Lack is made out of super cheap particle board. Is it stable enough to sit the 3D printer on? I would assume it would add some errors to the printing process.
It works fine and lots of people do it, I have been using mine without issue for a few years now. It helps to put a concrete slab in it, but it's not necessary. The lack table does have a tendency to amplify the noise though.
Unsurprisingly, the same issues arise with precision scales/balances as do with printers. Having a big heavy base is useful!
I know of a few places that just procured literal blank marble gravestones as a "base" for their analytical scales at a cost far less than the usual mass-damper bases sold to labs.
It’s perfectly adequate for stability. People have suspended printers in midair with elastic cables, or printed upside down, and prints have come out fine. The printer frame is providing most of the rigidity in this case. Don’t get me wrong, people that place their printers on spring like things tend to get lower quality prints so there is a limit there.
The downside about the IKEA particleboard over hollow cardboard core is more about sound and resonance imo. It can act as a speaker for printer vibrations and amplify that sound in the same room or to the floor below it.
A popular “mod” is to place a concrete paver block on top of some isolation pad, typically made of rubber or sorbothane to increase the functional mass of the printer and lower the resonant frequencies created during printing.
I personally have two of those enclosures stacked, with a printer in each one.
I just bought a concrete paver and neoprene mat to put on top of my lack and I'm printing pieces for my lack enclosure on my ender 3 as I type this message.
One thing I'm not sure about is whether or not I should attach the printer directly to the concrete paver, and/or if I should take the rubber feet off of the printer as well.
I have a 3-lack-stack for my printer, but no paver. It sways a bit when I print, but I haven't run into any major issues without it. I should get one. A foam mat was mandatory though; the hollow core lack turns the motor noise into a scream!
I'd just try the easy thing first and set the printer on the paver without attaching. See if that works before you go through the effort of attaching it
Yea, I'm a bit surprised by the responses. In the case of using it for a Prusa, I'm not sure I understand the idea of buying a $1,000 3D printer and then putting it on a $15 particle board stand.
The melamine pads under the feet of the Lack tables become brittle with time and eventually crack under only 30-ish kg of weight, causing the table to slant. My own experience.
It seems like a sketchy idea to directly screw in the server to the table legs. Much better to install rack sliders that are supported from both front and back.
Just don't pull out the server if there's no one holding down the table. Or better, keep servers where they belong: in a freaking data center, NOT your house ! :-)
Boing Boing used to be one of the coolest sites on the internet! I think a lot of people still have it bookmarked/RSSed/whatever, so they still keep publishing, but it doesn't feel like a work of love anymore (IMHO). It feels more like someone said "hey, we've got this site that gets a bunch of traffic, it'd be a shame not to monetize it".
Given how many Lack tables I've seen fall apart without any sort of load, I would be very reluctant to try this, no matter how many people report it works for them. It's IKEA's cheapest table for a reason.
In my experience, even cheap IKEA stuff is pretty solid and well worth the cost as long as you treat it with care. Some stuff is garbage even if you're careful but I've never personally seen something from IKEA that isn't great if handled gently.
the lack I used for my prusa was , over time, covered in printed gusset features and additional L-brackets to get rid of sway and movement within the table itself.
it looked god-awful but it was sturdy for years and years of production-quantity printing. It was only disassembled when the print lab got rebuilt.
so, in other words, I support your idea of modifying the construction of the lack wholeheartedly. The joint lines are one of the only 'strong-ish' elements on the entire table, and I think they'd take glue nicely.
The IVAR system is, in my book, absolute complete junk. I couldn't get it to even attempt to work correctly, it wobbled when it wasn't collapsing, and to make insult even worse, it was more expensive than actual industrial wire shelving.
Even with cross bracing it had too much wobble, which would pull the short pins out of the cross board, and if you bumped a shelf it would hop out and then fall.
In my experience, you get one move from IKEA furniture. By the time you've relocated it twice, whether across the room or across the country, it will become unstable and likely to fail.
If you are exceptionally careful and always have help moving anything of size, you may do better.
My dad was a cabinit maker so i have experienced "proper" cabinets as well as Ikea stuff.
You called it. Ikea furniture never seems to support disassembly / reassembly.
I've thrown out several sets of Ikea dressers and such which lasted ~5 years while the stuff my dad built is still in perfect working condition 22 years later.
As far as the Ikea rack idea is concerned, holding any sort of weight has always been the major failure with Ikea furniture. They sell bookshelves which cant hold books... Dressers with 1/4 "cardboard" bottoms which cant support the weight of clothing.
My oldest Ikea unit is from 2007, it's moved 5 times since then, as solid now as the day I bought it, although that one is small enough to not have to dismantle.
I've got an ikea bed dismantled, moved, rebuilt 3 times no problem, and a bookcase with the same dismantle/rebuild process 4 times. My office desk is also on 4 moves over 10 years.
Why? Do the legs shatter? That would be the only reason that your concern makes sense - adding 1 or more rigid metal bodies that connect to each leg seems like it would stabilize the structure.
Some years ago the legs used to be fully solid, now most of the legs are empty. So what you can do is get some wood sticks cut to the same size of the inside of the legs.
They don't hold up well to repeated side impacts or horizontal shearing. So kids jumping on it, shin kicks, or moving locations. They do well with the vertical forces if they're rarely moved.
I currently have two stacked Lacks acting as a cheap homemade server rack. I have 2x 4U ontop the bottom table (not floating as they're doing in the article), with an older colour laser printer and 21" monitor, KVM, etc. on the top table. Underneath I have 2x1500VA UPSes.
