RepRapFirmware 3.6.0-alpha.2 for Duet main boards available

Notepad

@o_lampe AH, I probably should have mentioned, in the Y section at the top, I use pliers to grip the printed model to pull it off my bed. Im too lazy to take the PEI off or let it cool down so when I grip it causes those indentations.

Exerqtor

I've done some more testing and tuning as well, both PA, Acceleration & Jerk has gotten some adjustments. This new approach to input shapiny is REALLY a huge improvement!

I'll upload some pictures once i get home, but i at least was able to shave down PA to 0.0075s from 0.0450s ,acceleration to 3000mm/s2 from 2500mm/s2 & upped the jerk to 7mm/s (i can't remember the Jerk values so i'll update those with the pics later). I also turned up the printspeed with 50mm/s across the board.

Here is the "PA-tower" results with a range from 0-0.05s, before i had to run 0.045s PA to get the same result as I get with 0.0072s now.

The printer sounds happier, and the surface quality in the prints is better than ever. Gread job @dc42 & and others who contributed!😁

Proschi3D

I have also tested the firmware and am very satisfied with the improved quality. I haven’t been able to make any fine adjustments yet, but I have increased the speed by 50mm/s as well.

Notepad

Small behaviour test. Acceleration vs smoothing amount.

As a follow on from the PA test, PA should be dialed in once a set aggressiveness is chosen. A printer that is more aggressive with higher jerk and acceleration will require less PA as there is less of an impulse of pressure inside the nozzle as the printer changes directions and speeds.

One of the risks of higher aggression accelerations and jerk values is the amount of smoothing the input shaper applies can lead to lower tolerances, which is especially noticeable in corners intending to be sharp.

Using an IS profile like MZV and ZVD, these appear to have the least amount of aggression based smoothing.

Im not sure how the forum will handle the compression of these pictures (originally 9k photos). The test prints increase in acceleration in the thousands based on the number for that section. 1->10, 12, and 15. In ZVD the printer started to show some ringing artefacts at 8k acceleration mark, but even up to the 15k mark, there didnt appear to be any gap forming in the half moon segments. The over extrusion caused by no PA being enabled did show that at higher accelerations that less PA will be required.

For the EI2 test, it is immediately obvious that the amount of over extrusion due to the lack of PA is greatly reduced, this is probably due to the printer being more aggressive with the smoothing of the geometry causing the over extrusion amount to be mitigated and thus hidden.
While the printed part shows no sign of ringing, what does become visible after the 8k acceleration point is the half moon segments do start to separate and thus the tolerance quality of the part does deviate from the intended shape.

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( I have rewritten this section 4 times already as it just reads like word soup, so bear with me)

This does open up a new choice for printer setting optimisations in terms of optimisation methodology.
I personally require very accurate tolerancing, so my current print profiles were optimised to produce accurate parts with FW3.5.2.
With 3.6.A2+3 and the improvement of the input shaper, I am able to increase my accelerations and jerk values whilst maintaining the same tolerance level.
Accel 3400 -> 6800
Jerk 8 ->12
PA 0.0225 -> 0.0085

It is important to note that the previous settings on 3.5.2 was also the hard maximum as any more and the printer risks layer shifting. This risk seems completely bypassed in 3.6.A2+3 as the printer can handle the higher aggression with ease.

I can also push the printer even faster if I throw perfect tolerances out of the window. I have been able to test accelerations up to 16,000 and Jerk values up to 16mm/s.
This means for prints of a more artistic nature that do not require high engineering level tolerancing even higher speeds are available.

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Of the 8 machines currently deployed with 3.6.A2+3 none have had any failures or show any signs of input shaping oddities. One printers extruder behaviour does sound weird when pausing however it almost appears like the bug with 3.5.2 (where insertion of filament after retracting in a pause being doubled) might be the cause. This bug behaviour has not been tested in this version specifically so take it with a grain of salt.

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Edit, Tested the same with jerk values from 5->30, Same behaviour of smoothing when the print gets more agressive, and less PA is required. a good value for me at 8000accel seems to be 10jerk to maintain detail

Exerqtor

Today i managed to do a print that the new inputshaping couldn't help!

