - Today 17:16

Replied by PCW on topic 7i92M + 7i76 add PWM+PktUART

7i92M + 7i76 add PWM+PktUART

Category: Driver Boards

The 7I76R14.BIN image will not work as there are two program images
in the DSPIC code (the setup and working images) This is done to allow
live updates.

This is the complete 7I76 image:

File Attachment:

File Name: 7I76S15H1.ZIP
File Size:14 KB

mariob
mariob

Today 16:24

Replied by mariob on topic Linuxcnc erste Schritte und erste Probleme, NVEM und Remora

Linuxcnc erste Schritte und erste Probleme, NVEM und Remora

Category: Deutsch

Hallo,
und danke für die Antwort Luca, ich lasse mir etwas Zeit, sorry. Der Rechner läuft noch nicht wieder, ich strukturiere gerade meine EDV neu, Winterarbeit. Sobald das erledigt ist geht es hier weiter, ich melde mich, das ist bestimmt noch nicht die letzte Frage

.

Gruß
Mario

Aciera

Today 14:24

Replied by Aciera on topic Problem with Mesa 7i96s and spindle control

Problem with Mesa 7i96s and spindle control

Category: General LinuxCNC Questions

I changed your Topic title to something more descriptive.

You might want to give some more information on your vfd and how you have wired it to your 7i96s.

Mark Kraus
Mark Kraus

Today 14:04

Replied by Mark Kraus on topic Problem with Mesa 7i96s and spindle control

Problem with Mesa 7i96s and spindle control

Category: General LinuxCNC Questions

Thank you for responding. I am sorry I did not include more info. My board is a 7i96s and now I have encoder feedback. Turns out there was a wiring error. Now I have negative values and way off when doing M3 command. I set my amt102-v to 1024ppr so i was using 4096 in pncconf. I am new to this so using pncconf appeals to me for as much of the build as I can.
I am curious if the mesa config is better than the pncconf and can I make a separate profile in it? I was working on getting the encoder working and at the same time I changed some settings and now my spindle does not work. I have the m3 come on and the vfd shows hz rising and then stabalizing but the fan on the vfd does not come on and i have no 3 phase coming out. I should not have been messing with the wiring and at the same time changing settings and will try not to do that again, but for now I dont know which one it is, the settings in pncconf or a wiring issue.

rodw

Today 11:08

Replied by rodw on topic Mini PC for LinuxCNC/CPU Realtime Performance

Mini PC for LinuxCNC/CPU Realtime Performance

Category: Computers and Hardware

Yes, I think people get carried away chasing the minimum. If it works without error its fine, up to about 200 usec of latency works mostly, I used 130 usec for years...

grandixximo

Today 10:54

Replied by grandixximo on topic LinuxCNC S-Curve Accelerations

LinuxCNC S-Curve Accelerations

Category: General LinuxCNC Questions

File Attachment:

File Name: luca-long-...1-29.ngc
File Size:0 KB

test with this, this is dlen2 code

this is without

we know is not ideal, but at the moment, best we can do

ruediger123
ruediger123

Today 10:12

Replied by ruediger123 on topic LinuxCNC S-Curve Accelerations

LinuxCNC S-Curve Accelerations

Category: General LinuxCNC Questions

@grandixximo

After commenting out " || (dx - moveL <= dlen2)", the scope looks like this.

hhscott
hhscott

Today 09:31 - Today 09:35

Python Probe Screen was created by hhscott

Python Probe Screen

Category: General LinuxCNC Questions

Been working on a purely python touch and probe screen that does not alter the INI or HAL files. This supports Center of Hole, Edge detection X and Y plus and minus direction, Z touch, Boss Center location (circles, squares, rectangles), and Center of Pocket. Every touch/probe move has initial feed rate and then a second touch off at final feed rate. So far testing is going well with some minor debugging. I will soon add tool-change routines and support work fixtures as well.

grandixximo

Today 09:16

Replied by grandixximo on topic LinuxCNC S-Curve Accelerations

LinuxCNC S-Curve Accelerations

Category: General LinuxCNC Questions

endian wrote:

My apologize ...
sorry I can not show same speed test because I am currently weeks out of office but we can just multiply or devide values ... because it is linear dependecy during constant speed movemet ... 

