Kioxia and Dell cram 10 PB into slim 2RU server

5/16/2026 at 6:56:12 PM

There's been a lot of talk about orbital DCs lately, but with these levels of density, orbital CDNs might be a more obvious usecase. It would be interesting to see if something like Starlink can use something like this to cache media content and reduce their overall data moving through the constellation. It could even be worth it to have some satellites in higher orbits (even GEO if the ground hw can reach it) dedicated to streaming media content. You can tolerate higher RTT for content that doesn't need to be real time.

by NitpickLawyer

5/16/2026 at 7:53:11 PM

no, absolutely not. orbital datacenters are never going to happen, it doesn't matter whether you try to frame them as compute or storage or whatever else.

the extreme density of these SSDs is actually an anti-feature in the context of spacecraft hardware.

the RAD750 CPU [0] for example uses a 150nm process node. its successor the RAD5500 [1] is down to 45nm. that's an order of magnitude larger than chips currently made for terrestrial uses.

radiation-hardening involves a lot of things, but in general the more tightly packed the transistors are, the more susceptible the chip is to damage. sending these SSDs to space would be an absurd waste of money because of how quickly they would degrade.

and then there's the power consumption & heat dissipation. one of these drives draws 25W [2] and Dell is bragging about cramming 40 of them into one server. that's a full kilowatt of power - essentially a space heater in a 2U form factor.

0: https://en.wikipedia.org/wiki/RAD750

1: https://en.wikipedia.org/wiki/RAD5500

2: https://americas.kioxia.com/content/dam/kioxia/en-us/busines...

by evil-olive

5/16/2026 at 8:52:56 PM

AFAICT[1] the latest generation of SpaceX Starlink satellites use AMD Versal XQR SoCs, which are built on a 7nm process with components like the main processor (dual-core ARM Cortex A-72) and memory (DDR4) clocked in the gigahertz, not megahertz, range.[2] At least some of these SoCs models (presumably the lower-clocked ones) are certified for geosynchronous orbits, not just low-earth orbits.

[1] https://www.pcmag.com/news/amd-chips-are-powering-newest-sta...

[2] https://docs.amd.com/r/en-US/ds955-xqr-versal-ai-edge/Genera...

by wahern

5/17/2026 at 1:25:55 AM

Just to put in my 2 cents as someone tangential and sometimes a little too close for comfort for the field: with FPGAs (aka the half of this SoC doing the real work) there's often a lot of work that goes into radiation tolerance and hardening which are different things. It's not like you can just put the chip in space and be done. You have to do things like scrubbing the "bitstream" regularly for errors, triple-module-redundancy (aka cut yourself to 1/3rd of the chip's capacity), and other stuff.

by Neywiny

5/17/2026 at 3:03:04 AM

What is the designed lifespan of a Starlink satellite?

by rbanffy

5/17/2026 at 3:29:43 AM

5 years.

https://starlink.com/public-files/Starlink_Approach_to_Satel...

by stingraycharles

5/17/2026 at 10:08:22 AM

I don’t think the flash storage would keep data integrity for that long without a lot of redundancy. Also, processing capacity would be limited as well. Is there a problem that can be solved with a LEO server that can’t be better solved with the same amount of money sitting in a datacenter somewhere?

by rbanffy

5/17/2026 at 4:52:39 PM

Pumping the SpaceX IPO.

by dsr_

5/16/2026 at 8:27:45 PM

> order of magnitude

It is much worse than that. Even taking the node names at face value[1] that is just one dimension, there are two/three[2] dimensions to consider so it would be 100x different.

Nehalem(2008) was a 45nm node based chip and had ~3MTr/mm2 transistors in comparison today we have 3nm(N3E/P/X/C) nodes(2023-4) from TSMC area about 220MTr/mm2.

Of course that is just one metric- transistor count, there are many other improvements to consider over the last two decades.

