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Not that i know of, except the included with LinuxCNC, but i can prove some for plasma and for engravers/scratchers i build:
forum.linuxcnc.org/show-your-stuff/46752...ver-etcher-scratcher

current CPU frequency: 2.10 GHz (asserted by call to kernel)

All is good, move on to testing on a machine.

Uthayne wrote:

This also occurs with Qtplasmac. I can replicate it if I use the keyboard to jog and click to another tab while jogging. It loses focus/control even if I release the keyboard jog arrow and I have to go back to the main tab and tap a jog button again to get it to stop jogging.

I never realized this. I can replicate.

I will definitely be working on a fix for this. "Stay tuned."

I tried to compile this old working 4Axis kinematics (originally 5Axiskins) but getting compiling errors

forum.linuxcnc.org/10-advanced-configura...p-with-rtcp?start=80

Not able to understand current 5Axiskins

Can you throw some example? Zero in what?

Hello,

is there any gentelman which has running Xenomai or Cobalt kernel for his iron?

I need some inspiration or talk what, how, prons and cons ... experiences !

thanks 

Tool changers are often more difficult than the test of the machine, if only because there are more variations.
What do the two motors do? What manner of toolchanger is it?

This also occurs with Qtplasmac. I can replicate it if I use the keyboard to jog and click to another tab while jogging. It loses focus/control even if I release the keyboard jog arrow and I have to go back to the main tab and tap a jog button again to get it to stop jogging.

I would leave the kinematic as is and simply set the unused joint position to zero.

Private messages are disabled in this forum.

An der Dokumentation der 'devel' Version wird zur Zeit in grösserem Umfang gearbeitet.

Wenn du 2.9.8 verwendest solltest du sowieso die 'stable' Version der Doku verwenden: (beachte then Unterschied im Link)
linuxcnc.org/docs/stable/html/de/gui/pyvcp.html

Signal wire colors default to color codes representing the signal type, but can be edited. If the rat's nest is a confusing mess of same-colored wires, double-click or right click a wire to edit its color. All wires connected to the same output are synced and will change to your edit.

You can also change the wire (hal signal) name, but the current version of halflow gives you no capability to load your edits back into your linuxcnc hal config.

Also not sure about the frequency on cpu 1. The governor looks right but current freq = 400Mhz. This doesn't seem good if I understand it right. (again very new to this)

$ sudo cpupower -c all frequency-info
[sudo] password for cnc:
analyzing CPU 0:
driver: intel_pstate
CPUs which run at the same hardware frequency: 0
CPUs which need to have their frequency coordinated by software: 0
maximum transition latency: Cannot determine or is not supported.
hardware limits: 400 MHz - 2.10 GHz
available cpufreq governors: performance powersave
current policy: frequency should be within 400 MHz and 2.10 GHz.
The governor "performance" may decide which speed to use
within this range.
current CPU frequency: Unable to call hardware
current CPU frequency: 2.10 GHz (asserted by call to kernel)
boost state support:
Supported: no
Active: no
analyzing CPU 1:
driver: intel_pstate
CPUs which run at the same hardware frequency: 1
CPUs which need to have their frequency coordinated by software: 1
maximum transition latency: Cannot determine or is not supported.
hardware limits: 400 MHz - 2.10 GHz
available cpufreq governors: performance powersave
current policy: frequency should be within 400 MHz and 2.10 GHz.
The governor "performance" may decide which speed to use
within this range.
current CPU frequency: Unable to call hardware
current CPU frequency: 400 MHz (asserted by call to kernel)
boost state support:
Supported: no
Active: no

I'm very new to this so please pardon the questions.  I recently acquired an INTEL NUC core-i3 with 8GB of ram. This is intended to drive a MESA 7i76e board on a plasma table.  

tldr; I'm primarily curious to know if the latency results I'm getting are going to work (if that's possible to advise).

I've downloaded the latest iso and  went through performance tuning.  I *think* I've done all the things.  It's sometimes hard to follow all the different threads on tuning.

1) Turned off things in BIOS (hyper threading, power management etc.). This left me with two CPUs
2) Grub configured (including isolcpus)
3) CPU governor set to performance
4) IRQ coalescing disabled (intel NIC)
5) CPU core isolated for LinuxCNC (cpu 1) (I am not sure how to confirm this is actually working as intended)
6) Ethernet IRQ pinned to isolated CPU (cpu 1)

The latency histogram as a result looks like this (6 glxgears & running YT videos):
 

~60 us of max latency.   Is this worth continuing to try to use or should I be looking at a better computer?  Any advice appreciated.

I have not hooked it up to the machine yet to try it.  Hope to be attempting that in coming weeks.  Thought I'd post this to see if I need a different computer first.

- Dave

 

I am aware of one or more similar projects, but they did not seem to fit my use case.

This is entirely vibe coded. I have not studied the code. I chose GPL for the code license, but considering this is an ai production, I was wondering, maybe I should change it to 'public domain' ?

Use at your own risk. This software is not for use anywhere it could cause machine damage or personel injuries.

This project is currently 'pre-release' stage. It can be installed via git from [1].
you will need to install sshpass, and have ssh access over the local trusted network to linuxcnc.
Make sure to click 'Setup' before trying to use 'Connect', 'Disconnect', or 'Load hal modules'.
```
sudo apt install sshpass
```

Goals of this project:

1. Visualization of the current running hal config on any LinuxCNC machine over local trusted network.
2. Editing of parameter values, signal names and values.
3. Automatic detection of loadable hal components on the running LinuxCNC instance.
4. Load/Save configuration projects within the linuxcnc/configs directory.
5. Live parameter and pin value displays while connected to a live hal system.
6. Live editing of the running hal via net, setp, unlinkp, loadrt, and related commands over ssh connection to the machine directly via interaction with the nodes in the canvas. This action will be preceded by a popup strongly encouraging the user to first e-stop the machine. This will avoid having to constantly reload linuxcnc after minor edits.
7. Still dreaming...


Of the above list:

(1.) is working on my pc, except the checkbox option "Use localhost" for running halflow directly on the linuxcnc pc, is currently undefined.
(2.) Is working. Known bug: the editor allows you to copy/paste to create multiple instances of singleton components.
(3.) detects installed components; to properly detect custom components make sure you fully installed with:
```
sudo halcompile --install my-custom-component.comp
sudo halcompile --install-doc my-custom-component.comp
```
TODO: find custom python components also.
(4-7) Coming soon...

[1]  git.disroot.org/nwe/halflow.git