It's been that way for years and I've moved it a few times. I think if you've seen them fall apart without any load, they're either the much newer ones that have been completely hollowed out, or they've been used in a rougher setting than "servers sitting statically on them for years."
I know quite a few home lab users who swear by them. One person I know even has a full triple stack (which seems unsafe to me personally) with his networking gear on top of the servers.
I naively put an old LaCie 1U server under a Lack table 13 years ago, thinking it would be a great media server in my living room. I had no idea how loud rackmount fans were. It was obviously unusable for watching any kind of media.
2U is a lot quieter than 1U. Those little fans spin louder and put out higher frequency noise. Though probably still not quiet enough for a media room. I’ve got a ruckus 10g switch and a 2U server in my utility room and you can sleep nearby and can’t hear anything with the door closed.
What drives me nuts is power supply noise actually. I finally bit the bullet and got a Mac mini for my home office.
Modern rack servers at least spin down the fans when the system isn't heavily loaded, but it's still way too loud for a media room.
For those playing at home, buying a 2U or even 4U rack will on average be quieter (still sounds like a jet engine just after reboot until the SMC comes online).
Interestingly Supermicro has a line of, in their words, super-quiet fans they produced for their workstations. Not quite noctua, but better than most. You can take those same Sanyo fans in their plastic quick connect green cowlings and put them in an 847 rackmount chassis. They are a drop in replacement. And if you get the 1250 platinum PSU, those fans run far quieter than their silver & gold line. I've got a water cooled 847 4U server with a small rack of 847 4U 45 drive disc expanders and it is a constant background hum, rather than a small jet aircraft taxiing around the room when using the stock fans.
For all the effort (and money) put into making a media server as quiet as possible (which is still not silent), I think you're way further ahead to just not put the server in your living room. Instead, put it in the basement/closet/garage/utility room -- somewhere you won't hear it. Then, broadly speaking, you have three options:
A commercial box, like NVidia shield, Chromecast, Roku, Amazon Fire stick or AppleTV. This is by far the easiest as you get a remote, a "10 foot user interface" and they work with online services like Youtube, Netflix, etc. If you care about everything being open source software this obviously isn't a good option.
You can also DIY your own box on a Raspberry Pi. Be prepared to do lots of tinkering, though.
The other option is to get the media server's UI remotely. Long HDMI cable, HDMI-over-cat5 or wireless HDMI gets audio/video; some of those also do USB, or you can do wireless control if it's close enough. Almost as much tinkering as a Raspberry Pi, but could be cheaper if it's not far.
Another big benefit of the first two options is it scales to multiple clients, if you have more than one TV.
I can't recommend the long HDMI (or HDMI-over-CAT5, or long Thunderbolt) enough. The noise isolation you can achieve by doing so is unbeatable. Even moving anything short of a 1U server into a neighboring closet means no perceptible noise, so you're really buying yourself more flexibility such that you can use almost any computer without thinking about noise constraints.
Even more than that, I'll bet a lot of people who are connecting a media PC to their living room TV also have another PC somewhere in the house. With a long HDMI cable, you can connect an existing PC to the TV, thus saving the entire expense of a new PC. This is particularly interesting for gaming, since a good gaming PC is a lot more expensive than even some of the longest HDMI cables.
To add to the HDMI-over-CAT5 instead of long-run HDMI, I wanted to offer an anecdote: we tried doing HDMI with extenders at a previous MSP shop. We had random de-syncs. We were probably far past the 50ft spec for how long to run an HDMI cable and the extenders were unpowered (basically female-to-female boxes). HDMI-over-CAT5, however, handled the distance flawlessly without powered boosters in the middle.
I put a rack/cabinet in the laundry room, with a QNAP NAS in there, Plex server is running on the QNAP, then an Apple TV 4K connects to that and feeds the TV.
I like this better than trying to do some sort of long HDMI cable setup, because the HDMI ports on most NAS units out there get old rapidly, don't support HDR and high bitrates reliably, etc. This way, it doesn't matter if the server is brand-new and fast enough and all updated for the latest video standards. As long as it can push the data out fast enough via Ethernet, you're good. Updating an Apple TV every 3-5 years is a lot cheaper and easier than getting a new server every time. And a good NAS is a lot cheaper than a full-out server would be.
I have a similar setup myself. I use basically an older PC running Proxmox + openmediavault as my NAS (and a bunch of other things, including Plex). I currently have an NVidia Shield and 'Chromecast with Google TV' as clients, as well as a couple phones and tablets. It is pretty hands-off and my family can all use it just fine.
I'm content to replace the relatively cheap client boxes every few years. That said, I think I've had the Shield for over 5 years now and other than the original remote being bent in half (likely a jumping-on-the-couch-related failure) it's still going strong.
Is this just a random coincidence? Is there some explainable reason why the dimension is perfect? Surely IKEA did not have this use in mind when originally designing this?
It's a round number of inches that happens to be right, possibly because "this size is good for a table" is what probably went through the engineer who decided what size a rackmount should be at the beggining of time
I've kind of hoped some manufacturer would clue into this as a possible side benefit to their design of furniture. But the 0.0000001% of humans who want a rack at home are probably not a substantial market, so my guess is this must have been happy coincidence.
can somebody with more server/home server experience explain to me the benefit of going with a rackmount setup vs let's say, just building a second PC to use as a home server? I recently bought a house and am excited to get into home networking/home server work, but don't know anything about rack mount. Is rackmount equipment cheaper than regular consumer PC hardware?