[1] Processor node names after all haven't been tied to physical scale for 30 years https://www.eejournal.com/article/no-more-nanometers

[2] HBM that modern GPUs use already leverage 3D ICs.

by manquer

5/16/2026 at 9:30:46 PM

It's possible to run modern GPU on a sattellite: https://www.starcloud.com/starcloud-1

Some error rate is acceptable for uses which aren't "mission-critical".

by killerstorm

5/16/2026 at 11:31:29 PM

Redundancy and error correction should be built into such huge arrays anyway. Its amount just needs to be increased.

by nine_k

5/16/2026 at 11:12:32 PM

The RAD750 is like 20 years old and is the absolute king in high reliability in the most extreme radiation environments. LEO is much more forgiving and there's plenty of examples of commercial gear operating in it. You could definitely put this much storage into LEO along with some EDAC and be fine for a few years.

by wildzzz

5/16/2026 at 8:08:44 PM

In the limit, packing transistors tighter should mean more radiation resistance, not less, because you can shield them with a smaller mass of water or lead or whatever.

by dmurray

5/16/2026 at 11:34:32 PM

It would be funny if lead-acid batteries end up being space-grade, should the lead be able to serve as a radiation shield.

by nine_k

5/17/2026 at 3:05:34 AM

IIRC, metals aren’t great shields because of secondary particles emitted after the first one hits the shield.

by rbanffy

5/17/2026 at 10:26:50 AM

The water cooling system then serves multiple functions, including acting as a radiation shield.

by randomtoast

5/16/2026 at 8:00:24 PM

[flagged]

by NitpickLawyer

5/16/2026 at 8:13:34 PM

i can write extremely confident things in all lowercase and include citations too. [1]

doesn't mean i'm correct. [2]

by fgfarben

5/16/2026 at 9:15:06 PM

It certainly looks more correct than a response like this, normally you'd expect a counter point instead of just doing whatever it is you are doing.

by hilariously

5/17/2026 at 10:05:08 PM

evil-olive's comment includes citations for fake information like the "nanometer" feature size of the chips. everyone knows those numbers are meaningless! they have no relation to the chips' ability to survive radiation in any configuration! but evil-olive adds the citation chaff knowing HN will upvote to avoid feeling bad about having to disagree with a strident "absolutely never going to happen" claim.

by fgfarben

5/16/2026 at 10:32:42 PM

On Grahams hierarchy of disagreement, your comment is 3 tiers lower than the parent comment.

by bigyabai

5/16/2026 at 8:57:28 PM

For the sake of the generations that come after us, we really should not dump valuable material into space. I somehow doubt the electronics in space would be recovered and recycled properly.

by tesdinger

5/16/2026 at 9:10:17 PM

Nothing is recycled properly. Recycling was a story told to ease consumers minds so they keep on consuming. The stuff you throw away ends up on a landfill, in the sea, or on a ship to someplace else where it gets burned and then buried. Sending it to space makes absolutely no difference.

by 9dev

5/17/2026 at 10:31:27 AM

At some point a massive landfill will become more economically viable to mine for rare or useful elements than an actual mine. There is a good case for piling rubbish into to a well-managed landfill for future generations to mine with better technologies.

Also, burning plastic waste in a power plant at least liberates the energy for use. One can argue it's just fossil fuels that spent time doing something useful before it became energy.

Taking rare elements to space only for it to stay up there or burn up in the atmosphere removes it from this whole equation.

by beAbU

5/17/2026 at 10:14:06 PM

Might be true in the US, but its a lie in many other countries, a lie typically peddled by climate change deniers. Paper, cardboard, glass, metal, plastic bottles is certainly recycled to a high degree here (up to 99% for some of these categories), but plastics other than bottles are hard because there's so many types of it and its usually stuck to something else.

by Hikikomori

5/16/2026 at 11:31:42 PM

Most steel and aluminum and nearly all copper is recycled

by UltraSane

5/17/2026 at 1:33:20 AM

How do you know?

by ekianjo

5/17/2026 at 7:53:37 AM

Places decent money for it

by Melatonic

5/17/2026 at 3:23:14 AM

It would be relatively obvious from the difference between production and mining output.

by jandrewrogers

5/16/2026 at 7:57:57 PM

Or you could use fibre, which has the advantage of not needing to use > 1kw of concentrated microwave to get ~2gig of throughput

Or even better not yeeting it into an environment where its cooked/cooled every 90 minutes

Or even better where its not absolutely pelted by cosmic rays enough to obliterate a good GB a day of data.

Or space data centre.

by KaiserPro

5/17/2026 at 7:28:34 PM

What exactly is the selling point for an orbital data centre?

Satellites for connectivity to ground-based data centres seems to make sense, but that seems like it's relatively light hardware compared to a rack full of compute and storage.

If we're looking for apocalypse-scale redundancy, we already have all sorts of ground-based infrastructure and multi-continental designs on earth already.

I wonder if it's some weird play in the seasteading style-- if they put the data in space, it's outside the reach of any government except ones willing to jam the airwaves or fire missiles capable of reaching orbit.

by hakfoo

5/16/2026 at 7:27:42 PM

If I correctly understand what you're suggesting, then that could save on uplink bandwidth. Sending one copy into space, and then sending it back down over and over again sounds nice.