I can just customize current images to show exact difference ...  compensation off ferror = 0.125mm at 15m/min ...  compensation on ferror = 0.00009028mm at 1m/min and multiply it by 15 we get 0,0013542mm which is significantly less then 0.125 ..

What I remember from testing by my short eyes it whas something near 0.001mm during that 15m/min testing was done with bentch top setup without any load presented... just AX5106 with AM8xxx motor 

but I can go home for testing this weekend to create exact speed difference testing if it is neccessary

No apologies needed

, I discussed this with YangYang. We agree this is a real issue on some hardware, but it should not be in the TP.The TP's job is to generate a geometrically correct path with proper dynamics. It does that. The path is correct.Transport delay compensation is a communication/hardware layer problem. Different drives, different bus cycles, different delays. Some drives have 0x60B1, some don't. Some run 250µs, some run 1ms. This varies per setup.Your HAL component is the right approach. It sits between TP output and drive input, users can tune lead_cycles and kff for their specific hardware. People who need it use it, people whose drives handle it properly don't.Keep the TP clean, keep hardware compensation in HAL. Well defined purposes.

Aciera

Today 09:15 - Today 09:27

Replied by Aciera on topic Problem with Mesa 7i96s and spindle control

Problem with Mesa 7i96s and spindle control

Category: General LinuxCNC Questions

1. Please stop changing the 'Subject' descriptor of the thread when you add new posts. Makes it really confusing for people.

2.

Still have no clue what could be wrong. The at speed light comes on but nothing in halshow. Could someone please guide me?

We might be able to if you actually told us what your are trying to do. You maybe want to connect a encoder to your spindle and are not getting the 'spindle-at-speed' signal to work in hal? Hardware used (a MESA board maybe)? If so which one?

meister
meister

Today 09:07

Replied by meister on topic Solving the USB Latency Dogma for HMI/MPG: Technical Feedback Request

Solving the USB Latency Dogma for HMI/MPG: Technical Feedback Request

Category: Driver Boards

2. Closed Firmware & 'Over-engineering' I respect the Open Source philosophy, but io_decoder is a professional project that includes dedicated hardware. The 'over-engineering' you see in the HAL driver is actually optimization. While a user-space component can work, a dedicated C component ensures deterministic polling and much lower jitter. If you want a 'professional feel' on the handwheel, those milliseconds matter.

ahh, ok, This is what professional code looks like when compiling.

