I own the Sovol SV06, it was my first printer but it was also the cheapest option for me ($169 IIRC). The Sovol has given me two problems in the entire time I used it:

1. When it came in, the extruder was jammed. Wouldn’t print or extrude any filament for some reason. Followed a 2 minute video on Sovol’s Amazon page to resolve it (although it did involve disassembling the hotend).

2. The extruder decided to encase itself in plastic one day when I printed something on it. That was a bitch and a half to clean, had to take a heat gun to it to soften the plastic then scrape it off without burning myself. My best guess is it was caused by me forgetting to run bed leveling after moving the printer a bit, hasn’t happened again.

Other than those two times it just works every time I need it. It was sitting dormant for ~3 months and I just kicked off a print yesterday, no problems. Fired right up and everything printed perfectly.

With that said, is it €239 of “Just works”? Probably not. I immediately couldn’t do some prints I planned because of the build volume (although all three of your options have the same build volume). So I’m already considering upgrading to an SV06 Plus. So check some of what you want to print that it’ll fit in 220x220x250.

I did some research on your other options and as far as I can tell, the main difference between them and the Sovol is the all metal hotend and print speed.

Sovol SV06 has an all-metal hotend so you can print high temperature filaments (PETG/TPE/CFN/etc) without worry (does require a harder nozzle most likely though). The other two seem to have some metal but are not fully metal, so if you want to hop into the more exotic materials you’ll have to upgrade those.

Second is speed, my SV06 prints at 80 mm/s. It is slow. Smallest prints take around 2-3 hours. My current print will be done after 24 hours. This is fine for me as most of my prints need complex geometry, so I’d rather it take longer and be accurate than run it too fast. The others claim a max speed of 250mm/s which would be a bit over 3x faster than the Sovol. If they can actually print at that speed without looking awful, that’s a pretty big upgrade time-wise.

If you need exotic filaments and don’t want to upgrade the hotend yourself for it then consider the Sovol. Other than that, the price in your region makes it not an option in my opinion. The Sovol just is a budget printer, only makes sense at budget prices. The Kobra and Ended you mentioned look very similar other than that, they both have auto bed leveling (a must have), same build size, very similar designs. Personally I’d lean towards the Ender, just for the community support. But do some research and see how many community member posts you see online resolved with the two. They seem to be functionally identical to me otherwise (just looking at a spec sheet, I do not have irl experience with either of these printers)

Note that isn’t illegal, it just means the company doesn’t get to get out of paying unemployment when it happens. And that’s only if someone is willing to challenge them on it.

Don’t listen to what he said… But SD cards are generally not very reliable. They might be fine they might die on you silently after a week.

Higher quality ones are better of course, but the quality of flash in SD cards varies wildly. I wouldn’t store anything on an SD card that I don’t already have a second copy of somewhere. (If I want to preserve it and it would cause problems for me to lose it)

This is a pretty big overstatement.

DO NOT USE AN SSD to store your data long-term! Solid-state storage has a very short, finite life-span.

This has not been true for years. SSDs are generally more reliable than HDDs except in write-intensive applications (and even then… It really depends on what exact models you are comparing). SSDs have a life-span mostly talked about in terms of TBW (terabytes written) rather than years for a reason, if they’re powered on and not written too they’ll last as long as or longer than a hard drive. (Note: Powered on regularly, SSDs can lose data if stored unpowered for a long time (months)). If you just have an archival drive you’re not constantly erasing and rewriting data to, an SSD is a great choice. Reads also barely affect the lifespan of at all, so you can still access the data you want to protect (hell, write-lock the drive even and it’ll last decades if powered on).

What you want to do is buy an even number of hard drives, plug them in long enough to copy your data to, and then unplug them and store them in a climate-controlled area. bout once a year, copy the data to a different hard drive

This is just plain silly. Yes, the mechanical wear of the drives spinning up and down means they’ll die faster. But we’re still talking MTBF measured in years. And replacing a hard drive that’s barely used every single year? That’s not just bad advice it’s creating e-waste for no reason. Also note drives fail on a bathtub curve… If you have two good drives that lasted a year, you are increasing your chances of a failure by swapping them for two brand new drives… The best thing you can do for your hard drives is to not power cycle them constantly, any typical usage is fine. Also mechanical parts can actually wear out from disuse as well. Even archival services don’t go to these extremes you’re recommending.

If you really care about saving your data follow 3-2-1. 3 copies of your data (live, archival (external HDD or similar), off-site), two-different forms of media (HDD, SSD, cloud (yes cloud is an HDD or SSD but they have their own redundancy)), one off-site (in the event of a fire etc.)

Honestly 99.9% of consumers would be fine with a 2-2-1 scheme, 2 copies (live and off-site/cloud), 2 forms of media, 1 off-site. If you don’t trust Google or don’t want to pay for cloud storage, set up a server with redundant disks at a friend’s house. Just keeping a second copy on a server with redundancy is plenty of fail over for most use cases. 3-2-1 is for data centers and businesses (and any cloud service you rent from will follow 3-2-1…) Let’s not overcomplicate how difficult it is to keep data intact, if I tell someone to buy a new 12tb HDD each year they’re just gonna give up on keeping it safe.

I’ve seen comparisons of the 32GB vs 16GB GPD Win4 and there’s about a 10-15% uplift in performance at the same TDP in a lot of games with the 32GB model.

So it can give an increase in performance, or at the least let you run at a slightly lower TDP for the same performance and a bit better battery life.

Of course this was the 6800U, hard to say if the effects are similar for Intel’s chipset or not.

The not-so-quiet part here is “Homeless or poor people don’t deserve to have their basic need of a toilet met”

They call it a “need” but proudly talk about how they’re taking it away from the less fortunate.