You can find incredibly cheap (nearly free) used servers for pickup if you’re patient. If you have cheap electricity (or better yet, provided with your lease), a 2013-era dual Xeon server is pretty compelling at $50.
Apple didn’t make that many, so they would be tough to find. And they were a really pain to actually use. I didn’t find them very friendly at all to work with physically. Very polished, but had a feel of being over engineered.
The main advantage of rackmount is for big data centers where you have a huge number of boxes and they all fit in standardized racks. For home use of a few boxes there is no advantage other than if you want to buy cheap servers off ebay.
Used rackmount equipment can be had for cheap when businesses decommission them. The depreciation curve is much sharper than typical consumer gear when it goes out of support. New rackmount gear is very expensive.
Many people who have home servers (me included) buy used enterprise gear for this reason.
How would you suggest going about buying used enterprise gear? I was thrilled to get a decommissioned optiplex and old monitor from an old job, but that's just because I happened to be in the office the day the stuff was lying around. Otherwise I have no idea how to get that kind of stuff
Good luck! Rackmount machines are their own world. Done right they last longer than desktops with the added benefit of typically being quite loud. Stay cool. B-)
I've been happily self hosting with used workstations from local businesses that I have contacts at. When they upgrade they offload old workstations for nothing. They usually have Xeons and ECC ram and make great, quiet servers. Rack mount can be really loud, especially 1u.
For networking gear, it can be nice to have a small rack, but very much not necessary.
The only real reason to rack mount at home is organization: If you have a firewall, switch, router, a server, a NAS, and a backup battery, it's really nice and clean to enclose it all in a rack.
However, rack equipment will always cost more than non-rack equipment because rack equipment isn't targeted for consumers. An APC UPS that fits in a rack is $500, when the equivalent standalone one is $150.
Noise is another downside to rack equipment: It's designed to run in rooms with massive air conditioners, so the noise floor they're trying to stay under is "sports stadium".
There often aren't actual equivalents available in consumer, so it's hard to get an apples-to-apples comparison. Which isn't to say a consumer grade piece of kit won't be fine for your use, just that you aren't paying $500 vs $150 for "the same thing", rather the $500 one has a bunch of feature and/or component quality stuff you may not care about (and some extra margin, but nothing like 200% you suggest)
When buying new and presented with the option, the rack mounted option will be more expensive (because professional) and louder (no space for large fans, they compensate with higher fan speeds). Rack mounts are more interesting for network hardware (because of lack of options) and second hand. Second hand rack-mounted stuff can be very cheap for the performance you get, but also energy hungry and loud.
Most rackmount servers have some sort of remote management interface, which makes it a lot easier to work with them on a headless basis.
Pitfalls: Server-class hardware can take a very long time to POST, as they're intended to run 24x7, and (especially 1U and 2U boxes) tend to have extremely loud fans.
If you want a quiet server, your best bet is to build it up from a server motherboard and a 4U case, and use quiet fans like Noctua.
Careful with that. Server hardware is designed in a way that assumes "cooling is free because i live in a chassis with constant high airflow in a temperature controlled room".
Consumer-class hardware is more often built with the assumption that it's going to get thrown in an all-glass case starved of airflow, so they put heatsinks everywhere and expect specific air pathways in a standard atx case.
You're probably fine to go either way really, but the hardware is probably going to have a lower lifetime by going for slower airflow.
If you are concerned about noise, do not buy a 1U unit. Small fans still need to move air. Since they are small the way to make up for this is to have a lot of them and make them spin very fast. The faster they spin the more noise they make.
Rackmount stuff is usually more expensive because it's more niche or professional grade stuff. If you just need a pc for a router it's overkill. If you need space for a pc router, nas and dozens of hard drives, multiple switches, A/V distribution gear, wifi and wireless hardware, home automation hubs, backup power battery, etc. it starts to make more sense to consolidate it all in a rack instead of strewn all over shelves and tables.
> Is rackmount equipment cheaper than regular consumer PC hardware?
Not even close for new, but a generation or two old can be had very cheaply.
I was was once gifted a 128 node cluster (with the racks, UPS, everything) to a lab for the tax write off alone - they even provided shipping. The servers were only 3 years old iirc, but had depreciated enough on their books I guess and they wanted a faster cluster.
Shipping and write off is much cheaper than disposal.
I recall as college students finding a VAX 780 on the "getting rid of it" part of the engineering loading dock and we got permission to get rid of it for them. Pushing it down the street at 11pm was interesting (getting a weird look from a police car going by).
It got gutted for parts (power supplies don't care too much about what they power) and converted into a lockable bookshelf and 14" diameter wall hangings (and some surprisingly strong magnets).
The "yea, we let a bunch of college students take it" was a significant savings over getting a truck to haul it off to some junkyard even before the days of being very picky about electronics recycling.
There has been a number of solid responses but my two cents.
It isnt about the "form factor" - but the cost. Businesses buy rackmount servers because it is space-efficient.
Eventually they sell these off very cheap and unlike your desktop grade equipment business servers are built to last. while that 5 year old business server may be out of date for them, they still have plenty of life left and can be had for dirt cheap.
i have a multimedia server in my basement with 72GB ram and dual Xeon's which i picked up for around the cost of a decent desktop motherboard.
So in short. Rackmount equipment purchased brand new is very expensive, but buying old "end-of-life" gear is very cheap. The depreciation on computer equipment would put a car to shame.
Separately from what others are saying about used equipment being very inexpensive, which is all very true, I have a different take on why I do it.