 halcompile --compile io_decoder.c 
Compiling realtime io_decoder.c
io_decoder.c: In function ‘usb_thread_function’:
io_decoder.c:1119:60: warning: comparison of integer expressions of different signedness: ‘int’ and ‘long unsigned int’ [-Wsign-compare]
 1119 |                                         if (tx_buffer_size > sizeof(io->tx_packet_buffer)) {
      |                                                            ^
io_decoder.c:1214:80: warning: comparison of integer expressions of different signedness: ‘int’ and ‘uint32_t’ {aka ‘unsigned int’} [-Wsign-compare]
 1214 |                                                                 if (parsed_len == io->usb_rx_payload_len) { //
      |                                                                                ^~
io_decoder.c:1318:31: warning: variable ‘rx_success_delta’ set but not used [-Wunused-but-set-variable]
 1318 |                         float rx_success_delta = 0;
      |                               ^~~~~~~~~~~~~~~~
io_decoder.c:1316:31: warning: variable ‘tx_success_delta’ set but not used [-Wunused-but-set-variable]
 1316 |                         float tx_success_delta = 0;
      |                               ^~~~~~~~~~~~~~~~
io_decoder.c:1313:31: warning: variable ‘rx_success’ set but not used [-Wunused-but-set-variable]
 1313 |                         float rx_success = 0;
      |                               ^~~~~~~~~~
io_decoder.c:1311:31: warning: variable ‘tx_success’ set but not used [-Wunused-but-set-variable]
 1311 |                         float tx_success = 0;
      |                               ^~~~~~~~~~
io_decoder.c:805:13: warning: unused variable ‘serial_verify’ [-Wunused-variable]
  805 |         int serial_verify;
      |             ^~~~~~~~~~~~~
io_decoder.c:783:21: warning: unused variable ‘old_usb_loop’ [-Wunused-variable]
  783 |         static long old_usb_loop;
      |                     ^~~~~~~~~~~~
io_decoder.c:776:20: warning: unused variable ‘old_pin_debug2’ [-Wunused-variable]
  776 |         static int old_pin_debug2 = 0;
      |                    ^~~~~~~~~~~~~~
io_decoder.c:775:20: warning: unused variable ‘old_hand_invalid_received’ [-Wunused-variable]
  775 |         static int old_hand_invalid_received = 0;
      |                    ^~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:773:20: warning: unused variable ‘old_hand_invalid_send’ [-Wunused-variable]
  773 |         static int old_hand_invalid_send = 0;
      |                    ^~~~~~~~~~~~~~~~~~~~~
io_decoder.c:771:20: warning: unused variable ‘old_hand_valid_received’ [-Wunused-variable]
  771 |         static int old_hand_valid_received = 0;
      |                    ^~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:769:20: warning: unused variable ‘old_hand_valid_send’ [-Wunused-variable]
  769 |         static int old_hand_valid_send = 0;
      |                    ^~~~~~~~~~~~~~~~~~~
io_decoder.c:755:16: warning: variable ‘comm_packet_received_and_validated’ set but not used [-Wunused-but-set-variable]
  755 |     static int comm_packet_received_and_validated = 0; // Per controllare il loop all'interno di COMMUNICATING
      |                ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:754:16: warning: unused variable ‘comm_packet_sent’ [-Wunused-variable]
  754 |     static int comm_packet_sent = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:751:16: warning: variable ‘error_state_comm_timeout’ set but not used [-Wunused-but-set-variable]
  751 |     static int error_state_comm_timeout = 0;
      |                ^~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:750:16: warning: variable ‘error_state_hand_serial_read’ set but not used [-Wunused-but-set-variable]
  750 |     static int error_state_hand_serial_read = 0;; // Per seriale in handshake errata
      |                ^~~~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:749:16: warning: variable ‘error_state_payload’ set but not used [-Wunused-but-set-variable]
  749 |     static int error_state_payload = 0; // Per payload in handshake errato
      |                ^~~~~~~~~~~~~~~~~~~
io_decoder.c:748:16: warning: variable ‘error_state_firmware_2’ set but not used [-Wunused-but-set-variable]
  748 |     static int error_state_firmware_2 = 0; // Per valori funzioni dentro il firmware errate
      |                ^~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:747:16: warning: variable ‘error_state_firmware’ set but not used [-Wunused-but-set-variable]
  747 |     static int error_state_firmware = 0; // Per firmware errato
      |                ^~~~~~~~~~~~~~~~~~~~
io_decoder.c:746:16: warning: variable ‘error_state_hand_packet’ set but not used [-Wunused-but-set-variable]
  746 |     static int error_state_hand_packet = 0; // Per pacchetto di handshake di lunghezza non corrispondente
