this post was submitted on 02 Nov 2024
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A time capsule
Place photos and some small objects maybe even a usb key, dvdr or cdr with a video of you explaining everything and telling the viewer who you are, what year it is, what's going on and what's important to you right now. Place it all in a water tight container, maybe even an iron case and weld it shut.
If you have small kids, tell them what you're doing and show them .... maybe they or their kids or your descendants might dig it up some day.
Of all the places I've renovated, I would have enjoyed finding something from someone else's life.
Best bet is long term optical discs or long term magnetic tape. USB keys are not good for long term storage. USB keys use NAND memory that is a series of floating gate metal oxide semiconductors (FGMOS). These operate by using Fowler-Nordheim tunneling, in where a charge is carried along a regular style fin field-effect transistor (FINFET) and a charge above the transistor's channel causes some electrons to quantum tunnel into floating gates that are isolated by oxides.
While these floating gates are sealed off from everything, so the charge should stay "indefinitely", quantum effects cause some of the electrons to "leak" out of the floating gate, causing a degradation of the stored signal. Typically there's a refresh circuit within the USB key's integrated circuit that takes care of that and USB data can last seemingly forever. However, that refresh circuit requires a small amount of power, which if you store the USB stick somewhere for years on end, will never get powered.
This is the reason why flash memory only assures data can be retained for about ten years without power. Eventually the electrons "trapped" in floating gate have enough time to tunnel out of the floating gate completely obliterating the signal. The tunnel events aren't many per second, but give enough time, and all of those events add up. Paired with the whole thing that USB sticks mostly no longer use binary logic levels. Most are now using something like four or eight logic levels. So instead of there just being on and off, there is 0V-0.7V = 00, 1V-1.7V = 01, 2V-2.7V = 10, 3V-3.7V = 11 logic levels. So a small amount of charge loss can create a different bit pattern.
One thing to look at for long term storage is something like M-DISC. The matter by which the burned data onto the optical media is made is via a process that takes about 10,000 years (estimated) to break down. However, the disc itself is in a polycarbonate thermoplastic that has an average breakdown of only about 1,000 years in extremely dry environments and about a tenth of that in your average sealed lock box environments.
Your average spinning disk hard drive can store information for some time, but the storage requirements are pretty intense and even then hard drives loose about 1% of the magnetic strength per year without power. And about 70 years is the max before the various magnetic bits that form the low level format of the disk have degraded without power to the point that the disk has too many bad sectors to be called usable. But outside of that, the biggest fault is mechanical failure. No matter how well you think you've stored a drive, it's never good enough and the spinny bits always fail from becoming too fragile from pervasive oxidation. Basically the drive will spin up only to tear itself apart as some weaken part of the armature flies into the spinning platters.
But USB sticks will only give you about a decade before the stored information fades away into the quantum ether.
Thanks for the detailed explanation .... now I know not to rely on usb for extremely long term storage ... never understood how they worked until I read your comment.
It makes me wonder ... what long term storage would be the best option for storing digital information .... like to store something for 100 or 200 years? Anything beyond that and I would just rely on writing something in stone and burying it.
The biggest factor with passive storage, something that's not refreshed. Optical media that's made to last. M-DISC comes to mind, but there's no proof that worse case 100 years is a valid claim. Chemically speaking, a well kept disc should keep 100 years, but that's chemical composition in an ideal case. Nothing in manufacturing is perfect, so impurities are always going to be there robbing the lifespan of these discs.
Magnetic tape ideally lasts decades if not close to a century, but these are tapes that are kept in incredibly controlled conditions. If you've ever worked in the server world you'll know that any plain Jane LTO magnetic tape can't be trusted after collecting dust for anywhere close to five years.
We have scrolls, we have books, and we have stone tablets that have endured centuries, but the key in all of those is how well they were kept. The construction matters, but the bigger aspect is the environment they were kept in. For digital media, we don't know any real way to keep digital data in a passive state for centuries because, well, we haven't had digital data for that long. We've got really old punch cards that are close to that age, but even then, some of the oldest stacks are now sitting in hermetically sealed cases and are actively upkept to prevent UV damage by clear coating those cases on a regular basis.
And that's the thing with digital media, keeping it in an active storage rather than passive may be the key for centuries of longevity. USB sticks are fine so long as someone remembers to plug them in and allow them to refresh every some many years. Most USB sticks use ceramic capacitors, so leakage there isn't too much an issue. The bigger thing might be corrosion of the various traces and pins, but if well kept, that might take decades to eventually make an impact.
Sometimes, I like to parallel digital long term storage as the Ship of Theseus. If you keep moving the data from one device to another, it's still the same data. And in that sense, the data can live forever. Even if there's a gap of say two decades, if you can still get to the data and convert it into something modern, the data lives on. It's not the original medium, but with digital data, it doesn't have to be, that's the neat thing about digital data.
I think people still are working on trying to wrap their heads around digital data versus the way we used to do it. You know, someone might have the family bible and we've got to keep it nice and tidy and careful with it, because with analog data the medium and the information are one in the same. And I think sometimes people look at family digital photo collections like that. Like it's the family bible and that we've got to keep it safe. But if it's a USB stick that you pull out every so often, look over it, and call it day. Maybe move the photos from the Walmart USB stick that you got in 2016 to the new 800TB USB-F stick you just got from neo-Amazon in 2073, those photos can live forever. You don't have to be careful with them anymore.
I think that's one of the reasons that open formats matter so much. If you stored all your family videos in Windows Media Format, what happens when Microsoft dies in the Second US Civil War of 2038? That's not helping you in 2073 to open those files on a format you can never figure out. But say you stored it in some open format. Now all you need is an implementation of that format and a compiler. And poof, now you have a modern codec to read the files of the before times.
It's one of those fun maybe slightly existential kinds of things. Nothing lasts, no matter how hard we try, nothing will last. All things forgotten decay, we can only slow that decay down, but we can't prevent it. But things that live, things that pass through the hands of the living, those things endure because there are people who put time, one of the most precious resources we have, into them. Our reward for that investment of time is something that continues beyond the decay.
I like to think of it as the balance of the universe. You get to keep this, but only if you give a bit of time to pay for keeping it. And sometimes it's crazy to think of how much that applies to. Also I likely shouldn't reply after having a few drinks. Wooooo!!
Environment makes all the difference for passive storage, sorry I really went out there on the reply.