I'm a gamer and upgrade my primary gaming machine on a much tighter cycle than a lot of other people, which means I have a fair bit of hand-me-down hardware around to pass along. Sometimes, instead of just selling/trading/giving my old stuff away, I'll stick the consumer-grade stuff inside my 4U rack boxes.
Basically, it comes down to customizability and the space to do what I want in it.
For example, my NAS server's case has 18 drive bays. With modern motherboards supporting NVMe, it's very doable to run the OS off NVMe, a couple of caching SSDs and an array that is 20TB+ large, and bonded 2.5GBe (maybe upgrading to 10 someday) to my VM Host machine. Most out of the box NAS systems don't do that.
My other server I use for hosting VMs and cracking hashes (not crypto, think password cracking) and has a few older GPUs in it to accelerate that task.
Nowadays a lot of consumer-grade CPUs have as many or more cores than older second hand server equipment, and often can run lower power (not always true). Plus putting it into 4U boxes means I can more larger fans so it's quieter than traditional aircraft-engine servers.
This is by some people's definition "doing it wrong" because I don't have ECC memory, etc., but the reality is I've been running it for years now and it's been very stable, with only one hardware failure over the course of the decade or so I've had this system together.
> Nowadays a lot of consumer-grade CPUs have as many or more cores than older second hand server equipment, and often can run lower power (not always true). Plus putting it into 4U boxes means I can more larger fans so it's quieter than traditional aircraft-engine servers.
So you use consumer CPUs in rackmount hardware? Are you able to use any consumer PC components in a rackmount rig? I'd love to build a home server and I can see the benefit to better ventilation/noise result with rackmount, and I imagine rackmount uses the same hard drives, but are other PC parts equally usable?
I keep seeing full height Dell racks for sale on FB marketplace in the $200 range but haven't encountered the right manic episode to actually go for it.
I was wondering about this, I had a bunch of these screwed in together as a cheap kitchen cabinet when I was younger. They can be get pretty wobbly even with the braces.
I have a dozen of these tied together, with the cross bracing, into an L in my basement. The whole unit has a few ties to the cinderblock wall behind it. That arrangement adds a good bit of stability. I agree that a on their own or in small numbers they’re not very stable.
It's not the rack that's the problem, it's the fans. Most industrial gear requires a ton of airflow and the noise is something like having a model jet engine sitting in your closet. This from someone who actually did go for it and later recanted.
Both of these R720's are barely audible when you are standing right next to them. They are in my basement furnace room too, so I literally cannot hear them anywhere else in the house.
Is that running things on them full bore? I tried a server case with a bunch of 1080's in it for some image processing but the noise levels were off the scale even though they were fairly large diameter fans. Not R720's though, so larger fans. Interesting datapoint!
The worst offenders were the 1U units, such as routers and switches, and a bunch of Supermicro 1U servers.
I always think it'd be cool to have a server rack in my apartment until I powered up a server in my apartment and it far eclipsed the noise produced by the air conditioning from anywhere in the living space.
Excellent point. I have a Lack Rack in my office closet, but the mounted device (Fortinet 100D) was replaced with a fanless firewall instead. The Fortigate is still there, but off, and the table still holds my laser printer up.
I remember doing that years ago when I was younger... so I tried using a stereo rack system. Which immediately heated up and set off in-machine alarms.
My eventual solution was to put the machines under the sink in the bathroom and run a cables through the wall to the bedroom :)
This is a good point for why an actual rack is a bad thing for some use cases in the home. When moving into my current house an AV Geek neighbor setup a home theater type setup with the receiver, amp, in house audio (VSSL) amp, and other devices in a large high quality rack that I spent too much money on.
None of this uses a lot of power or makes a bunch of heat. The receiver tops out at 140W total RMS over seven channels and the VSSL is about 20 per channel. The rack adds an additional 75mm to each side of the rack and 120mm to the front and back. It takes up a lot of room in its closet and I’d be happier with more space to move around it.
LACKs are a bit too flimsy and small for the setup I want to replace. The parent’s shelving unit example looks like a great replacement, especially since I want to store things in that closet on shelves anyway.
Yep. Used to run two gargantuan floor-to-ceiling racks, but they're just impractical. Over time, hardware gets smaller and smaller, and rack-mount gear is less and less common, mercifully. I have 12U of rack space left in my desk for fanless devices such as AD/DA convertors and compressors, 500 series, Eurorack etc. I would never want to go back to having huge racks, it's very impractical.
I have a full rack, all cooled, runs pretty quiet. It all just comes down to design. If you just stick in old random enterprise gear, you'll have a bad time.
A few years ago we obtained a full size rack (with some switches/firewall appliances included) for about 50£ delivered.
The guys who dropped it off outside our second floor office had a good laugh at our expense as we tried work out how to get the bastard thing up there via a narrow stairs.
We basically had to take it apart on the footpath, heft all the bits upstairs, then engage in the biggest 3D puzzle ever without any instructions.
Racks tend to be cheap if they are inconvenient. Offloading it to us delivered for 50£ was a lot cheaper than paying for it to be recycled.
Stereo (like telecom) racks may not have sufficient airflow, especially when "closed" - have to check.
The best racks are the surplus ones left laying around; if you know someone who deals with buildings after companies have moved out you'll have an endless supply of racks.
These are also commonly used for 3D printer enclosures. Get two and flip one upside down and stack them, add some walls and a door and you’ve got an enclosure.
As someone who bought a used 42U cabinet and somehow got it into my basement where it will remain forever unless someone cuts it into pieces to remove it, I can see the appeal of this.