      |                ^~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:745:16: warning: variable ‘error_state_serial_configure’ set but not used [-Wunused-but-set-variable]
  745 |     static int error_state_serial_configure = 0; // Per seriale non configurata
      |                ^~~~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:743:16: warning: unused variable ‘error_state_dbg_printed’ [-Wunused-variable]
  743 |     static int error_state_dbg_printed = 0; // Per HAL_STATE_ERROR (primo ingresso)
      |                ^~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:740:16: warning: unused variable ‘handshake_response_dbg_printed’ [-Wunused-variable]
  740 |     static int handshake_response_dbg_printed = 0; // Per HAL_STATE_HANDSHAKE_WAIT_RESPONSE
      |                ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:739:16: warning: unused variable ‘handshake_init_dbg_printed’ [-Wunused-variable]
  739 |     static int handshake_init_dbg_printed = 0; // Per HAL_STATE_HANDSHAKE_INIT
      |                ^~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:737:16: warning: unused variable ‘timer_overflow_5’ [-Wunused-variable]
  737 |     static int timer_overflow_5 = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:735:16: warning: unused variable ‘timer_overflow_3’ [-Wunused-variable]
  735 |     static int timer_overflow_3 = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:734:16: warning: unused variable ‘timer_overflow_2’ [-Wunused-variable]
  734 |     static int timer_overflow_2 = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:733:16: warning: unused variable ‘timer_overflow_1’ [-Wunused-variable]
  733 |     static int timer_overflow_1 = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:732:16: warning: unused variable ‘timer_overflow_0’ [-Wunused-variable]
  732 |     static int timer_overflow_0 = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:724:17: warning: variable ‘last_read_time_ns’ set but not used [-Wunused-but-set-variable]
  724 |     static long last_read_time_ns; // Inizializza al tempo corrente
      |                 ^~~~~~~~~~~~~~~~~
io_decoder.c:720:10: warning: unused variable ‘next_handshake_attempt_time_ns’ [-Wunused-variable]
  720 |     long next_handshake_attempt_time_ns = 0; // Tempo per il prossimo tentativo di handshake
      |          ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c: In function ‘npic_in_routine’:
io_decoder.c:1443:72: warning: unused parameter ‘length’ [-Wunused-parameter]
 1443 | uint8_t npic_in_routine(hal_io_decoder_t *io, uint8_t* buffer, uint8_t length) {
      |                                                                ~~~~~~~~^~~~~~
io_decoder.c: In function ‘npic_out_routine’:
io_decoder.c:1494:68: warning: unused parameter ‘length’ [-Wunused-parameter]
 1494 | void npic_out_routine(hal_io_decoder_t *io, uint8_t* dato, uint8_t length) {
      |                                                            ~~~~~~~~^~~~~~
io_decoder.c: In function ‘encoder_routine’:
io_decoder.c:1577:9: warning: unused variable ‘encoder_delta_from_arduino’ [-Wunused-variable]
 1577 |     int encoder_delta_from_arduino; // Questo sarà il valore decodificato (il "delta")
      |         ^~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c: In function ‘adc_routine’:
io_decoder.c:1770:57: warning: comparison of integer expressions of different signedness: ‘uint32_t’ {aka ‘unsigned int’} and ‘int32_t’ {aka ‘int’} [-Wsign-compare]
 1770 |                                 if ((io->adc_raw_joy[i] <= joy_center_plus) && (io->adc_raw_joy[i] >= joy_center_minus)) {
      |                                                         ^~
io_decoder.c:1770:100: warning: comparison of integer expressions of different signedness: ‘uint32_t’ {aka ‘unsigned int’} and ‘int32_t’ {aka ‘int’} [-Wsign-compare]
 1770 |                                 if ((io->adc_raw_joy[i] <= joy_center_plus) && (io->adc_raw_joy[i] >= joy_center_minus)) {
      |                                                                                                    ^~
io_decoder.c:1778:48: warning: comparison of integer expressions of different signedness: ‘uint32_t’ {aka ‘unsigned int’} and ‘int32_t’ {aka ‘int’} [-Wsign-compare]
 1778 |                         if (io->adc_raw_joy[i] > (joy_center_plus)) {
      |                                                ^
io_decoder.c:1784:55: warning: comparison of integer expressions of different signedness: ‘uint32_t’ {aka ‘unsigned int’} and ‘int32_t’ {aka ‘int’} [-Wsign-compare]
 1784 |                         } else if (io->adc_raw_joy[i] < (joy_center_minus)) {
      |                                                       ^
io_decoder.c:1680:17: warning: unused variable ‘joy_offset’ [-Wunused-variable]