I printed a model with some 0.4mm debossed 7mm tall text on sides of the model the text was "HALDEN PK" (with the "PLAY" font if anyone want to try and it's rinting pretty bad between "N P" and after the "K".
I'll take some pictutes and post this evening!
Here is the results:

Print settings:

• Outer wall acceleration : 3000mm/s2.
• Inner wall acceleration: 5000mm/s2.
• Outer & inner wall jerk: 7mm/s.
• Outer wall speed: 120mm/s.
• Inner wall speed: 200mm/s.
• Pressure advance: 0.0072s.

Tbh. the artifacts look more pressure advance related than input shaping. But anyways i guess it's something worth having a look at.

o_lampe

@Exerqtor Which IS algo did you use and does it look better with rrf 3.5.x?

Exerqtor

@o_lampe said in RepRapFirmware 3.6.0-alpha.2 for Duet main boards available:

@Exerqtor Which IS algo did you use and does it look better with rrf 3.5.x?

It's using ZVD and a 40.5Hz center frequency, forgot to mention that. I haven't tried reverting to 3.5 tbh!

dc42

@Exerqtor those artefacts don't looks like ringing to me. They may or may not be related to PA as you suggest. I suggest you try printing that piece of the print with IS and/or PA disabled, to see what effect it has on those artefacts.

Exerqtor

@dc42 I'll try without PA first and see how that fairs ☺️

droftarts

@Exerqtor You should definitely retune PA with the new IS implementation, if you haven't.

Ian

N3XT3D

I have tested the new version and I have to say it really is a huge improvement. For me, it's the best and most important update so far. My printer is heavy and has quite a high mass that is being moved. Now I can increase the acceleration and jerk with higher print speeds and a much better surface as a result. The printer used to make a lot of noise, especially when changing direction quickly (contours of figures etc.), which is no longer the case. In short, my printer now finally prints the way I always imagined it would, in terms of speed, noise and quality. Thank you for the release and the work involved.

Exerqtor

@droftarts said in RepRapFirmware 3.6.0-alpha.2 for Duet main boards available:

@Exerqtor You should definitely retune PA with the new IS implementation, if you haven't.

Ian

Oh i have 😅 Went from 0.045 too 0.0072 lol

balajiramani

I just tried this on the delta that I have and during calibration, the effector is crashing into the bed. After reverting back to 3.5.2, calibration works fine.

Here is a video of the crash.

Here is config.g

; Setup some global variables
global power_fail_retract = 2   ;  Retract 2mm when power fails

; Communication and general
M550 P"BigDelta"				        ; Machine name and Netbios name (can be anything you like)
M551 Preprap                        	; Machine password (used for FTP)
M552 S1					                ; Enable WiFi. Disabled for setup and testing. Enable once set up on your network.

; Enable telnet
M586 S1 P2

; Debugging
M111 S0                                 ; Debug off
M929 P"eventlog.txt" S1                 ; Start logging to file eventlog.txt

M555 P2                           	    ; Set output to look like Marlin
G21                                 	; Work in millimetres
G90                                	    ; Send absolute coordinates...
M83                                 	; ...but relative extruder moves

; Axis and motor configuration
M569 P0 S0				; Drive 0 goes backwards
M569 P1 S0				; Drive 1 goes backwards
M569 P2 S0				; Drive 2 goes backwards
M569 P3 S0				; Drive 3 goes backwards

; Assign extruder drive
M584 E3


; Set homing switch config
M574 X2 S1 P"!xstop"        ; Set homing switch configuration on S1 = high-end, active-low
M574 Y2 S1 P"!ystop"        ; Set homing switch configuration on S1 = high-end, active-low
M574 Z2 S1 P"!zstop"        ; Set homing switch configuration on S1 = high-end, active-low

; Set it as a linear delta
M669 K3

; Setup paneldue 5i
M575 P1 S1 B57600

M665 R215.062 L395.317:395.475:395.433 B160 H374.050		; set delta radius, diagonal rod length, printable radius and homed height
M666 X0 Y0 Z0				; put your endstop adjustments here, or let auto calibration find them
M350 X16 Y16 Z16 E16 I1    	; Set 16x microstepping with interpolation
M92 X200 Y200 Z200			; Set axis steps/mm