Bought a rack for my garage, but I forgot to measure it upright and diagonally because the entrance is way smaller, so it had to be tilted in.. cleared the ceiling with 2 centimetres haha.
What most people should be using at home is a "knock down" or "open frame" rack. The posts can be separated from the top and bottom for transport. I use a couple of these in my basement, fairly sturdy and I can move them when I need to: https://avproducts.mccannsystems.com/avcat/ctl11226/index.cf...
I had to use a 4-post rack and a chop saw and take ~4 inches off the top of the rack and then I had to assemble it in the basement vertically since it's so close to the ceiling, it's too tall to tilt! Figured that out the hard way.
LACK is not a sturdy piece of furniture. I broke a leg off of one when I snubbed my foot on it; it came apart /at the table/, the whole corner section just came off.
Why must this stuff be so hard to get in the US? Last I checked there were two different companies handling distribution in the US and NEITHER of them seem to stock it anywhere! Except for one shop in LA that half the time carries expired bottles!
The caffeine high from Club-Mate is such a pleasantly sublime feeling. And you used to be able to order it from the 2600 store. I still have the yellow case!
Try other maté-based drinks, variations of yerba mate beverages can be found in most US grocery stores (with increasing availability over the past several years). I can't stand any of the carbonated ones I've tried in the US, but they are out there.
Amusingly, even thought I live in Berlin and have it readily available, I tried to make it myself by making mate concentrate, sugar, and a tiny bit of lemon. I got the taste just about right, but more mate-y with the really grassy, earthy taste of mate. But it had so much caffeine that I couldn't think straight and felt jumpy. I came to the conclusion that Club Mate doesn't actually contain much mate.
But if you love the stuff and can't get it, it's not hard to experiment. Those are basically the only ingredients.
I feel like everyone else is using a different Lack than I've seen at IKEA, they're made of flimsy fiberboard that feels like it's going to fall apart at any moment. I tried making a printer enclosure and gave up because it felt like it would collapse from a strong breeze. If you're going to put in all this work, you should probably use better materials from the beginning.
They are stronger than they look. keep in mind that all joints in a lack have no cross brace so the leg-surface joint is actually pretty strong.
The big thing is that a tight install of the legs and adding tension and mounting the hardware helps cross re-enforce them. The examples where people use a second lack top as the bottom are WAY more reenforced than one would expect, you probably could use it as a chair.
I had 3 of them stack on top of each other, all with 3D printer and power supply and filaments for more than 2 years. It is very strong and sturdy. It didn't shake or sag.
they're made from flimsy fiberboard, but if you actually crack one open you'll see that all the joints are reinforced with wooden blocking, and the flat surfaces are filled with corrugated material. they're light, and if you get any water past the exterior finishing they disintigrate. but they're deceptively strong as long as all the joints are screwed together tightly.
"If you decide to make your own, pay attention to which size lack rack you get. IKEA strangely offers 2 slightly different sizes
22 inch
and
21 5/8 inch."
In my opinion the explanation for this is clear: 22 is a round number in inches and 21 5/8 inch is nearly a round number in centimeters (21,625 inch = 54,9275 cm ≈ 55 cm).
This non-rounded numbers make people think that there's something terribly important at being X degrees and not X+1, not realizing that the internal temps vary widely even when set specific.
I feel recipes have caused more people to avoid cooking than anything invented in the last 1000 years, heh.
With regard to recipes, I sometimes wonder if "round numbers" are causing us to miss out on more optimal recipes. Maybe that dish really would turn out better cooked at 176F, or with 1 and 7/16 cups of flour instead of 1.5.
I think you're only going to see that benefit if, as mentioned you have a super precise oven, or you're getting super precise ingredient quality every time.
Otherwise there's too many variables fluctuating every time to really attribute much to those tiny variations in the recipe.
When it comes to flour, I don't understand why the USA insists on measuring it by volume when the rest of the world does it by mass. The density of flour can vary widely depending on if it's packed at all, and scooping it often leads to voids in the bottom of the measuring cup that you likely won't see unless you're using a clear measuring cup.
When using flour or baking mixes, I convert to grams (1 cup all-purpose flour = 125 grams) and do it by mass to ensure it's the proper amount.
This is interesting! And makes total sense. I didn't know that the rest of the world (smartly) measures flour in terms of mass not volume. And your conversion factor is really helpful, thank you.
Every American kitchen has measuring cups, few have scales. And people learn that method and continue to use it (most people don't even know about zeroing a scale after you add each ingredient).
It may also be that US measuring cups are "more convenient" sizes than the equivalent metric ones would be.
For flour, they often specify "sifted" which removes some of the variability.
> Every American kitchen has measuring cups, few have scales.
There's no reason Americans can't buy scales.
I got mine for $15 at Costco 10+ years ago. You can still get them from Amazon or Walmart for less than that.
> It may also be that US measuring cups are "more convenient" sizes than the equivalent metric ones would be.
When measuring out flour, I don't use a measuring cup at all. I put a bowl on my scale, hit the Tare button to zero it out, then add whatever number of grams of flour I need to the bowl.
> For flour, they often specify "sifted" which removes some of the variability.
That's gotta be awkward to sift into a measuring cup.
The problem is recipe book authors want to sell to all Americans (especially that group that always buys recipe books but never actually uses them) and so they aim at the widest possible market.