 1680 |         int32_t joy_offset;
      |                 ^~~~~~~~~~
io_decoder.c:1678:10: warning: unused variable ‘overflow_period_ns’ [-Wunused-variable]
 1678 |     long overflow_period_ns = 20 * 1000 * 1000; // Periodo di 20ms per resettare l'overflow
      |          ^~~~~~~~~~~~~~~~~~
io_decoder.c: In function ‘DAC_out_routine’:
io_decoder.c:1874:13: warning: unused variable ‘i’ [-Wunused-variable]
 1874 |         int i;
      |             ^
io_decoder.c: In function ‘in_expansion_routine’:
io_decoder.c:1918:13: warning: unused variable ‘current_value’ [-Wunused-variable]
 1918 |     float_t current_value = 0; // Useremo un int32_t per gestire il valore
      |             ^~~~~~~~~~~~~
io_decoder.c:1917:13: warning: unused variable ‘bytesWritten’ [-Wunused-variable]
 1917 |     uint8_t bytesWritten = 0; // Contatore dei byte letti dal buffer
      |             ^~~~~~~~~~~~
io_decoder.c:1916:13: warning: unused variable ‘i’ [-Wunused-variable]
 1916 |         int i;
      |             ^
io_decoder.c:1914:61: warning: unused parameter ‘buffer’ [-Wunused-parameter]
 1914 | uint8_t in_expansion_routine(hal_io_decoder_t *io, uint8_t* buffer, uint8_t length) {
      |                                                    ~~~~~~~~~^~~~~~
io_decoder.c:1914:77: warning: unused parameter ‘length’ [-Wunused-parameter]
 1914 | uint8_t in_expansion_routine(hal_io_decoder_t *io, uint8_t* buffer, uint8_t length) {
      |                                                                     ~~~~~~~~^~~~~~
io_decoder.c: In function ‘out_expansion_routine’:
io_decoder.c:1951:13: warning: unused variable ‘current_value’ [-Wunused-variable]
 1951 |     float_t current_value = 0; // Useremo un int32_t per gestire il valore
      |             ^~~~~~~~~~~~~
io_decoder.c:1950:13: warning: unused variable ‘bytesWritten’ [-Wunused-variable]
 1950 |     uint8_t bytesWritten = 0; // Contatore dei byte letti dal buffer
      |             ^~~~~~~~~~~~
io_decoder.c:1949:13: warning: unused variable ‘i’ [-Wunused-variable]
 1949 |         int i;
      |             ^
io_decoder.c:1947:59: warning: unused parameter ‘dato’ [-Wunused-parameter]
 1947 | void out_expansion_routine(hal_io_decoder_t *io, uint8_t* dato, uint8_t length) {
      |                                                  ~~~~~~~~~^~~~
io_decoder.c:1947:73: warning: unused parameter ‘length’ [-Wunused-parameter]
 1947 | void out_expansion_routine(hal_io_decoder_t *io, uint8_t* dato, uint8_t length) {
      |                                                                 ~~~~~~~~^~~~~~
io_decoder.c: In function ‘key_simulation_loop’:
io_decoder.c:2032:53: warning: variable ‘suppress_base_key’ set but not used [-Wunused-but-set-variable]
 2032 |                                                 int suppress_base_key = 0; // 0 = false, 1 = true
      |                                                     ^~~~~~~~~~~~~~~~~
io_decoder.c:2004:9: warning: unused variable ‘send_status’ [-Wunused-variable]
 2004 |     int send_status;
      |         ^~~~~~~~~~~
io_decoder.c:2001:13: warning: unused variable ‘bitValue’ [-Wunused-variable]
 2001 |     uint8_t bitValue;
      |             ^~~~~~~~
io_decoder.c: In function ‘calc_io_decoder’:
io_decoder.c:2421:45: warning: unused parameter ‘period’ [-Wunused-parameter]
 2421 | static void calc_io_decoder(void *arg, long period) {
      |                                        ~~~~~^~~~~~
io_decoder.c: In function ‘rtapi_app_main’:
io_decoder.c:2484:28: warning: unused variable ‘uidev’ [-Wunused-variable]
 2484 |     struct uinput_user_dev uidev;
      |                            ^~~~~
io_decoder.c:2471:20: warning: unused variable ‘i’ [-Wunused-variable]
 2471 |     int n, retval, i;
      |                    ^
io_decoder.c: In function ‘npic_in_routine’:
io_decoder.c:1491:1: warning: control reaches end of non-void function [-Wreturn-type]
 1491 | }
      | ^
io_decoder.c: In function ‘adc_routine’:
io_decoder.c:1870:1: warning: control reaches end of non-void function [-Wreturn-type]
 1870 | }
      | ^
io_decoder.c: In function ‘in_expansion_routine’:
io_decoder.c:1945:1: warning: control reaches end of non-void function [-Wreturn-type]
 1945 | }
      | ^
io_decoder.c: At top level:
io_decoder.c:732:16: warning: ‘timer_overflow_0’ defined but not used [-Wunused-variable]
  732 |     static int timer_overflow_0 = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:733:16: warning: ‘timer_overflow_1’ defined but not used [-Wunused-variable]
  733 |     static int timer_overflow_1 = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:734:16: warning: ‘timer_overflow_2’ defined but not used [-Wunused-variable]
  734 |     static int timer_overflow_2 = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:735:16: warning: ‘timer_overflow_3’ defined but not used [-Wunused-variable]