M906 X1400 Y1400 Z1400 E1400 I60	; Set motor currents (mA) and increase idle current to 60%
M84 S60                             ; Set idle timeout
M201 X12000 Y12000 Z2000 E10000        ; Accelerations (mm/s^2)
M203 X30000 Y30000 Z5000 E3600		; Maximum speeds (mm/min)
;M566 X900 Y900 Z300 E3600 P1		; Maximum instant speed changes mm/minute
M566 X300 Y300 Z300 E450 P1         ; Maximum instant speed changes mm/minute
M204 P6000 T6000                    ; Set acceleration for print and travel moves

; Configure Input shaping
M593 P"zvdd" F45

; Thermistors
M308 S0 P"bed_temp" Y"thermistor" T100000 B3950 R4700 H30 L0	; Put your own H and/or L values here to set the bed thermistor ADC correction
M308 S1 P"e0_temp" Y"thermistor" T100000 B3950 R4700 H30 L0	; 100K NTC 
;M308 S1 P"e0_temp" Y"thermistor" T100000 B4658 C6.5338987554e-08 ; 104-NT Aliexpress thermistor

M950 H0 C"bed_heat" T0      ; Set up H0 as the bed heater using T0 as the sensor
M950 H1 C"e0_heat" T1       ; Set up H1 as the extruder heater using T1 as the sensor
M140 H0                     ; Map H0 as the bed heater

; Set temperature excursion warnings
M570 H0 P20
M570 H1 P20

M308 S3 Y"mcu-temp" A"MCU" ; configure sensor 3 as thermistor on pin e1temp for left stepper
M308 S4	Y"drivers"  A"Drivers"  ; configure sensor 4 as temperature warning and overheat flags on the TMC2660 on Duet
M912 P0 S-3.5               ; Calibrate MCU temp

; Fan definitions
M950 F0 C"fan0"
M950 F1 C"fan1"
M950 F2 C"fan2"

; Thermostatic fan on 1 for cooling the hotend
M106 P1 T50 H1
; Thermostatic fan on 2 for cooling the board
M106 P2 H3:4 L.3 X1 B0.3 T35:70 ; set fan 2 value

; Tool definitions
M563 P0 D0 H1                       	; Define tool 0
G10 P0 S0 R0                        	; Set tool 0 operating and standby temperatures
;M92 E1392								; Based on https://www.thingiverse.com/thing:1359717; 2023/01/06
M92 E1077.1646                          ; This is the new value for the hobb-goblin extruder.  03/07/2023
;M92 E319.2005                           ; Set extruder steps per mm.  This is for the MK8 gear

; Z probe and compensation definition
M558 P8 C"^!zprobe.in" R0.4 H4 F1200 T6000 A5 S0.01	; Z probe is a piezo sensor
G31 X0 Y0 Z-0.08 P100			; Set the zprobe height and threshold
M557 R150 S20				; Probe within a radius of 150mm and mesh spacing of 20
M376 H5                     ; Taper off bed compensation after 5mm

; Configure power failure and resume
M911 S21.0 R23.0 P"G91 M83 G1 Z3 E{-global.power_fail_retract} F1000" ; Relative movement and extrusion.  Move head up and retract 2mm filament.

M208 S1 Z-0.5				; set minimum Z
T0					        ; select first hot end

M501					    ; Load any config overrides

Here is bed.g:

M561						; clear any bed transform, otherwise homing may be at the wrong height
M290 R0 S0			; Remove any baby stepping

; bed.g file for RepRapFirmware, generated by Escher3D calculator
; 16 points, 4 factors, probing radius: 150, probe offset (0, 0)

; If the printer hasn't been homed, home it
if !move.axes[0].homed || !move.axes[1].homed || !move.axes[2].homed
  G28

; Probe the bed and do auto calibration
G1 X0 Y0 Z10 F10000        ; go to just above the first probe point
while true
  if iterations = 5
    abort "Too many auto calibration attempts"