But does it solve a problem that we actually have? Is uplink bandwidth a pressing limitation?

by ssl-3

5/17/2026 at 7:16:10 PM

why pollute the skies?

by sharts

5/17/2026 at 2:25:48 AM

/me turning in my sleep muttering https://en.wikipedia.org/wiki/Teledesic

by LargoLasskhyfv

5/16/2026 at 6:53:48 PM

The very first sentence of this article mistakes Terabytes and Petabytes. I used to dismiss the entire article as poor quality on seeing a mistake like this. But these days it also feels like an indicator the article was written by a human and might actually have something interesting to say.

Sadly not in this case though - the Kioxia drives are interesting, but the fact that Dell has put some in a box is much less so.

by fancyfredbot

5/16/2026 at 11:09:33 PM

All it really means is that big corps that have already existing sales relationships with Dell will be purchasing them in the next fiscal year. Anyone else that needed this level of storage density has already built their own boxes.

by wildzzz

5/16/2026 at 7:28:25 PM

At current enterprise NVMe prices, the drives alone for this must easily push past the $500k to $1M mark. It's fascinating to see this level of density, but it’s strictly going to be hyperscaler or high-end defense/research budget territory for a long time.

by Pallav123

5/16/2026 at 8:27:05 PM

The list price seems to be ~40M. https://www.dell.com/en-hk/shop/servers-storage-and-networki... Select the 40 slot chassis and put 40 of those 245TB disks in. Comes out at ~HK$317M. Of course HK prices might also be higher than what Dell USA offers.

Now how heavy the discounts you can get I don't know.

by buzer

5/16/2026 at 9:54:07 PM

My understanding is no one actually pays Dell sticker price. They list that price on the website but if you talk to whatever they are calling their sales reps you get the real price.

by tempest_

5/16/2026 at 11:02:58 PM

I know, I'm just not sure how high discount you are going to get in this kind of system. My understanding is that the discounts normally tend to be something like 30-40% so it would still be within same magnitude (10M+).

by buzer

5/17/2026 at 6:17:50 AM

That can't be right. You could buy an aisle of NVL72 or _one_ 2U server?

by kristjansson

5/17/2026 at 2:02:56 AM

It is kinda neat how the density can trickle down. When an individual SSD can hold tens of TBs, recent-gen drives can do millions of random reads/s each, and one socket can handle lots of RAM and many cores, it doesn't take the fancier chassis with two sockets or lots of storage bays to handle pretty substantial data work.

On the other hand, current part prices are not neat; a commodity platform only helps so much if none of what you want put in it is affordable! And other factors like power and cooling can push you away from optimizing for density. I just like that along with the ludicrious becoming possible, merely great stuff becomes more feasible.

by twotwotwo

5/17/2026 at 3:13:45 AM

I believe the rationale is that they are so much denser than they will compensate the price difference over the entire lifetime of the system. A 10 TB install is a full rack otherwise and this is 5% of the space. Colocation for HFT tends to be expensive and using 5% of the space for the same amount of data might make sense.

by rbanffy

5/17/2026 at 8:41:16 AM

Your average HFT algorithm will not have time to access storage at all, let alone 10 PB of it.

Back testing an HFT algo could very plausibly need 10PB, but I don't see that being co-located with the exchange.

by fancyfredbot

5/17/2026 at 9:56:59 AM

What would be good cases for data-heavy applications in expensive places?

by rbanffy

5/17/2026 at 10:11:27 PM

I'm not sure but I suspect that people who've run out of space in an existing data centre will be willing to pay for increased density rather than relocating.

by fancyfredbot

5/16/2026 at 8:12:07 PM

I'd double your guess on this one

by mikestorrent

5/16/2026 at 7:01:39 PM

Full NICs takes about 666 minutes to fill this thing.

Satan’s NAS!

by bombcar

5/16/2026 at 7:29:44 PM

This is one of the case limited by PCIe speed, sharing it with SSD so Network could only do 5x400Gbps Network. This is on PCIe 5.0, luckily we have 7.0 spec ready and 8.0 is even in 0.5 draft status.

If we could somehow increase the density further by 5x, we would be able to store 1EB in a single rack.

The most interesting part to me is the last sentence.

>Scality tells us it’s working on supporting a future nearline-class SSD from Samsung, viewed as an HDD killer, with similar or even larger capacity and a roadmap out to a 1 PB drive.