  735 |     static int timer_overflow_3 = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:737:16: warning: ‘timer_overflow_5’ defined but not used [-Wunused-variable]
  737 |     static int timer_overflow_5 = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:739:16: warning: ‘handshake_init_dbg_printed’ defined but not used [-Wunused-variable]
  739 |     static int handshake_init_dbg_printed = 0; // Per HAL_STATE_HANDSHAKE_INIT
      |                ^~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:740:16: warning: ‘handshake_response_dbg_printed’ defined but not used [-Wunused-variable]
  740 |     static int handshake_response_dbg_printed = 0; // Per HAL_STATE_HANDSHAKE_WAIT_RESPONSE
      |                ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:743:16: warning: ‘error_state_dbg_printed’ defined but not used [-Wunused-variable]
  743 |     static int error_state_dbg_printed = 0; // Per HAL_STATE_ERROR (primo ingresso)
      |                ^~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:754:16: warning: ‘comm_packet_sent’ defined but not used [-Wunused-variable]
  754 |     static int comm_packet_sent = 0;
      |                ^~~~~~~~~~~~~~~~
io_decoder.c:769:20: warning: ‘old_hand_valid_send’ defined but not used [-Wunused-variable]
  769 |         static int old_hand_valid_send = 0;
      |                    ^~~~~~~~~~~~~~~~~~~
io_decoder.c:771:20: warning: ‘old_hand_valid_received’ defined but not used [-Wunused-variable]
  771 |         static int old_hand_valid_received = 0;
      |                    ^~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:773:20: warning: ‘old_hand_invalid_send’ defined but not used [-Wunused-variable]
  773 |         static int old_hand_invalid_send = 0;
      |                    ^~~~~~~~~~~~~~~~~~~~~
io_decoder.c:775:20: warning: ‘old_hand_invalid_received’ defined but not used [-Wunused-variable]
  775 |         static int old_hand_invalid_received = 0;
      |                    ^~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:776:20: warning: ‘old_pin_debug2’ defined but not used [-Wunused-variable]
  776 |         static int old_pin_debug2 = 0;
      |                    ^~~~~~~~~~~~~~
io_decoder.c:783:21: warning: ‘old_usb_loop’ defined but not used [-Wunused-variable]
  783 |         static long old_usb_loop;
      |                     ^~~~~~~~~~~~
io_decoder.c:643:14: warning: ‘format_buffer_for_debug’ defined but not used [-Wunused-function]
  643 | static char* format_buffer_for_debug(const unsigned char *buffer, int len) {
      |              ^~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:148:12: warning: ‘printed_debug’ defined but not used [-Wunused-variable]
  148 | static int printed_debug[100] = {0};    //serve a creare uno stop alle scritte di debug
      |            ^~~~~~~~~~~~~
io_decoder.c: In function ‘usb_thread_function’:
io_decoder.c:1297:28: warning: ‘usb2_current_time_ns’ may be used uninitialized [-Wmaybe-uninitialized]
 1297 |         usb_jitter_time_ns = usb_current_time_ns - usb2_current_time_ns;
      |         ~~~~~~~~~~~~~~~~~~~^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:729:10: note: ‘usb2_current_time_ns’ was declared here
  729 |     long usb2_current_time_ns;
      |          ^~~~~~~~~~~~~~~~~~~~
io_decoder.c:1297:28: warning: ‘usb_current_time_ns’ may be used uninitialized [-Wmaybe-uninitialized]
 1297 |         usb_jitter_time_ns = usb_current_time_ns - usb2_current_time_ns;
      |         ~~~~~~~~~~~~~~~~~~~^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:728:10: note: ‘usb_current_time_ns’ was declared here
  728 |     long usb_current_time_ns;
      |          ^~~~~~~~~~~~~~~~~~~
io_decoder.c:1308:38: warning: ‘next_parse_error_time_ns’ may be used uninitialized [-Wmaybe-uninitialized]
 1308 |                 if ((current_time_ns - next_parse_error_time_ns) > parse_error_time_ns) {
      |                     ~~~~~~~~~~~~~~~~~^~~~~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c:726:10: note: ‘next_parse_error_time_ns’ was declared here
  726 |     long next_parse_error_time_ns;
      |          ^~~~~~~~~~~~~~~~~~~~~~~~
io_decoder.c: In function ‘npic_out_routine’:
io_decoder.c:1550:107: warning: ‘freq_conversion’ may be used uninitialized [-Wmaybe-uninitialized]
 1550 |                                                 if (current_time_ns > (io->out_blink_time_ns[current_bit] + freq_conversion)) {
      |                                                                       ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~^~~~~~~~~~~~~~~~~~
io_decoder.c:1503:10: note: ‘freq_conversion’ was declared here
 1503 |     long freq_conversion;
      |          ^~~~~~~~~~~~~~~
Linking io_decoder.so

