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.
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.
Care to elaborate? Every cloud “solution” I’ve been pitched is just a super expensive way to bottleck everything at the router.
Am easy option is to check the output of lsusb
and check which bus the storage device shows up on. Device 1 on each bus is the controller which will show as usb1/2/3, with every other device on that bus running at that speed.
The flip side to this, is that the vast majority of meat in pet foods is effectively waste from human-grade meats, for the same reason. That means the price point for competition in pet foods is significantly lower.
It also means that there won’t be as direct of an impact on livestock numbers should pet food be sourced via synthetic meats, as it just means the byproducts which would enter the food chain for dogs instead become waste products with a cost of disposal.
smartmontools has some good functionality for interfacing with SMART via usb bridges that do not provide native functionality.
Fair. No arduino kits though?
If you’re going to the expense of putting a camera on it, why not take it a little further and slap together an arduino-based sensor suite with some logging? See if you can find any correlations in temp/humidity/gas conc that might help with diagnosis.
I just wish it was multithreaded so that i could maintain a colony for more than a week without slowing to potato speeds.
My n00b theory on it, with the proviso that I am not a developer and only have a basic understanding of multithreading, is that you would break up the map into regions, and have each regions pawns and environment handled independently by separate threads/cores while one master thread handled interactions between regions and kept them all in sync.
Regions could dynamically scale depending on how computationally intensive they are, such that when the master/watchdog thread has to wait for one thread significantly longer than any of it’s adjacent region threads, it remaps the boundary iteratively until it acheives minimal wait-time and the load is evenly balanced.
As it stands, I’ve got one core maxed out and the game running slower than realtime while my 15 other cores sit at idle like suckers.
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.
Probably a part of it. Working with the typical ages at which they are each killed, a cow killed for beef produces around 100kg meat per year, whereas a cow killed for milk produces both 300kg of milk solids per year and 25kg of meat per year.
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.
I’ve never encountered that theory before. As far as my exposure has been, most opposition to 1080 is based around bykill; the effect of the poison on non-target species.
The scientific evidence suggests that the number of natives killed unintentionally by 1080 drops is more than compensated by the increased survival rates of those who now suffer less predation, but walk into any pub and you’ll find half a dozen people throwing out anecdotes about silent forests in the days after 1080 drops.
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.
I would argue that the modern smartphone is different, but by no means better. Between the locked down operating systems and the lack of a physical keyboard they are great for consuming media through approved channels, but basically useless if you want to get any work done with them.
Haha, ditto. I’ve got the 34inch 4:3 for tasks like cad and image stuff, then next to it the 34inch ultramodern which I use for spreadsheets or multi-pane stuff, then my extra monitor up that lives up at a weird angle is my at-a-glance home for slack, btop, nvtop and any running scripts I want to keep an eye on.
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.