Finally a HDD killer. May be in another 5 - 10 years time. The day of everyone having an SSD NAS / AI Cloud at home will come.

by ksec

5/16/2026 at 9:32:49 PM

QLC already beats out HDD in power constrained hyperscalar environments. Capex is not the only factor.

by loeg

5/17/2026 at 3:46:36 AM

Yes but Only when power is a factor. Nearline Cold Storage is not the case here. And after nearly 6 years we still haven't have a solid contender to drive NAND BOM further down. So the news of competing with Nearline is certainly exciting.

by ksec

5/16/2026 at 7:28:23 PM

Tell me about the thermals.

by zeristor

5/16/2026 at 7:52:22 PM

Max per drive is 25 W, so even a rack with 20 servers of 40 drives each is probably less than the average GPU rack even after the other overheads.

by zamadatix

5/16/2026 at 8:22:45 PM

If datacenters start buying these things, will we see consumer harddrives go up in price?

by amelius

5/16/2026 at 9:14:15 PM

Kioxia was my eMMC supplier until earlier this month, when they said they couldn't fill my orders anymore. They're sold out.

So, yes.

by joezydeco

5/17/2026 at 3:06:44 AM

Look, out of all the BS that's come from the current AI CYOA (bubble, revolution, scam, whatever floats your particular boat), the one thing I'm optimistic for is the absolute glut of memory that'll be available once this cycle wraps up. I'm salivating at the thoughts of finally producing memory in such quantities that we can retire HDDs for bulk storage in all but the edgiest of edge cases; of more solid state tech seeping into consumer and business devices, enabling us to compute locally again instead of leaning on cloud providers for extra storage. Hell, I'd just be happy to see 4TB TLC or QLC SSDs coming in under $100 with endurance ratings that aren't garbage.

C'mon, 60TB SSD NAS for my media collection, or 20TB external SSD for backups. Get that density up and those costs down, already.

by stego-tech

5/17/2026 at 7:56:34 AM

Buy low and sell high

by Melatonic

5/16/2026 at 8:37:34 PM

I could do some cool backups with this bad boy.

by nout

5/16/2026 at 8:18:14 PM

Someone please fix the title for this.

by danhon

5/16/2026 at 10:50:10 PM

9.8 PB?

by smallerize

5/17/2026 at 3:59:56 PM

Meanwhile those without cheap credit to burn through can't even get a reasonably sized system SSD without selling a kidney.

by crest

5/16/2026 at 9:12:05 PM

Time for my NAS to get an upgrade.

by mmanfrin

5/16/2026 at 8:52:11 PM

Now make it for consumers. Storage capacity per dollar has really stalled.

by metadat

5/17/2026 at 5:26:06 AM

Reversed even. Years ago I built an NVMe NAS out of 4 TB drives, thinking "gee, SSD price sure have gotten stagnant lately" at the time. Now you can barely get 1 TB drives for the same price.

by zamadatix

5/16/2026 at 8:57:49 PM

Now you put this in a cruise ship and you can move a lot of data

by a1o

5/16/2026 at 8:15:48 PM

10PB is probably the amount of data a medium sized country can collect about its all citizens (basic details, work history, all taxes, all financial records, all medical records, all police records, all biometric records and more) for their lifetime.

I think development like this might get many public sector focused firms sweating.

by varispeed

5/16/2026 at 8:57:21 PM

Those records are going to be pretty negligible in terms of storage. It is only a couple new records per day. Even if you add things like detailed mobile and tracking telemetry, it is a few MB per person per day.

by jandrewrogers

5/16/2026 at 6:17:55 PM

What would this cost?

by louwrentius

5/16/2026 at 6:55:23 PM

I can't remember where I saw it, but I think each of these high capacity drives is in well into the 15-25k price range.

So a petabyte will be $600-800k alone, plus a server with enough high-speed PCIe lanes to serve the 40+ drives, definitely $1m+

by geerlingguy

5/16/2026 at 6:58:56 PM

They are likely 200USD+ per TB, so one 250TB drive would be ~50,000USD.

There’s probably bulk pricing, but if you bought 40 drives separately thats 2,000,000USD in storage alone.

by bracketfocus

5/16/2026 at 11:16:24 PM

It's actually now at least 400 per tb.