“Bare-Metal” Firmware (No Bootloader)

We have removed the Arduino bootloader for two critical reasons:

Safety: No random pin state changes during startup (typical of bootloaders).
Speed: The board is operational within a few milliseconds.

what about updates ?

unknown
unknown

Today 08:28

Replied by unknown on topic Experimental raspios Linuxcnc Trixie images.

Experimental raspios Linuxcnc Trixie images.

Category: Installing LinuxCNC

Well done Sir.

NWE
NWE

Today 08:25

Replied by NWE on topic Experimental raspios Linuxcnc Trixie images.

Experimental raspios Linuxcnc Trixie images.

Category: Installing LinuxCNC

to make an .img file, run the command I posted, except change the of= part to:
of=/path/to/my/hardDiskBackup.img

first make sure your directory has enough free space to hold a file as large as your source disk.

writing that img file to a new empty drive then instead change the if= bit:
if=/path/to/hardDiskBackup.img

NWE
NWE

Today 07:57

Replied by NWE on topic Experimental raspios Linuxcnc Trixie images.

Experimental raspios Linuxcnc Trixie images.

Category: Installing LinuxCNC

COFHAL wrote:
How do I create an image of the contents of one hard drive to install it on another? This is to avoid having to reinstall the additional applications I use with LCN.

There are various ways clone hard drives, I tend to use dd and make a bit-for-bit clone of the entire drive. Empty space and deleted files included. Takes longer but is the most reliable solution I've found.

The first time I did this was on a test machine containing no valuable data so I don't inadvertently destroy it. A little mistake in the following instructions could wipe your hard drive empty.