If it was part of the initial work agreement that it would be remote then almost certainly it would count.

A rapid shift in job responsibilities or expectations (such as commuting two hours a day vs. 0) can be considered as “Constructive dismissal”

Even if it wasn’t part of the original hiring agreement, if it’s been that way for years or you have direct emails stating it’s fully remote from now on you likely have a good case.

Agreed, they both suck but I’ll at least stick with the one that begrudgingly lets me install what I want vs. the one that tells me what I’m allowed to install completely.

12V sealed lead-acid batteries are a standard size and chemistry… They are absolutely not comparable to a BEV battery. The lithium ion 12V batteries are built to the emissions standards and regulations of the 12V lead acid, that’s a known quantity and a hell of a lot less energy. BEV batteries contain kwH of energy, they are significantly larger, are a nonstandard size on every single vehicle. Even if Toyota made it the same size and shape, the energy density might be enough to fail EMC regulations (without having to change the size and shape)

I don’t know what else to tell you man, I work on electric vehicles for my job. Literally an engineer. You can choose to not believe me but it just isn’t anywhere near as simple as you’re acting like it is. Just because you think it’s like swapping an alkaline AA for a NiZn AA doesn’t make it true.

Different battery chemistries do not behave identically in terms of failure modes, EMC emissions and interference response, and tons of other things. Just swapping one battery for another has a huge effect even before you consider auxiliary components like charging circuitry.

My assumptions as to why you can just drop in an aftermarket battery and crate motor into an existing ICE vehicle (also, far from any vehicle, it is a relatively niche product) are that A. The batteries are way smaller and aren’t structural to the frame the way they are in BEV-first designs (but this is how we get good range out of them). B. The companies selling these probably aren’t held to the same emissions standards that an automaker is.

Again, these are assumptions, I don’t work in conversions but in BEV designs primarily. I know there’s a ton of red tape for us to even think about changing battery chemistry, and we 100% would have to get all new certifications for it.

What certification does it need other than be certified by Toyota for use?

Engineer in the automotive industry here. Vehicles need a ton of certification by tons of different governments and face very strict regulation.

Just a battery alone is going to be subject to lots of EMC emissions and interference tests. Then you have the capability to survive crashes, fail operational requirements, how does the battery fail (does it explode or just disconnect itself?), etc. etc. These are all dependent on the chassis the battery is in, so they can’t just swap it into an existing chassis and say “Oh it worked with battery A, it’ll work with battery B.” Unfortunately the requirements are just way too strict for that.

Additionally I can’t go into details but the sentiment others are echoing of “If it’s coming in 2028 they should have a functioning prototype” are true in my experience. It takes several years to design and release a car, and when you’re introducing a new battery tech or drive train or similar changes it takes even longer.

then it probably isn’t sustainable to pay that same person for doing nothing…

Why is that unsustainable?

That person isn’t going to spend their life doing “nothing,” humans have an intrinsic need to do something. Psychology has shown us pretty conclusively. The difference is once we’ve automated so much, that can be whatever we want instead of focusing on the bare necessities to survive. The only way “paying someone to do nothing” is unsustainable is if you’ve bought into the lie that our value as human beings is inherently tied to what we produce for capitalism.

149 hours of total renewables generation, 95 of which saw the Portuguese grid exporting to Spain

Pretty sure this is why. They sold the excess energy to Spain which probably paid for those costs by itself, leaving nothing to bill citizens for.

How do we intend to pay a person who contributes nothing to society?

Why must we value how a person “contributes to society” via their output for capitalism?

Is studying philosophy useless? Is making art? Is reaping the benefits of a society built upon tens of thousands of years of human innovation to just sit back and relax a bit?

Humanity worked hard to get to a point where this is even a question. If you listen to the capitalists saying “If you’re not working you’re worthless” then you’ve been tricked. Tens of thousands of years of human innovation and suffering to advance society to a point where we don’t all have to work, but the rich want you to think that’s a bad thing. It is not natural that the benefits of all of that effort and suffering should all collect in the hands of a few at the top while everyone else suffers.

The “simple answer” is UBI because there literally is no alternative short of outright killing people that don’t work to maintain automation. You and everyone else deserves a cut of that pie, we and all of our ancestors put blood, sweat, and tears into it. Let the people relax and enjoy the fruits of that society.

Doesn’t Tesla only use cameras and image processing though? As in no radar at all?

I at first thought it was the action figurine company Figma and was very confused.

Pulls directly from YouTube or whatever other source you have a plugin for. So yes it’ll catch automatically when people release new videos.

Owning a ghost gun is a crime, right?

(Ignoring the fact that “ghost gun” is a meaningless and intentionally emotionally charged term)

In New York, yes. In the vast majority of the US, no. It’s illegal to file the serial number off an existing firearm, but 100% legal in most states to manufacture your own unserialized firearms for personal use. Just cannot be sold/transferred.

I’d note the article you linked says nothing about how many of those are actually 3D printed, it is infinitely easier to deface the serial number on an existing firearm than it is to 3D print one.

“Holo House” is the farming and fishing minigame. I believe you unlock it once you beat stage 1, it shows up in the main menu as “???” until unlocked.

It was a bug in that version of the distro IIRC, trying to install Steam would instead try to install the SteamOS desktop environment (or something along those lines). It has since been fixed to actually install the Steam client.

Obviously it was a bit silly he typed “Yes, do as I say” after seeing the message, but he was also literally following exactly what all the online guides said to do (other than the “Yes do as I say” part). Luckily it’s fixed now but I do think it was a really good demonstration of what the video wanted to see: “What might the average non-techie gamer face using Linux?”