released vkdt 0.5.0

Can vkdt edit raws of the canon r series? I have access to samples from a canon rp, but i am not sure if that’s useful

Hm:

[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[nprof] WARN: reducing expectations 3x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-64.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-80.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-100.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-125.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-160.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-200.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-250.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-320.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-400.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-500.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-640.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-800.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-1000.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-1250.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[nprof] WARN: reducing expectations 3x because we collected very few valid samples!
[nprof] WARN: reducing expectations 4x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-1600.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-2000.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-2500.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-3200.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[nprof] WARN: reducing expectations 3x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-4000.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[nprof] WARN: reducing expectations 3x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-5000.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[nprof] WARN: reducing expectations 3x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-6400.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[nprof] WARN: reducing expectations 3x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-8000.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[nprof] WARN: reducing expectations 3x because we collected very few valid samples!
[nprof] WARN: reducing expectations 4x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-10000.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[nprof] WARN: reducing expectations 3x because we collected very few valid samples!
[nprof] WARN: reducing expectations 4x because we collected very few valid samples!
[nprof] WARN: reducing expectations 5x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-12800.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[nprof] WARN: reducing expectations 3x because we collected very few valid samples!
[nprof] WARN: reducing expectations 4x because we collected very few valid samples!
[nprof] WARN: reducing expectations 5x because we collected very few valid samples!
[nprof] WARN: reducing expectations 6x because we collected very few valid samples!
[nprof] WARN: reducing expectations 7x because we collected very few valid samples!
[nprof] ERR: could not find a single valid sample!
[o-jpg] writing ‘Nikon-Z 9-16000.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[nprof] WARN: reducing expectations 3x because we collected very few valid samples!
[nprof] WARN: reducing expectations 4x because we collected very few valid samples!
[nprof] WARN: reducing expectations 5x because we collected very few valid samples!
[nprof] WARN: reducing expectations 6x because we collected very few valid samples!
[nprof] WARN: reducing expectations 7x because we collected very few valid samples!
[nprof] ERR: could not find a single valid sample!
[o-jpg] writing ‘Nikon-Z 9-20000.nprof’
[nprof] WARN: reducing expectations 1x because we collected very few valid samples!
[nprof] WARN: reducing expectations 2x because we collected very few valid samples!
[nprof] WARN: reducing expectations 3x because we collected very few valid samples!
[nprof] WARN: reducing expectations 4x because we collected very few valid samples!
[nprof] WARN: reducing expectations 5x because we collected very few valid samples!
[nprof] WARN: reducing expectations 6x because we collected very few valid samples!
[o-jpg] writing ‘Nikon-Z 9-25600.nprof’

So twice it produced an ERR message, but seemed to write the profile anyway. Is this OK?

can you post the corresponding jpg it writes? these contain a visualisation of the raw histogram, the pointwise noise estimation, and the fit. it should be obvious whether that makes sense when we look at it. the warning output does indeed not sound overly convincing

if that is about cr3, yes we can load it.

ouch yeah that’s not going to work. i can see only three noise estimation samples (the red lines) and the fit (white line) is completely off. strange because the historgram looks good to me. if you could share the raw file with me i can take a look to see where it’s going wrong.

Here’s the raw file.
This was for the second highest iso. The highest iso image also suffered the same err.
I can also point you to the darktable PR if you wish.
DSC_0513.nef (62.9 MB)

In vkdt/readme.md at 0.5.0 · hanatos/vkdt · GitHub there are lots of graphic links that all result in 404 Not Founds. E.g. https://github.com/hanatos/vkdt/blob/0.5.0/doc/howto/gui-basics/node-editor.jpg

right. these point to the images in the website repository, which is used to create the website (https://jo.dreggn.org/vkdt/doc/howto/gui-basics/readme.html for the one you mention). i didn’t want to push stuff like this into the main code repository.

Thanks for helping with you tips… Happy New year

thanks for the raw. a quick heads up: it seems you were too successful preparing a good noise sample this overflows some of my integers. i can create a good profile when i limit the number of samples during collection, but that seems stupid. i’m collecting this data as integer, not as float, only because amd doesn’t have float atomics. i have a different kind of workaround that should be applicable here too (but will take >10min to drop in).

I don’t believe wsl has the necessary GPU support… There are some virtualization but I’m pretty sure it won’t work for Nvidia maybe Intel… I saw some drivers for that hardware… It may have progressed but I don’t think it will run on wsl… report back if you do get it running…

It works! I spent most of this morning setting up Tumbleweed (Nice, btw, better than Mint which I’v used before) on a USB drive (actually an SD card…),then vkdt, which didn’t run, so then I installed the Nvidia drivers, et voila!
I’ve used up all the time I had available this morning (which was a lot) but the next step is to learn how to use it properly. Even though I’ve only tried it on an image on a HDD connected via USB 2.0, it’s still really fast… makes me think “is it actually working?” “or just pretending to”!

Lighttable is showing a lot of pixilated bees (?), except on the images that I’ve opened in darkroom. Need to read up on things.

now that would be a bug. it should only show these for a short amount of time while loading. if you can reproduce this, let me know how or else try to reload maybe by clicking the same directory in the “recently used” folder?

fwiw pushed the quick fix, will do the proper subgroup/float atomics soon.