Important: the pc doing the cloning must not be booted from either drive; also, do not try booting the original or the clone while BOTH are connected to the pc. I learned that the hard way. Both drives' partitions will have identical UUID's which can be changed but it works as long as you don't boot one while both are connected to the same pc. I wouldn't even try mounting a partition while both are connected. Don't bother trying to clone nvme -> sata or sata -> nvme. I think it can be done, but I will not cover that complication. It is also possible to clone to a different sized drive, but I will not get into that here.

First make backups of everything in case this goes awry. You have been warned.

1: The linuxcnc pc is powered off. I connect an empty drive to it (same size as the original) and also a live-boot USB stick. The linuxcnc installer works great for this.

2: Boot the pc from the live-boot USB stick into the live-boot/testing. Do not launch the installer.

3: Find out which drive is which. One way to do that is to open Gparted and inspect the drives. On my system I might see that /dev/sda contains the installed linux os and /dev/sdb is the new empty drive. Your pc might be completely different. This is the most important detail.

4: Using the information gathered in step 3, I formulate the following terminal command:
be very careful of not copying the empty drive to the linuxcnc drive! You will then have two empty drives and no linuxcnc!
# dd if=/dev/sda of=/dev/sdb status=progress bs=1M conv=sync

I will not explain the very important "#" bit. If anyone reading this does not know what that is for, I would suggest to practice your terminal skills in less destructive ways before trying to do this.

if=/dev/sda is telling dd the "input file" is the sda disk
of=/dev/sdb tells it which is the "output file"
status=progress gives you some feedback what it is doing while it is busy
bs=1M sets the block size for copying I think default block size is 512B which copies insanely slowly. You can use block sizes larger than 1M, you might gain some speed, but if block size is set larger than the drive's internal cache space, your resulting copy will be botched. 1M seems to be a safe number that always works for me.

Depending what versions you're running, the status=progress bit will not work and will not display the progress. Just let it do its thing or find other ways to figure out if the hard drives are actively copying. Back when all I had was spinning rust, we didn't have status=progress, but I could HEAR it was doing its thing.

Depending on the size of your drives and their speed, this cloning can can take anywhere from a few minutes to a few weeks to complete. I've had 4GB spinning rust drives take a couple days. A 1TB ssd is usually way quicker than that.

graon
I just discovered there was already an answer to this question after I typed this up. If anyone has a problem with this I can remove it.

endian

Today 07:46 - Today 07:49

Replied by endian on topic LinuxCNC S-Curve Accelerations

LinuxCNC S-Curve Accelerations

Category: General LinuxCNC Questions

I tested it with Nidec N753(it has 0x60B1 avaible - but i did not implement the offset yet), Kollmorgen S343, Kollmorgen S7xx, Pilz pmcTendo, Beckhoff AX5106 hw2(https://codeberg.org/endian/Beckhoff_AX5ZYZZ_lcec_driver - here is working driver for AX5YZZ drivers with sercos.comp which is very similar to dominik cia's but only for AX with external trapeziodal homing based of high speed probing hw-input outside of master[lower cycle time at fpga]), Beckhoff el7221 and I will test it with @zmrdko's Delta ASDA drivers too ...

pictures shows like that solution synchronize of timing lag of position mode of ethercat

Can you show the same test at same velocity with compensation on and off? The two pictures are at very different speeds so it's hard to see what the compensation is actually doing.

My apologize ...
sorry I can not show same speed test because I am currently weeks out of office but we can just multiply or devide values ... because it is linear dependecy during constant speed movemet ...

I can just customize current images to show exact difference ... compensation off ferror = 0.125mm at 15m/min ... compensation on ferror = 0.00009028mm at 1m/min and multiply it by 15 we get 0,0013542mm which is significantly less then 0.125 ..

What I remember from testing by my short eyes it whas something near 0.001mm during that 15m/min testing was done with bentch top setup without any load presented... just AX5106 with AM8xxx motor

but I can go home for testing this weekend to create exact speed difference testing if it is neccessary

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