The reason is momentum. Switching to measuring flour by weight will require households to have both measuring cups and scales, require recipes to be rewritten, require cooks with an intuition based on volume to relearn the intuition based on weight. None of this is insurmountable, just like none of the reasons for switching from imperial to metric are insurmountable, but for people getting things done, it's not enough of an issue to worth making the switch, so this kind of switch would require an institution or coalition with enough clout to make the switch and pull everyone else along. For cooking, I don't believe such an institution or coalition exists.
Brings to mind a convo about coffee a few years back. A friend was quite surprised I owned a scale accurate to the tenth of a gram just for dosing coffee beans when I could just use a super accurate scoop instead. I left it at that, and didn’t go into how I account for humidity affecting grinder retention, etc.
It’s easier to use weight instead of volume if you want measurements more precise than a 1/4 cup.
Most home ovens struggle to hit the set point to within 25F for most of their internal volume. They also have large swings in temperature as cheap heating elements do not respond quickly.
You find temperatures that precise when they're for equipment that can hit it: a sous vide steak at 56º C is different from a sous vide steak at 58º C. It just makes no sense for an oven, which is a pretty blunt instrument.
neither your oven's thermostat or your measuring cups are precise enough for either of those examples to make any difference.
recipes routinely call for "1 large egg". think about the amount of variance that can be present in that measurement, and assume every other measurement can vary by the same amount.
I think you have some kind of adblock service blocking embedded twitter posts because when i look at that website there is a tweet by Paul Curry of exactly what is described
249 comments
[ 3.0 ms ] story [ 251 ms ] threadThe least-stable arrangement would be a very heavy 1u device at the top.
Here is a guide by Prusa to build one for their printers: https://blog.prusa3d.com/mmu2s-printer-enclosure_30215/
I know of a few places that just procured literal blank marble gravestones as a "base" for their analytical scales at a cost far less than the usual mass-damper bases sold to labs.
The downside about the IKEA particleboard over hollow cardboard core is more about sound and resonance imo. It can act as a speaker for printer vibrations and amplify that sound in the same room or to the floor below it.
A popular “mod” is to place a concrete paver block on top of some isolation pad, typically made of rubber or sorbothane to increase the functional mass of the printer and lower the resonant frequencies created during printing.
I personally have two of those enclosures stacked, with a printer in each one.
I just bought a concrete paver and neoprene mat to put on top of my lack and I'm printing pieces for my lack enclosure on my ender 3 as I type this message.
One thing I'm not sure about is whether or not I should attach the printer directly to the concrete paver, and/or if I should take the rubber feet off of the printer as well.
If so how do I best attach it?
I'd just try the easy thing first and set the printer on the paver without attaching. See if that works before you go through the effort of attaching it
They are drop in replacements for the existing board and are very affordable. I highly recommend them.
See also:
https://news.ycombinator.com/item?id=25978013
https://news.ycombinator.com/item?id=1067283
https://www.youtube.com/watch?v=rw2nkoGLhrE
It's a good and dirty way to free up space on top of your server(s) for a monitor and keyboard.
Just don't pull out the server if there's no one holding down the table. Or better, keep servers where they belong: in a freaking data center, NOT your house ! :-)
edit: appeareantly it's a legit site: https://en.wikipedia.org/wiki/Boing_Boing. Buzzword seems legit compared to this.
it looked god-awful but it was sturdy for years and years of production-quantity printing. It was only disassembled when the print lab got rebuilt.
so, in other words, I support your idea of modifying the construction of the lack wholeheartedly. The joint lines are one of the only 'strong-ish' elements on the entire table, and I think they'd take glue nicely.
[0] https://www.ikea.com/us/en/p/observatoer-cross-brace-galvani...
If you are exceptionally careful and always have help moving anything of size, you may do better.
You called it. Ikea furniture never seems to support disassembly / reassembly.
I've thrown out several sets of Ikea dressers and such which lasted ~5 years while the stuff my dad built is still in perfect working condition 22 years later.
As far as the Ikea rack idea is concerned, holding any sort of weight has always been the major failure with Ikea furniture. They sell bookshelves which cant hold books... Dressers with 1/4 "cardboard" bottoms which cant support the weight of clothing.
you get what you pay for.
I've got an ikea bed dismantled, moved, rebuilt 3 times no problem, and a bookcase with the same dismantle/rebuild process 4 times. My office desk is also on 4 moves over 10 years.
It's been that way for years and I've moved it a few times. I think if you've seen them fall apart without any load, they're either the much newer ones that have been completely hollowed out, or they've been used in a rougher setting than "servers sitting statically on them for years."
I know quite a few home lab users who swear by them. One person I know even has a full triple stack (which seems unsafe to me personally) with his networking gear on top of the servers.
What drives me nuts is power supply noise actually. I finally bit the bullet and got a Mac mini for my home office.
For those playing at home, buying a 2U or even 4U rack will on average be quieter (still sounds like a jet engine just after reboot until the SMC comes online).
Supermicro builds some workstations[0] which were quite quiet back in Xeon 5xxx days.
[0] https://www.supermicro.com/en/products/x11/systems/workstati... be sure to check for the 'quiet fans', not the 'heavy duty' ones!
A commercial box, like NVidia shield, Chromecast, Roku, Amazon Fire stick or AppleTV. This is by far the easiest as you get a remote, a "10 foot user interface" and they work with online services like Youtube, Netflix, etc. If you care about everything being open source software this obviously isn't a good option.
You can also DIY your own box on a Raspberry Pi. Be prepared to do lots of tinkering, though.