I tried that, and that goes a little weird too. To save trying to describe it, I’ve saved a screen capture. Hope it answers a few questions, but ask if it doesn’t!
simplescreenrecorder-2023-01-03_20.43.03.mkv (25.1 MB)
Bear in mind that my Linux knowledge is patchy at best so I may well miss something obvious!

great thanks for the video. you installed the OBS package, right? this looks like it doesn’t find the default.i-raw or is somehow completely unable to process thumbnails in general. once you opened it in darkroom mode it will have its own .cfg file. the OBS packages do ship this file though (as /usr/libexec/vkdt/default.i-raw), so i don’t have a good idea what may be the issue.

could you maybe start it from a terminal, as vkdt -d all -D perf and see whether the console output contains any clues? with a bit of luck it complains about something.

(and there’s another issue that it sometimes renders absurd thumbnails instead of the atari-style loading icon)

This is the one I installed… I’m just rummaging around trying to get my VPN set up on Tumbleweed … learning (or not!) as I go. Will try starting from terminal soon.

…and this is in the folder you mentioned.

right. thanks for confirming. seems to be all there. not sure what’s going on then. let my try to open a folder with the same name as yours locally here (it does contain punctuation and spaces, who knows…).

Did that, here you go: Doesn’t look very helpful, but I might not know if it was!

SG4@localhost:~> vkdt -d all -D perf
[gui] glfwGetVersionString() : 3.3.8 X11 GLX EGL OSMesa clock_gettime evdev shared
[gui] monitor [0] DP-0 at 0 0
[gui] vk extension required by GLFW:
[gui]   VK_KHR_surface
[gui]   VK_KHR_xcb_surface
[qvk] validation layer: Copying old device 0 into new device 0
[qvk] dev 0: vendorid 0x10de
[qvk] dev 0: NVIDIA GeForce GTX 1650
[qvk] max number of allocations -1
[qvk] max image allocation size 32768 x 32768
[qvk] max uniform buffer range 65536
[qvk] num queue families: 3
[qvk] picked device 0 without ray tracing and with float atomics support
[qvk] available surface formats:
[qvk] B8G8R8A8_UNORM
[qvk] B8G8R8A8_SRGB
[qvk] colour space: 0
[gui] no joysticks found
[gui] no display profile file display.DP-0, using sRGB!
[gui] no display profile file display.DP-0, using sRGB!
[qvk] available surface formats:
[qvk] B8G8R8A8_UNORM
[qvk] B8G8R8A8_SRGB
[qvk] colour space: 0
[db] allocating 1024.0 MB for thumbnails
[mem] images : peak rss 0.000488281 MB vmsize 0.000488281 MB
[mem] staging: peak rss 0.000488281 MB vmsize 0.000488281 MB
[perf] time to load images 0.000s
[qvk] available surface formats:
[qvk] B8G8R8A8_UNORM
[qvk] B8G8R8A8_SRGB
[qvk] colour space: 0
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.000488281 MB vmsize 0.000488281 MB
[mem] staging: peak rss 0.000488281 MB vmsize 0.000488281 MB
[perf] time to load images 0.000s
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.000488281 MB vmsize 0.000488281 MB
[mem] staging: peak rss 0.000488281 MB vmsize 0.000488281 MB
[perf] time to load images 0.000s
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.000488281 MB vmsize 0.000488281 MB
[mem] staging: peak rss 0.000488281 MB vmsize 0.000488281 MB
[perf] time to load images 0.000s
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.000488281 MB vmsize 0.000488281 MB
[mem] staging: peak rss 0.000488281 MB vmsize 0.000488281 MB
[perf] time to load images 0.000s
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.000488281 MB vmsize 0.000488281 MB
[mem] staging: peak rss 0.000488281 MB vmsize 0.000488281 MB
[perf] time to load images 0.000s
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.000488281 MB vmsize 0.000488281 MB
[mem] staging: peak rss 0.000488281 MB vmsize 0.000488281 MB
[perf] time to load images 0.000s
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.0703125 MB vmsize 0.0703125 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 625.219 MB vmsize 650.098 MB
[mem] staging: peak rss 157.865 MB vmsize 157.865 MB
[mem] images : peak rss 227.188 MB vmsize 242.059 MB
[mem] staging: peak rss 31.1985 MB vmsize 31.1985 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB
[mem] images : peak rss 311.797 MB vmsize 311.797 MB
[mem] staging: peak rss 187.684 MB vmsize 187.684 MB
[mem] images : peak rss 64.7031 MB vmsize 64.7031 MB
[mem] staging: peak rss 61.5647 MB vmsize 61.5647 MB
[mem] images : peak rss 0.101562 MB vmsize 0.101562 MB
[mem] staging: peak rss 0.101074 MB vmsize 0.101074 MB

strace -fF -s 1024  -e trace=file --seccomp-bpf vkdt <other args> 2>&1 | grep default.i-raw

i can reproduce with /tmp/2022-12-29 XS incl. burger, back road/ let’s see…