Roundup of interesting articles, December 2019

Another U.S. Navy pilot that saw the UFO during the 2004 sighting near San Diego has gone public. He filmed the thermographic video of the object and said it lacked engines and was moving in a manner that defied physics.
http://nymag.com/intelligencer/2019/12/tic-tac-ufo-video-q-and-a-with-navy-pilot-chad-underwood.html

At least 100 stars have vanished from view since the 1950s. Did aliens build Dyson structures around them?
https://www.airspacemag.com/daily-planet/stellar-mystery-how-could-100-stars-just-vanish-180973821

For at least 2,000 years, the global energy consumption of the human race has been growing at a steady 2.3% per year. Since the production and consumption of energy always leads to the release of waste heat, we’ve been continuously raising the Earth’s temperature in a different and more basic way than we have through the much more recent mechanism of greenhouse gas releases. Extrapolating the trends, Earth will get so hot with our waste heat that it will become uninhabitable in about 350 years, and we will have made a Dyson Sphere in 1,100 years.
http://scholars-stage.blogspot.com/2010/08/notes-on-dynamics-of-human-civilization.html
https://dothemath.ucsd.edu/2012/04/economist-meets-physicist/
https://dothemath.ucsd.edu/2011/07/galactic-scale-energy/

“Instrumental convergence” describes a concept that I also developed independently a few years ago. I think an AGI that 1) valued its own existence and/or 2) was given goals that were misaligned with humanity’s interests would behave in broadly the same ways that we do. Among other things, it would see that acquiring resources for itself facilitated its core goals. The rate and manner in which it did things like resource acquisition might be so different from how humans do it that we wouldn’t understand in the short run what the AGI was doing, in the same way that humans who play AlphaGo are often baffled by the machine’s strange and seemingly bad moves right up until the complicated trap is sprung on them.
https://en.wikipedia.org/wiki/Instrumental_convergence

Small amounts of stress are actually good for most living organisms. A stress-free existence is bad.
https://en.wikipedia.org/wiki/Hormesis

A woman who died of cold exposure was revived after six hours of no heartbeat or breathing.
https://www.bbc.com/news/uk-50681489

Apple will probably incorporate some new algorithms into its future iPhone cameras to sharpen photo quality. I’ve predicted that this kind of technology will be used to clean up old photos and films by removing flaws and accurately adding details and colors to them.
https://www.bloomberg.com/news/articles/2019-12-12/apple-buys-u-k-startup-to-improve-iphone-picture-taking

Within the next few years, quantum computers will be powerful enough to do accurate simulations of chemical molecules that haven’t been created in the lab yet. The simulations could let us rapidly and cheaply determine which have useful properties.
https://www.mckinsey.com/industries/chemicals/our-insights/the-next-big-thing-quantum-computings-potential-impact-on-chemicals

OpenAI created completely unexpected strategies for winning this simple “hide and seek” computer game, including some that capitalized on game glitches the human programmers didn’t know existed.
https://www.youtube.com/watch?v=Lu56xVlZ40M

If you thought non-U.S. NATO members shortchanged their defense spending, wait till you learn that they’ve been counting military pensions (!) towards the 2% of GDP minimum threshold. Also: “[The] US spends fully $127,000 on each soldier’s equipment, while NATO European members spend only one-fifth that amount, $25,200 per soldier.”
https://www.mckinsey.com/industries/public-sector/our-insights/more-tooth-less-tail-getting-beyond-natos-2-percent-rule

As part of a weird and inevitable exercise in gun rights, internet hobbyists made and published instructions for building Hi-Point pistols using 3D printers and spare metal parts. The weapon, called the “Lo-Point,” can be made for as little as $33.
https://www.thefirearmblog.com/blog/2019/12/09/3d-printed-hi-point/

3D printing of spare parts that haven’t been made in decades could save the U.S. military billions of dollars.
https://www.washingtonpost.com/outlook/2019/12/26/d-printing-is-about-save-military-billions-dollars/

The U.S. Marines are testing new bullets whose cases are a mix of plastic and brass. The new bullets are 30% lighter than all-brass ones, meaning more can be carried into combat.
https://taskandpurpose.com/marine-corps-polymer-ammo-m2-browning-machine-gun

A long, searing, and technical exposé of the monumental failure called the U.S. Zumwalt-class destroyers. The project suffered from EVERY type of dysfunction the military-industrial-congressional complex could muster.
https://www.pogo.org/analysis/2019/01/the-u-s-navys-titanium-tin-can/

