Just drop the anit-cheat requirement and let is handle cheating directly, with vote-to-kick, like we did back in the day.

Fair, unfortunately it was a work machine that i needed operational again asap.

Luckily i image my machine monthly, so it was fairly straightforward to roll back.

Generally yes. My exception was the time i accidentally nuked python in it’s entirety…

At the risk of sounding like stack overflow, do you need to print such large parts? As a general rule I try to make multiple small parts that are then attached together rather than going for single parts that are very big or complex.

If you mess up a couple of placements or tolerances, or your print fails, it’s much quicker to reprint just that portion.

A translation layer could be used, no? Check api version, translate any v1 specific calls into their v2 counterparts, then submit the v2 request?

When will it be commercially available though? Supposedly Seagate has had 30TB drives out for the better part of a year, but I can’t find anything larger than 24TB actually available for purchase.

Most hardrives live in servers, as part of storage volumes where IO can be optimised well beyond the capability of a single disk.

For the boot disk on my workstation I am absolutely using an SSD, but for the hundreds of terabytes of largely static data that I need to keep archived? Spinning disks all the way. Not only to SSDs need to match on price, but they also have a long way to come in terms of longevity.

The trick is to justify buying one for your business, and then using it yourself after hours.

As a business asset, it has paid for itself fivefold in less than a year. As an employee of said business, i have unlimited access to a machine that I could never personally justify the expense of.

If it helps, 80% of the work i do when wearing my sysadmin hat is just ensuring that all of our systems are communicating properly.

I did like one semester of computer science, does that count?

Honestly I just google shit until I understand it. Linux has great documention, and where it fails you can just read the source code.

I save all of my end of life spools for prints that I’m going to be on hand to supervise, then just spend the day hopping up to swap filaments every half hour or so as each one runs out.

Hmm, I probably have that much distributed across my network… maybe I should look into some way of distributing it across multiple gpu.

Frak, just counted and I only have 270gb installed. Approx 40gb more if I install some of the deprecated cards in any spare pcie slots i can find.

smartmontools has some good functionality for interfacing with SMART via usb bridges that do not provide native functionality.

1.2l water

240ml sodium sulfate

60ml sodium chloride

20ml xantham gum(optional for increased efficacy by keeping the solution homogenous)

Boil water, stir until fully dissolved, a small amount of solute should remain, if not, increase sodium sulfate concentration slowly until it does, indicating no free water molecules available for dissolution.

Solution should now be cooled to below 18c( freezing point) for an end product that will regulate temperature to 18c so long as it have sufficient(negative) thermal energy.

Solution of pure sodium chloride will have freezing point approx -20C, while solution of pure sodium sulfate has freezing point +35C. Adjusting the ratio of NaCl to Na2SO4 will shift the freezing point towards either end of thag spectrum, depending on what phase change temperature you are targetting.

Boot into your bios and check the sata mode. A number of machines that I work with(acer predators most notoriously) will for no discernable reason switch from achi mode to rst optane, resulting in no drive being accessible to the os. Switching back to ahci resolves it.

From a read of that article, it appears that they are feeding it analog inputs, which would imply that it is producing analog outputs. I don’t know if there is a way to evaluate floating point operations on an analog system. That said, my knowledge is very cursory, and someone will surely correct me.

This is actually how I do things when working on remote machines. I have far too many monitors, so dedicating on of them to a handful of btop/nvtop terminals works pretty well.

I admit that it’s a less than perfect setup though, and a single program which could handle the remote connections internally and display an aggregate would be nice.

Swappable batteries resolve this issue pretty well. The energy density is far from comparable, but if you’re already hauling a van or trailer to the job site, then a dozen spare batteries isn’t an issue.

Personally, I have ditched kvms and physical machines in favour of virtual machines everywhere. One set of input devices, three monitors, seamless control of each machine.

Are you sure you’re not confusing this with the concept of “binning”, which is a pretty standard practice for chips?

You manufacture to a single spec, expecting there to be defects, then you identify the defective units, group them by their maximum usability and sell the “defective” units as lower end chips. IE, everything with 24-31 functional cores gets the “extra” cores disabled and shipped as a 24 core, everything with 16-23 functional cores gets shipped as a 16 core, etc