  G30 P0 X0.00 Y150.00 Z-99999 H0
  if result != 0
    continue
  G30 P1 X96.42 Y114.91 Z-99999 H0
  if result != 0
    continue
  G30 P2 X147.72 Y26.05 Z-99999 H0
  if result != 0
    continue
  G30 P3 X129.90 Y-75.00 Z-99999 H0
  if result != 0
    continue
  G30 P4 X51.30 Y-140.95 Z-99999 H0
  if result != 0
    continue
  G30 P5 X-51.30 Y-140.95 Z-99999 H0
  if result != 0
    continue
  G30 P6 X-129.90 Y-75.00 Z-99999 H0
  if result != 0
    continue
  G30 P7 X-147.72 Y26.05 Z-99999 H0
  if result != 0
    continue
  G30 P8 X-96.42 Y114.91 Z-99999 H0
  if result != 0
    continue
  G30 P9 X0.00 Y75.00 Z-99999 H0
  if result != 0
    continue
  G30 P10 X64.95 Y37.50 Z-99999 H0
  if result != 0
    continue
  G30 P11 X64.95 Y-37.50 Z-99999 H0
  if result != 0
    continue
  G30 P12 X0.00 Y-75.00 Z-99999 H0
  if result != 0
    continue
  G30 P13 X-64.95 Y-37.50 Z-99999 H0
  if result != 0
    continue
  G30 P14 X-64.95 Y37.50 Z-99999 H0
  if result != 0
    continue
  G30 P15 X0 Y0 Z-99999 S6
  if result != 0
    continue
  if move.calibration.initial.deviation <= 0.03
    break
  echo "Repeating calibration because deviation is too high (" ^ move.calibration.initial.deviation ^ "mm)"
; end loop
echo "Auto calibration successful, deviation", move.calibration.final.deviation ^ "mm"

Exerqtor

Moved to new topic.

@balajiramani
Funny that you mention that.

I've been doing roughly 24hours of printing on 3.6.0-a2+2 now without any notable issues, but when I'm about to start print this morning (a print finished in the middle of the night, and the printer has just stood idle since that) it's acting up/crashing into the bed.

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(The printer is a Voron Triden by the way.)

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I start a print from the office and waits for the printer to start homing, hear it homing XY and when it goes of to home Z I hear steppers just turning and turning, so I go out and check on the printer. Turns out the rear-center Z stepper is standing still(with the carriage roughtly about where it should be), while both the front Z steppers are still going in a downwards motion about halfway along the Z-axis (I have "WobbleX" on the z-axis).

So I hit the E-stop and check out DWC and what it has to say about this:

26.7.2024, 09:58:32	Emergency Stop! Reset the controller to continue.
                        Error: Failed to home axes Z
26.7.2024, 09:58:32	Emergency stop, attemping to reconnect...
26.7.2024, 09:58:12	G28 Z
                        Warning: Driver 0.2 warning: phase A may be disconnected, phase B may be disconnected
26.7.2024, 09:55:59	Error: G10: Probe was not triggered during probing move
                        Cancelled printing file 0:/gcodes/Automower/Rim_automower_305_0.2mm_ABS_0.4n_2h14m.gcode, print time was 0h 16m
                        Error: in file macro line 114: G1: insufficient axes homed
26.7.2024, 09:53:33	Warning: Driver 0.2 warning: phase A may be disconnected, phase B may be disconnected
26.7.2024, 09:51:07	Warning: Driver 0.2 warning: phase A may be disconnected, phase B may be disconnected
26.7.2024, 09:49:20	Warning: Driver 0.2 warning: phase A may be disconnected, phase B may be disconnected
26.7.2024, 09:39:45	M32 "0:/gcodes/Automower/Rim_automower_305_0.2mm_ABS_0.4n_2h14m.gcode"
                        File 0:/gcodes/Automower/Rim_automower_305_0.2mm_ABS_0.4n_2h14m.gcode selected for printing

This all sounds somewhat odd since "Driver 0.2" is the one for the rear-center stepper, which don't seem to be doing anything weird.

Anywho, I power down the printer and manually reset the two font axis & lock the bed. Then I flip the machine around to check the wiring which all looks good. But the machine back on it's feet, power up, remove the bed locks and home the printer: all seems fine. Ok? So I jog the printer through full Z motion min-max-min with Paneldue and all seems fine.

Not seeing anything apparently borked I bring the bed up to heat again and attempt to run a tram routine (homing all axis, coarse tramming pass with 10mm dive height, then "n-number" of fine passes with 2mm dive height until the deviation is bellow 0.005mm). It runs the coarse pass, and ATTEMPTS to apply the initial adjustments:

2024-07-26 10:15:06 [warn] Leadscrew adjustments made: -2.315 2.178 1.401, points used 3, (mean, deviation) before (0.660, 1.775) after (-0.000, 0.000)

But for some reason the steppers don't move correctly so when it goes of with the second pass @ 2mm dive height it ends up scraping the nozzle allong the buildplate rather than hover 2mm above it (I've got Voron TAP, so it's not the biggest issue in the world with a slight "nozzle kiss" thankfully).