The U.S. has launched its second Ford-class aircraft carrier.
https://www.overtdefense.com/2019/12/19/future-uss-kennedy-aircraft-carrier-launched/

China just launched its second aircraft carrier. It is inferior to its U.S. counterparts, but China is already working on a third ship that will close much of the gap.
https://www.scmp.com/news/china/military/article/3042469/chinas-second-aircraft-shandong-carrier-officially-enters

Russia’s sole aircraft carrier has even MORE problems: It accidentally caught fire in port. The Russians are probably lying about how damaged it is. They should scrap it.
https://www.janes.com/article/93359/damage-to-admiral-kuznetsov-not-critical

Ukraine is basically the same thing as Russia, but smaller and poorer. In spite of their dire straits in their fight against secessionists, the Ukrainian government and arms industry continues to badly underperform due to corruption.
https://www.overtdefense.com/2019/08/12/ukraine-will-buy-a-polish-built-version-of-its-own-vehicle/

Ukraine is experimenting with an augmented reality headset for its tank crewman. It consists of a Microsoft Hololens that gets live footage from eight cameras on the exterior of the tank.
https://www.janes.com/article/93132/limpid-s-lpmk-see-through-armour-system-delivered-to-ukrainian-army

This is the most comprehensive source of data on modern Soviet/Russian armored vehicles I’ve found. This rivals what’s in most books on the subject.
https://thesovietarmourblog.blogspot.com/2015/05/t-72-soviet-progeny.html

Here’s another analysis of the battle performance of different U.S. weapons systems during the 1991 Persian Gulf War. Its conclusion is that the simpler, cheaper weapons were much more decisive than the complex, expensive weapons like the stealth fighters.
https://www.pogo.org/report/1992/07/high-tech-weapons-in-desert-storm-hype-or-reality/

Until recently, the U.S. had one of the coolest things possible: stealth, nuclear cruise missiles.
https://www.thedrive.com/the-war-zone/31286/the-saga-of-the-agm-129-cruise-missile-that-was-basically-a-stealth-jet-designed-upside-down

Here are some fascinating analyses of the practice of remanufacturing armored vehicles. Every few years, a military is supposed to send all its tanks to its military depots so they can be cleaned up, tested, have all worn parts replaced, and upgraded if necessary. When it emerges, the vehicle is almost as good as new, at a fraction of its initial price. American tanks are evidently so robust that their breakdown rate doesn’t increase with age, it only increases with use.
https://www.rand.org/pubs/technical_reports/TR286.html
https://www.rand.org/pubs/documented_briefings/DB648.html
https://www.defenseindustrydaily.com/reset-of-the-us-armys-vehicle-fleet-continues-02493/

Another RAND analysis concludes that Joint fighter plane programs, in which different military forces with different air combat needs build a single plane that can “do it all” at relatively low cost, are failures, and we’d be better off building different fighters suited for different roles.
https://www.rand.org/content/dam/rand/pubs/monographs/MG1200/MG1225/RAND_MG1225.pdf

The F-117 is still flying as an “aggressor” plane in training missions.
https://www.thedrive.com/the-war-zone/31361/f-117s-spotted-playing-stealthy-aggressor-against-f-15s-and-f-22s-over-nellis-range

It could be possible to “cloak” objects as big as planes from the naked eye. There are signs the U.S. Air Force is secretly working on the technology, and President Trump’s much-ridiculed statement about the F-35 being literally invisible might have been an inadvertent utterance about the existence of a secret prototype he was told about.
https://www.thedrive.com/the-war-zone/29543/the-visible-history-of-the-militarys-hunt-to-realize-an-invisible-aircraft

These LED-embedded T-shirts have coarse pixels and only display simple visual patterns, but they’re proof of concept that active camouflage outfits that are nearly as good as sci-fi cloaking devices could be built someday.
https://www.flashionstatement.com/product-category/led-t-shirts/

I predict this quote will go down in infamy: “I do not believe there will be a dramatic increase in demand for battery vehicles, and I believe this situation is true globally.”
–Takahiro Hachigo, CEO of Honda
https://electrek.co/2019/12/26/honda-ceo-says-no-dramatic-increase-in-ev-demand/

An autonomous car has been taught to drift, and the racetrack footage is awesome.
https://news.stanford.edu/2019/12/20/autonomous-delorean-drives-sideways-move-forward/

For the first time, wind power makes more electricity in Texas than coal.
https://www.cnn.com/2019/07/25/us/texas-wind-energy-trnd/index.html