The 64's are 25k, up from 6k a year ago. I have to imagine the 128's or 256's are at least 500/tb

by DannyBee

5/16/2026 at 9:35:58 PM

$500 on Facebook Marketplace in 20 years time.

by retired

5/16/2026 at 6:24:32 PM

More than you can afford cause you had to ask, ha

by cr125rider

5/16/2026 at 6:39:20 PM

You can't buy this stuff anymore. They are leased and rented through layers of middlemen.

by gosub100

5/16/2026 at 7:04:15 PM

> anymore

Could you ever buy it?

by lostlogin

5/16/2026 at 11:14:35 PM

The 64's and 128's could be bought, and were not even totally unreasonable, price wise, at intro (IE <100/tb).

Concretely: a 64TB was like 6000 bucks last year. You could get them easily. It's now 25,000 for the same SSD.

by DannyBee

5/16/2026 at 6:13:28 PM

Remember that season of Silicon Valley on HBO that was all about “the box”?

I feel like we’re in that season.

by reactordev

5/16/2026 at 6:46:23 PM

Just waiting for the Gavin Belson edition box.

by darknavi

5/16/2026 at 7:07:14 PM

Signature edition ;)

by tanseydavid

5/17/2026 at 1:51:05 PM

I wish they'd make new episodes for the AI age.

by swed420

5/17/2026 at 11:25:24 PM

A lot of what we have today is a result of some of the stuff they had on the show back then. Most companies weren't doing NN's in 2016 but SV was. I agree that there needs to be a 2.0 maybe with a different cast, different company trying to make it but it's RIPE for today's market.

by reactordev

5/16/2026 at 6:14:32 PM

Can't wait to move my spinning rust NAS to this in 20 years.

by joe_mamba

5/16/2026 at 6:31:33 PM

I went to QLC for my NAS last cycle. The $/TB was worse, but not by a huge margin, and the performance is quite a bit better (not that it matters).

by loeg

5/16/2026 at 7:47:51 PM

I've been wanting to update my (100TB) NAS for over five years, but I haven't yet found anything that I feel is worth upgrading to. One of these with a QSFP56 interface would be nice, but I would need to sell one of my houses to pay for it, so I'll be waiting a little longer...

by anonymousiam

5/16/2026 at 7:06:50 PM

Sadly none of that enterprise hardware will ever make it to you due to being wastefully shredded

by mx7zysuj4xew

5/16/2026 at 8:06:00 PM

I work in the refurb department of an e-waste recycling company. In my n=1 data point, some server drives are shredded/destroyed, some aren't (maybe half) before they reach my team. Of the ones that aren't, most are too small to sell, or have bad reads or reallocated sectors. Maybe 10% are fit to resell, not zero.

by theandrewbailey

5/16/2026 at 6:17:40 PM

NVME SSDs are consumable items more so than HDDs are.

These drives will arrive in the secondary market to be snapped up by businesses lower in the food chain. By the time you can find them they will be ridden hard and put away wet that you probably wont want them.

by tempest_

5/16/2026 at 8:11:21 PM

I work in the refurb department of an e-waste recycling company. Some SSD brands are more durable than others. In my experience, a greater proportion of Intel and Micron SSDs are (or have) failed than any other brand. It's as if sysadmins are like "Intel is a good brand, lets use these SSDs to cache our HDD storage array", then throw them out when they turn read-only.

by theandrewbailey

5/17/2026 at 12:11:26 AM

"Let's build a compact, hugely data-dense server that absolutely no one can afford!"

by bitwize

5/16/2026 at 7:06:01 PM

[flagged]

by retired

5/17/2026 at 12:03:51 AM

Please don't sneer at imaginary people on HN. We're trying for something better than that here.

https://news.ycombinator.com/newsguidelines.html

by tomhow

5/17/2026 at 7:15:30 AM

Guess it is time to retire this account then.

by retired

5/17/2026 at 9:33:52 AM

Its' fine to just observe the guidelines! They apply equally to everyone.

by tomhow

5/16/2026 at 7:26:52 PM

Not quite yet.

The interesting thing here is ~256TB in a single drive, but it's in E3.L form factor.

I have about 160TB on hard drives that I'm waiting to offload onto a single SSD.

But that needs to come with a connector that has adapters to USB-C, so I can attach it to my Macbook Neo.

Hopefully they get it a bit more dense soon and into the 2.5" NVMe form.

by trvz

5/16/2026 at 7:58:26 PM

I've been waiting with bated breath for a SATA 3.5" SSD with high capacity.

I might be waiting forever, because clearly there's nothing coming. Though I'm not sure if it's because it's technically difficult (high power consumption to keep the flash lit?) or something else.