The other option is to get the media server's UI remotely. Long HDMI cable, HDMI-over-cat5 or wireless HDMI gets audio/video; some of those also do USB, or you can do wireless control if it's close enough. Almost as much tinkering as a Raspberry Pi, but could be cheaper if it's not far.
Another big benefit of the first two options is it scales to multiple clients, if you have more than one TV.
Even more than that, I'll bet a lot of people who are connecting a media PC to their living room TV also have another PC somewhere in the house. With a long HDMI cable, you can connect an existing PC to the TV, thus saving the entire expense of a new PC. This is particularly interesting for gaming, since a good gaming PC is a lot more expensive than even some of the longest HDMI cables.
I like this better than trying to do some sort of long HDMI cable setup, because the HDMI ports on most NAS units out there get old rapidly, don't support HDR and high bitrates reliably, etc. This way, it doesn't matter if the server is brand-new and fast enough and all updated for the latest video standards. As long as it can push the data out fast enough via Ethernet, you're good. Updating an Apple TV every 3-5 years is a lot cheaper and easier than getting a new server every time. And a good NAS is a lot cheaper than a full-out server would be.
I'm content to replace the relatively cheap client boxes every few years. That said, I think I've had the Shield for over 5 years now and other than the original remote being bent in half (likely a jumping-on-the-couch-related failure) it's still going strong.
Never
Many people who have home servers (me included) buy used enterprise gear for this reason.
https://hn.algolia.com/?dateRange=all&page=0&prefix=true&que...
http://www.reddit.com/r/homelab/
http://www.reddit.com/r/HomeNetworking/
http://www.reddit.com/r/HomeServer/
https://forums.servethehome.com/index.php
Good luck! Rackmount machines are their own world. Done right they last longer than desktops with the added benefit of typically being quite loud. Stay cool. B-)
For networking gear, it can be nice to have a small rack, but very much not necessary.
However, rack equipment will always cost more than non-rack equipment because rack equipment isn't targeted for consumers. An APC UPS that fits in a rack is $500, when the equivalent standalone one is $150.
Noise is another downside to rack equipment: It's designed to run in rooms with massive air conditioners, so the noise floor they're trying to stay under is "sports stadium".
There often aren't actual equivalents available in consumer, so it's hard to get an apples-to-apples comparison. Which isn't to say a consumer grade piece of kit won't be fine for your use, just that you aren't paying $500 vs $150 for "the same thing", rather the $500 one has a bunch of feature and/or component quality stuff you may not care about (and some extra margin, but nothing like 200% you suggest)
Pitfalls: Server-class hardware can take a very long time to POST, as they're intended to run 24x7, and (especially 1U and 2U boxes) tend to have extremely loud fans.
If you want a quiet server, your best bet is to build it up from a server motherboard and a 4U case, and use quiet fans like Noctua.
Consumer-class hardware is more often built with the assumption that it's going to get thrown in an all-glass case starved of airflow, so they put heatsinks everywhere and expect specific air pathways in a standard atx case.
You're probably fine to go either way really, but the hardware is probably going to have a lower lifetime by going for slower airflow.
If you are concerned about noise, do not buy a 1U unit. Small fans still need to move air. Since they are small the way to make up for this is to have a lot of them and make them spin very fast. The faster they spin the more noise they make.
Not even close for new, but a generation or two old can be had very cheaply.
I was was once gifted a 128 node cluster (with the racks, UPS, everything) to a lab for the tax write off alone - they even provided shipping. The servers were only 3 years old iirc, but had depreciated enough on their books I guess and they wanted a faster cluster.
I recall as college students finding a VAX 780 on the "getting rid of it" part of the engineering loading dock and we got permission to get rid of it for them. Pushing it down the street at 11pm was interesting (getting a weird look from a police car going by).
It got gutted for parts (power supplies don't care too much about what they power) and converted into a lockable bookshelf and 14" diameter wall hangings (and some surprisingly strong magnets).
The "yea, we let a bunch of college students take it" was a significant savings over getting a truck to haul it off to some junkyard even before the days of being very picky about electronics recycling.
It isnt about the "form factor" - but the cost. Businesses buy rackmount servers because it is space-efficient.
Eventually they sell these off very cheap and unlike your desktop grade equipment business servers are built to last. while that 5 year old business server may be out of date for them, they still have plenty of life left and can be had for dirt cheap.
i have a multimedia server in my basement with 72GB ram and dual Xeon's which i picked up for around the cost of a decent desktop motherboard.
So in short. Rackmount equipment purchased brand new is very expensive, but buying old "end-of-life" gear is very cheap. The depreciation on computer equipment would put a car to shame.
I'm a gamer and upgrade my primary gaming machine on a much tighter cycle than a lot of other people, which means I have a fair bit of hand-me-down hardware around to pass along. Sometimes, instead of just selling/trading/giving my old stuff away, I'll stick the consumer-grade stuff inside my 4U rack boxes.
Basically, it comes down to customizability and the space to do what I want in it.
For example, my NAS server's case has 18 drive bays. With modern motherboards supporting NVMe, it's very doable to run the OS off NVMe, a couple of caching SSDs and an array that is 20TB+ large, and bonded 2.5GBe (maybe upgrading to 10 someday) to my VM Host machine. Most out of the box NAS systems don't do that.
My other server I use for hosting VMs and cracking hashes (not crypto, think password cracking) and has a few older GPUs in it to accelerate that task.
Nowadays a lot of consumer-grade CPUs have as many or more cores than older second hand server equipment, and often can run lower power (not always true). Plus putting it into 4U boxes means I can more larger fans so it's quieter than traditional aircraft-engine servers.