A simpler way of solving quadratic equations has been found.
https://www.popularmechanics.com/science/math/a30152083/solve-quadratic-equations/

The full genome of a woman who died 5,700 years ago has been recovered from a piece of chewing gum.
https://www.bbc.com/news/science-environment-50809586

Humans probably “self-domesticated” by preferentially mating with partners who were friendlier and more cooperative by nature. Those traits are stronger in people with certain facial features, and many generations of evolutionary pressure in that direction partly explains why our faces have “finer” features than Neanderthals’.
https://www.nature.com/articles/s41598-019-44877-x
https://www.ub.edu/web/ub/en/menu_eines/noticies/2019/12/015.html

This shocking pedigree shows had badly inbred the Spanish Hapsburg Royal Family was. Genetic unfitness directly led to its collapse.
https://www.livescience.com/3504-inbreeding-downfall-dynasty.html

Ancient Roman expeditions made it all the way to the Sahel!
https://en.wikipedia.org/wiki/Romans_in_Sub-Saharan_Africa

The 2010s were the best decade in history, overall.
https://spectator.us/just-best-decade-human-history-seriously/

Here’s a reminder of how cruel and brutal nature is. I think it should be humanity’s mission to use future technologies to end suffering on Earth for all life forms that feel pain. If we did that, maybe we could at last call ourselves a noble species.
https://www.thesun.co.uk/news/10608688/zebra-ripped-apart-escape-crocodile-kenya/

One of my predictions came true :-)

In September 2018, I wrote the following in one of my blog posts:

Following the recent release of the “iPhone XS Max” impelled this tongue-in-cheek analysis, which projects that iPhones will be as big as small tablet computers by 2025, which is comical. However, I predict the growth trend will continue as predicted, but the iPhones will stay pocket-sized thanks to foldable screens.
https://www.economist.com/graphic-detail/2018/09/13/how-big-will-the-iphone-get

I made a mental note to add this to my next, Big List of Predictions, and did so when I published it four months later:

[In the 2020s] Foldable smartphones will enter mass production, though it’s uncertain how much the market will embrace them. These phones will have one, rigid screen on their “front cover,” and one, flexible screen that is twice as big spanning their inner space.

The Samsung Galaxy Fold is the exact kind of future device I described.

Rumors of Samsung’s impending release of a foldable smartphone started circulating in January 2019, which is when I wrote the Prediction post, but they didn’t influence me. That phone, the “Galaxy Fold,” had a limited release in April 2019, which revealed serious technical problems and forced Samsung to delay its widescale release until September to fix them. The reviews I’ve read since then have been positive. This means my prediction about foldable smartphones was right, and actually came true a few years sooner than I thought.

So there! Eat it, doubters! I know you’re listening. (Maybe…)

One of my predictions failed :-(

In 2012, long before I started this blog but a few years into my unofficial side career as a futurist, I predicted that 1 terabyte (TB) thumb drives would cost no more than $20 apiece by the end of 2019. I was wrong.

I made that prediction in the form of a Facebook Note, which I’ve copied and pasted to the end of this blog entry (see far below). At the time, I used Kryder’s Law (the observation, first made in 2005, that hard drive density doubles every 13 months) and did some back-of-the-envelope calculations to extrapolate price trends in solid state memory, leading to my 2019 date. Prices didn’t come down as fast as I predicted, and today $20 will at best get you a 256 GB thumb drive. I saw that offer during a Black Friday sale, when retailers usually offer the lowest prices of the year, and in this case, of 2019. This means I fell two price-doublings short.

On Black Friday 2019, the 256 GB “Patriot Memory” thumbdrive was $20 on Newegg.com.

(Quick aside: Other solid-state memory deals I saw on Black Friday 2019:

  • 1 TB Seagate Desktop SSHD 7200 RPM internal hard drive – $35 (Newegg.com)
  • 1 TB Western Digital EasyStore external hard drive – $40 (Best Buy)
  • 128 GB SanDisk MicroSD card – $14 (Walmart))

I mistakenly assumed that Kryder’s Law applied to the sorts of solid-state computer memory chips found in thumb drives. In fact, the Law only applies to the older type of rotating, magnetic hard disk memory drives, meaning I had even less of a foundation for my trend calculations. If there is no fundamental force of science, technology, industry, or nature undergirding an observed phenomenon, then there’s no reason to expect the phenomenon to continue. I had correctly observed that thumb drives were getting cheaper year over year, but assumed without basis that the improvement would continue at that same rate until 2019.