I'm aware that it leaves performance on the table for the chips, and probably that means that unit economics means that for the yeild: OEMs would rather make high performance drives which sell for more.

But a 4-bay NAS with 3.5" SSD's would be silent and theoretically sip power, and there so much space for chips, you could space them nicely and get 10+TiB in a drive...

I don't need to touch every cell, I just want something silent and stateless and less power intensive for my time-capsule backups and linux ISOs.

Alas.

by dijit

5/16/2026 at 11:16:11 PM

There's just no benefit to using SATA for it. Even a PCIe Gen3 x1 link provides a significantly higher performance - and those aren't exactly rare these days. Why invest a huge amount of time and money into building a controller chip which is significantly worse than its competitors in every way? Even if you're very interested in backwards compatibility it would make more sense to go for PCIe-based U.2 instead. And 3.5" is just a waste: look at 2.5" SATA SSD teardowns, they are mostly empty space.

If you really want a classic hotswap bay form factor, something like the Aoostar WRT Max allows installing a bunch of M.2 SSDs in a 3.5" bay. The QNAP TBS-h574 gives you five swap bays for M.2 SSDs - albeit in a cute custom form factor. Just want a whole bunch of storage? The Asustor Flashstor Gen 2 has up to 12(!) screw-down M.2 slots. At 8TB per slot that's 96TB of storage - significantly more than the 40TB 4-bay NAS you are proposing.

Or wait for someone to build a NAS which accepts EDSFF SSDs. But don't count on it, because there's no market for prosumer-level EDSFF drives (nobody has a bay for it, and M.2 is a far more attractive option for most people), so there's no market for EDSFF-compatible NASes either. Unless you plan on shipping them with M.2-to-EDSFF adapters - but at that point why not save a whole lot of space by going directly for M.2 instead?

It's a bit like asking for a Mini-ITX motherboard with an SP5 socket so you can plug in the latest Epyc CPU, and wanting it to have DDR3 memory slots: even if it's technically possible at all, what market is it supposed to serve?

by crote

5/16/2026 at 10:37:42 PM

E3.L is just fancy-shaped PCIe, is it not? What's stopping the standard off-the-shelf NVMe-to-USB converter chips from being used?

Given this disk is going to cost something like $40k, what's another $500 for having a Chinese hw eng throw one of those chips together with an E3 connector on a PCB for you, and 3D printing a neat housing?

by crote

5/16/2026 at 9:18:02 PM

Attaching a $40k drive to a $600 Macbook

by TiredOfLife

5/16/2026 at 7:42:18 PM

There's a ton of different adapters already between edsff connector used for e3 / e2 / e1 drives and everything else pcie already (pcie, m.2, u.2). For example this pcie card. (Good luck tweaking your equalizer settings jumpers by hand though, whew!!) https://www.microsatacables.com/pcie-x8-gen4-with-redriver-t...

Drop that in one of the many usb4 to pcie docks and you should be good to go. Pretty fugly but it ought to just work! I think there's some cheaper models that are under $90 still available, but here's a listing. https://www.dfrobot.com/product-2835.html

I believe a more focused dedicated usb<->NVMe chip might also work, if attached to an edsff connector. I didnt look hard, but I haven't seen any such products yet, but: it's mostly mechanical/packaging, some signal integrity checks, but generally wouldn't really be much different in the end than a NVMe adapter. Seems very doable.

Build it! Someone could sell (to quote a Daily Show) literally dozens of said adapter! (Eventually probably many many more, but not a huge second hand market for edsff atm).

by jauntywundrkind

5/16/2026 at 7:47:59 PM

It needs to be portable/travel-friendly, something like this: https://global.icydock.com/product_327.html

by trvz

5/16/2026 at 7:14:28 PM

Hitting a little too close to home with this comment.

by nickstinemates

5/16/2026 at 7:28:21 PM

Data retention is probably unusable for archival purposes.

by tliltocatl

5/16/2026 at 8:55:39 PM

All the increases in density are impressive, but they come with the downside of repairability and recycling difficulties. I hope we can still repair this when parts of it break or at least recycle it properly. No matter how high tech it is, eventually this will break.

by tesdinger

5/16/2026 at 8:58:41 PM

These drives all use standard enterprise storage interconnects, and the server chassis is like other Dell server chassis. Not using ATX or EATX, but it's status quo for Dell, and many old Dell servers wind down their old age in homelabs.

Hopefully one of these 10 PB monsters will be under $2,000 someday, at which point I will pop it in my homelab :)

by geerlingguy