This is by some people's definition "doing it wrong" because I don't have ECC memory, etc., but the reality is I've been running it for years now and it's been very stable, with only one hardware failure over the course of the decade or so I've had this system together.
So you use consumer CPUs in rackmount hardware? Are you able to use any consumer PC components in a rackmount rig? I'd love to build a home server and I can see the benefit to better ventilation/noise result with rackmount, and I imagine rackmount uses the same hard drives, but are other PC parts equally usable?
Here are some 2U's here at home: https://s3.whalesalad.com/lab/rack.jpg
The shelf: https://www.ikea.com/us/en/p/hejne-shelf-unit-softwood-s7903...
I keep seeing full height Dell racks for sale on FB marketplace in the $200 range but haven't encountered the right manic episode to actually go for it.
I have a HEJNE that is just holding LEGO with cross bracing and it is visibly leaning.
I don't expect it to fall down but I'm also not loading thousands of pounds into it.
The worst offenders were the 1U units, such as routers and switches, and a bunch of Supermicro 1U servers.
My eventual solution was to put the machines under the sink in the bathroom and run a cables through the wall to the bedroom :)
None of this uses a lot of power or makes a bunch of heat. The receiver tops out at 140W total RMS over seven channels and the VSSL is about 20 per channel. The rack adds an additional 75mm to each side of the rack and 120mm to the front and back. It takes up a lot of room in its closet and I’d be happier with more space to move around it.
LACKs are a bit too flimsy and small for the setup I want to replace. The parent’s shelving unit example looks like a great replacement, especially since I want to store things in that closet on shelves anyway.
The guys who dropped it off outside our second floor office had a good laugh at our expense as we tried work out how to get the bastard thing up there via a narrow stairs.
We basically had to take it apart on the footpath, heft all the bits upstairs, then engage in the biggest 3D puzzle ever without any instructions.
Racks tend to be cheap if they are inconvenient. Offloading it to us delivered for 50£ was a lot cheaper than paying for it to be recycled.
It would suck to have your $20,000 server go kablooey, because you saved $120 on the rack.
The best racks are the surplus ones left laying around; if you know someone who deals with buildings after companies have moved out you'll have an endless supply of racks.
Photo of my newest CORRAS rack setup: https://www.neilvandyke.org/kubernetes/
Sadly, IKEA no longer makes the CORRAS. I used to have 6 of them, foolishly sold some when going minimal.
Most audio and networking equipment can fit in there, as well as some servers. Check on the servers to make sure they fit, though.
https://share.icloud.com/photos/0cdcI0nzE1jyUF8mGNwdrnCTQ
Damn it, now you're really making me pine!
Why must this stuff be so hard to get in the US? Last I checked there were two different companies handling distribution in the US and NEITHER of them seem to stock it anywhere! Except for one shop in LA that half the time carries expired bottles!
The caffeine high from Club-Mate is such a pleasantly sublime feeling. And you used to be able to order it from the 2600 store. I still have the yellow case!
Would love to hear from anyone who can get it in the US
https://club-mate.com/, click 'buy online'
I've even had some progress making my own carbonated mate drink, but it can be hard to get the flavor right
But if you love the stuff and can't get it, it's not hard to experiment. Those are basically the only ingredients.
The big thing is that a tight install of the legs and adding tension and mounting the hardware helps cross re-enforce them. The examples where people use a second lack top as the bottom are WAY more reenforced than one would expect, you probably could use it as a chair.
> https://spuder.wordpress.com/2013/03/23/lack-rack/
you can read (emphasis by me):
"If you decide to make your own, pay attention to which size lack rack you get. IKEA strangely offers 2 slightly different sizes
22 inch
and
21 5/8 inch."
In my opinion the explanation for this is clear: 22 is a round number in inches and 21 5/8 inch is nearly a round number in centimeters (21,625 inch = 54,9275 cm ≈ 55 cm).
I'm not setting my oven to 176 degrees Celsius even if I could.
I feel recipes have caused more people to avoid cooking than anything invented in the last 1000 years, heh.
Otherwise there's too many variables fluctuating every time to really attribute much to those tiny variations in the recipe.
When using flour or baking mixes, I convert to grams (1 cup all-purpose flour = 125 grams) and do it by mass to ensure it's the proper amount.
It may also be that US measuring cups are "more convenient" sizes than the equivalent metric ones would be.
For flour, they often specify "sifted" which removes some of the variability.
There's no reason Americans can't buy scales.
I got mine for $15 at Costco 10+ years ago. You can still get them from Amazon or Walmart for less than that.
> It may also be that US measuring cups are "more convenient" sizes than the equivalent metric ones would be.
When measuring out flour, I don't use a measuring cup at all. I put a bowl on my scale, hit the Tare button to zero it out, then add whatever number of grams of flour I need to the bowl.
> For flour, they often specify "sifted" which removes some of the variability.
That's gotta be awkward to sift into a measuring cup.
Most home ovens struggle to hit the set point to within 25F for most of their internal volume. They also have large swings in temperature as cheap heating elements do not respond quickly.
recipes routinely call for "1 large egg". think about the amount of variance that can be present in that measurement, and assume every other measurement can vary by the same amount.
old: The IKEA website only lists the 21-5/8" version. Is 22" required for computer rack use?
"The 21-5/8” racks are the exact dimensions of server equipment."
Truly magical piece of furniture.
I don't think "pictured above" means what they think it means as the image above is an outline drawing showing no wood texture whatsoever.
Has the editorial process really fallen to this level? (Hint: Yes it has)