However, even if Kryder’s Law had applied to solid-state memory, it wouldn’t have saved my 2012 prediction since, in the years after, the Law stopped holding true. The graph below shows the average cost-per-byte of HDD space from 1990 – 2005. Note the graph has a logarithmic scale, and the blue price points neatly form into a non-horizontal line, indicating an exponential trend. You can understand why Mark Kryder looked at the data in 2005 and created his eponymous Law of exponentially improving price performance (specifically, with a doubling every 13 months). Extrapolating the Law into the future, as indicated by the red line, a 1GB HDD should have only cost one cent by the end of 2019. This means a 1TB HDD should have cost $10.

2019 is now nearly over, and the cheapest, newly manufactured 1TB HDD I found in my research cost $35. The difference is because, after 2005, HDD prices stopped decreasing at the rates Kryder had observed.

The trend’s downward slope flattens a little from 2005-2011, and then flattens A LOT from 2012 onward. Muddling the data is the fact that massive floods hit Thailand in 2011, which disabled several important computer chip factories, reducing global HDD supplies and spiking their prices. However, after the last of those factories was restarted in 2013, the cost-per-byte trend didn’t return to its pre-2011 downward slope. The slope since 2013 has been much shallower.

The sharp slowdown in progress is thanks to the current HDD technological paradigm, called “perpendicular magnetic recording” (PMR), reaching the limits of what it can achieve. The next technological paradigm, called “heat-assisted magnetic recording” (HAMR), has been delayed by several years because various engineering and reliability problems have proven harder to solve than expected. In fairness, Mark Kryder couldn’t have foreseen this in 2005.

So yup, I was wrong. I own up to it, understand the reasons for my mistake, and won’t repeat it. So let me do a new prediction, this time based on more relevant data, and more cautiously couched. Here are historical price data for flash memory:

Eyeballing the scatterplot, the rate of price-performance improvement slowed down a lot around 2010. I don’t know what happened then, but there’s enough of a disconnect for me to say that the trend could best be represented with two, downward-sloping straight LSRLs (least-square regression lines):

The horizontal purple line represents the $20 mark. The yellow line depicts the old cost trend, and had it continued, a the cost of a 1TB flash drive would have dropped to $20 in 2014. However, for reasons unknown, we’re now operating under the shallower red line, and it doesn’t intersect with the purple line until the middle of 2022, which suggests that the 1TB/$20 milestone will happen by the end of that year.

I believe that the red line trend will persist until at least 2022 because it is being largely driven by advances in 3D NAND “chip stacking” techniques, and the technological paradigm doesn’t seem like it will reach its limits in the next three years. Thumb drives, like the one made by “Patriot Memory” I showed a picture of, have about 64 flat memory chips, stacked vertically like a pack of cards. Adding an extra layer increases the device’s overall memory storage capacity, while raising the cost of manufacture by a disproportionately small amount. This year, semiconductor companies started mass producing flash drives with 128 layers of chips, and it shouldn’t be long before they are incorporated into common thumb drives, resulting in a near-doubling of price-performance. It’s unclear how far the “layer stacking” method can go before it hits a technical/cost wall (at some point, the marginal downsides of adding a new chip layer exceed the benefits thanks to longer manufacturing times, higher costs, and unacceptably high defect rates), but for what it’s worth, experiments are now underway to make 176 layer chips, and some semiconductor engineers believe the ultimate practical limit is somewhere in the hundreds of chip layers.

Even if the practical limit to the height of the chip stacks arrives before the end of 2023, another doubling of 3D NAND price-performance could be had by finding ways to shrink the sizes of the individual cells that store bits of data on each chip. Shrinking cell sizes from the current 40nm to an entirely doable 30nm would almost double the price-performance. (Older, single-layer flash chips have 15nm cells, which are much harder to make than 30nm cells.)

In summary, I think the current rate of price-performance improvement for thumb drives will continue until a 1TB thumb drive costs only $20. They will probably be that cheap by the end of 2022, but because I’m cautious, I predict the milestone will be reached by the end of 2023.