At this point I of course slap the E-stop again and go over everything once more still without finding anything wrong. And again confirming full range of motion on the Z axis and rulling out phase/connection issues to the Z-steppers as far as I can understand.

Try once more, and the exact same happens, and that's where I'm at now.

Like I opened up with saying, I've done multible trams (restarted the printer a couple times and it trams the bed first print after each reboot), without issues during the roughly 24hours of print time I have on it with 3.6.0-a2+2.
And that this happens with the printer standing idle after a print has finished is somewhat weird (roughly 3.5 hours between the night print finished and i tried starting a new one this monring).

balajiramani

I should add that this with a Duet 2 Wifi running 3.6.0-a2+3

Notepad

@Exerqtor I think @dc42 is right. This looks like under extrusion to me from weird PA artifacts or possible retraction behaviours

Notepad

@balajiramani Do you think it would be possible to gather some diagnostic logs? I also use a Duet 2, but on a coreXY system, I would assume a delta has a higher amount of processing requirements So it would be interesting to see what's going on behind the hood.

I personally use this process to gather the data:

• Power cycle the printer
• YAT USB connection
• M122 as a baseline diagnostic
• m111 p4 d1 b2048
• Print till failure / untill not happy (Dont Estop, only cancel as you want to save the data from the printer)
• M122 as a final diagnostic log
• Estop
• Save diaglog

Exerqtor

Just had time to roll back to 3.5.2 to check if fixes the problem, which it did. So it looks like it's something going on somewhere in regard to Z axis controll in 3.6.0-a2+3 @dc42.
I haven't got anything else than eventlogging going on at the time so i don't know if it's much if any usefull info one can pick up from that. If you think it might i can supply the entire log from the last couple days.

---

I'll open a new topic for the issue to keep this one from overflooding 👌

ProteanReverie

I have begun testing on two machines that are nearly identical, but one with a Duet 2 controlling it and one with a Duet 3 controlling it. I am very excited about the results I am seeing in print quality improvement. I have not yet encountered any noticeable issues with 3.6A2+3. Prints have run largely unattended, so if there was anything unusual that happened mid-print I could have missed it. Results off of the Duet 2 setup and Duet 3 setup look the same for the tests I have run.

Gcode was identical across both machines and both firmware versions. Input shaping is configured as ZVDD F15 on both machines. Pressure advance is enabled with a value of 0.04 on both machines.

These tests were done with a Hemera Revo 0.4HF nozzle and PETG material. I am also starting tests with a 1.0 nozzle but do not have that data yet.

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Duet 2 setup:
Duet 2 Wi-Fi external antenna
Duex 5

Ghost text:
3.5.2 = Never used RAM 11712, free system stack 112 words
3.6A2+3 = Never used RAM 21704, free system stack 120 words

Benchy:
3.5.2 = Never used RAM 11544, free system stack 110 words
3.6A2+3 = Never used RAM 18512, free system stack 116 words

Accel test:
3.5.2 = Never used RAM 11568, free system stack 114 words
3.6A2+3 = Never used RAM 21656, free system stack 122 words

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Duet 3 setup:
Duet 3 Mini 5+ WiFi main board in standalone mode
Duet 3 Mini 5+ CAN expansion board

Ghost text:
3.5.2 = Never used RAM 12068, free system stack 128 words
3.6A2+3 = Never used RAM 39644, free system stack 130 words

Benchy:
3.5.2 = Never used RAM 11900, free system stack 122 words
3.6A2+3 = Never used RAM 37052, free system stack 130 words

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Here is an example of the difference in ringing/ghosting from the Ghost Text model. 3.5.2 is on bottom, 3.6A2+3 on top.

Please let me know if there is any other information I can provide that would be beneficial.

DonStauffer

@ProteanReverie Sorry I'm not up to speed on the latest features, but is there some particular feature that has to be enabled or configured to get that improvement in the ringing, or is it just improvements to the RFF code?