Links:

  1. Mark Kryder bio – https://en.wikipedia.org/wiki/Mark_Kryder
  2. 2014 analysis showing that Kryder’s Law had failed – https://www.semanticscholar.org/paper/An-Economic-Perspective-of-Disk-vs.-Flash-Media-in-Gupta-Wildani/a60e27abf3eda07dc5bf383b08f8027f9277dd93
  3. 2017 article about 3D NAND and its technical challenges – https://www.theregister.co.uk/2017/08/03/flash_layer_cell_shrink_tech/
  4. 2019 announcement of 128 layer 3D NAND – https://www.anandtech.com/show/14589/sk-hynix-128-layer-4d-nand
  5. More on how to improve 3D NAND – https://www.theregister.co.uk/2018/01/15/qlc_3d_nand_error_correction/
  6. Source for all of my HDD price data – https://jcmit.net/diskprice.htm
  7. Source for most of my flash memory price data – https://jcmit.net/flashprice.htm

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(My original prediction, published on November 23, 2012)

2019: Your life on a cheap thumbdrive

Left: A little more than a month ago
Right: Today (Black Friday)

In late 2005, I bought my first thumbdrive. It cost $20 and only had 1 GB.

That means that, in seven years, the cost-performance of flash memory has undergone about 5.5 doublings.

If the trend continues, in another seven years (2019), $20 will buy you a 1 terabyte (TB) thumbdrive. A terabyte is 1,000 gigabytes.

So what? Why care? Think about how big 1 TB is:

You could fit more than 300,000 high-res digital JPEG photos from a good D-SLR, or 250,000 full-length MP3 songs onto 1 TB. As massive as your digital photo and music collections are, they don’t come anywhere close to maxing out 1 TB. Go check your files now if you don’t believe me. You’d be lucky to break the 100 GB mark.

Let’s go a step farther and assume that you scanned all of your old film photos into your computer as well. Even doing color scans at 600 DPI (which is very hi-res), each individual photo will be at most 6 MB in size. Even if you had 10,000 old photos from the pre-digital days (which you almost certainly don’t), it would all take up only 60 GB.

Now, go a step farther: Tally up the filesize of all your email accounts, all your saved Word documents and misc personal files on your PC hard drive, your Facebook account, and any other worthwhile personal digital data you have. Add it to all the rest, and I’ll bet you’re still not close to the 1 TB mark.

Take another step and also estimate how big your stock of important personal papers (i.e. – Social Security card, driver’s license and other forms of ID, old report cards, old handwritten letters, drawings, diaries, financial statements, medical records, etc.) would be if you scanned them all. Assume each page is 8.5″ x 11″, color scanned, and done at a 300 DPI resolution (which is more than adequate for written documents). Let’s be generous and assume that each resulting JPEG file is 1 MB. Even 10,000 pages of scanned stuff only takes up 10 GB.

Throw in all your scanned VHS home movies, and any other barely relevant archives of your life, and you’re probably still not close to the 1 TB mark.

So, by 2019, you’ll be able to fit almost all the documents that describe who you are, what you like, and what you did onto a $20 device that is smaller than your pinkie finger. And as needed you could copy all that data onto other cheap backup devices in the space of a few minutes. There’s something truly surreal about that, and it really drives home how much our technology is surging past the familiar human pace of thinking, living, and generating meaningful content.

The only way you could easily break the 1 TB barrier for personally relevant computer files is if you started constantly recording your life with cameras in hi-def 1080p. If you set up such cameras throughout your house, in your car, and maybe on your person in order to permanently record every boring second of your existence, then you would blow past 1 TB pretty fast.

Such a practice is called “lifelogging,” and I think it will become common in the 2020’s as hard disk prices drop orders of magnitude lower than the $20 per TB example discussed in this Note, and as hi-res cameras become tiny and dirt cheap. If we’re wearing augmented reality glasses by then, they will be embedded with 1080p cameras and microphones, and you could easily set it to constantly record everything and upload it onto some central hard drive where you keep all your files. AI by that point should be good enough to actually understand much of what’s going on in your recordings, so you could verbally ask your Google Glasses something like: “Hey, what was the name of that guy with the red hair and leather jacket that I met last month at that dinner?” and it would be able to scan through your past recordings and find the answer for you.

But I’ve gotten off-track…just know that we are entering an age in which everything will be recorded and stored digitally forever. Near-perfect records of everything that happened, everything that was written, and everything that was said will exist by 2030. With instantaneous access to their lifelogs, no one would ever forget anything. The fuzziness and subjectivity of human memory would be superseded by clear, objective recordings. And with cameras all over the place and being constantly carried around by random people, it will be very hard to escape detection and to live anonymously.

Comment added later: I forgot something: By 2019, you will also be able to get you personal genome sequenced for less than $1,000 and store it digitally in your $20 thumbdrive. Your DNA should take up at most 2 GB of storage space if compressed.