Designers are getting overwhelmed because they're having to redesign boards for components that are available, only to realize by the time they finish the changes, the part they redesigned for is also out of stock.

There's been some talk of a Chip-induced cold war, and I would say that's not crazy given the market conditions. I also love the guy who posts here all the time saying he works for the company that makes the machines that makes the chips and they can't make more machines because they don't have the chips that go in them. XD

It's not crazy that a complicated bit of machinery has a few thousand individual chips in each one.

My understanding is that as you design more powerful chips you use those chips to design more and more powerful chips.

Some older 8bit cpus now have kits where you can make them from components (20x slower and many times larger…)

https://monster6502.com/

Walking into a corn fed post-apocalyptic future knowing that soaking your corn in ash water and hulling it prevents pellagra and improves the viability of your group is some handy knowledge.

This is also why rebuilding a web page after deleting it is so much faster the second time around. You've solved problems on the first go round that weren't apparent when you started.

Counter-intuitively though, while a lot of people think rebuilding software from scratch will be a lot faster, in practice it's not because people tend to have to re-invent and re-discover a lot of things, and bolt a lot of other stuff on top as well. Plus over-engineering, plus analysis paralysis, etc.

So making a carbon copy of e.g. a website: sure, but for a lot of software it doesn't work like that.

That said, I do believe rebuilding software will work out better in the long run because learning from the mistakes of the past. It'll be interesting to see what e.g. Google's Fuchsia will turn out to be, the first big / sponsored OS made from scratch in a while.

And Firefox / Rust is another interesting one; it was a massive investment and risk, but I think it's paying off.

I think this means we should keep log-books like ship-captains do so we can avoid treacherous waters on subsequent trips.

How many you got?

Our Analog Devices sales rep told me to expect another 12-18 months of everything being completely fucked. That was based on a conversation he recently had with TSMC. It's going to be super fun.

- Establishes a physical address, might be an abandoned building.

- Sets up a web site with full catalog of parts offered, many hard to find. Might be an actual defunct business they are fronting to look authentic.

- Take orders, demand payment in advance.

- Operate without shipping anything (they don't have any inventory) until the police start poking around.

- Shut down and reincarnate in a new address, new domain, new name, new logo, same catalog and e-commerce

Heisener is just a middleman so every transaction is different unfortunately.

I bet you’re not the only one doing that. No wonder there’s a shortage.

One of the things my last employer did to get around availability problems was to buy a vendor's entire supply of a chip we could use and then redesigning the product to use it. IIRC, the supply was projected to be enough to last a year. Hopefully, a year from now it will have proven to be a good decision :-)

It's crazy out there!

We redesigned it to use another chip we had in-house, intended for another product, but that product sells for much less and is in less demand, so...

We initially thought we could move pins around in firmware, and the parts have the same footprint, so it seemed possible, but they were different enough that we had to rev the PCB. Now we're waiting for PCBs and crossing our fingers that they will test out.

https://www.bosch.com/stories/bosch-chip-factory-dresden/

It amazes me how the US allowed itself to be nearly deindustrialized after manufacturing effectively won them WWII and global dominance. Now the US can't even make ventilators or face masks

The fact that I can't get competitive production quotes in the USA for most products, like electric motors, injection molded plastic parts, printed circuit boards, stamped metal parts, castings, etc, suggests that the US is also not particularly efficient at making those parts. There was a time when the cheapest place to go for such things in production volumes was actually the US.

The people I know that are running manufacturing aren’t exactly hurting for business. Now is just not the time to lock in high quantities of low-cost stuff.

This article is about TSMC raising prices for what little capacity they have unallocated. We can all agree that they are probably the best in the world at what they do, yet there is no way you will get “competitive production quotes” from them for commodity chips. Jim Bob’s Plastic and Stuff out in Fort Wayne is no different. Now, Jim Bob is probably going to cut you a deal way sooner than TSMC is, but I know of a certain mega-big car company that shut down an engine plant for a week because Jim Bob said last years prices aren’t this years prices - and you probably aren’t as big as mega-big car company.

Sure, our share of global manufacturing is smaller, but that's hardly surprising when many more countries up their manufacturing game. A more interesting metric would be US percentage of total worldwide manufacturing as a function of sophistication: I'd rather be building complex medical instruments than toasters.

So, stick to your complex medical instruments. Or, if you switch to toasters, please don't build the same shitty crap as everyone else.

And in modern developed economies, those margins are insufficient to support a decent salary.

What happens? Well I suppose the economy collapses and the proletariat rise up and usurp power, or something fantastical.

What’ll more likely happen is we’ll further automate repetitive low skill tasks, and / or start making more durable goods, or otherwise ingenuity our way forward.

But I guess it's really a question about post-scarcity economics, and whether they're possible?

I’m more optimistic. Not really sure I have much to base my optimism on, but oh well.

Edit: fixed a word

Or, you know, they'll send it to the lowest-cost labor supplier they can find to build by hand and that won't be in the US!

You mean compared to a time when most developed countries' production capacity was significantly limited because they had been bombed out in WW2 and developing countries were a long way away from being competitive?

https://qz.com/1269172/the-epic-mistake-about-manufacturing-...

tl;dr if you focus on Intel's monopoly money-printer years, multiply it by a hedonic adjustment due to Moore's law, and mix it in with the rest of manufacturing it's enough to hide de-industrialization in your statistics.

Not really, it's usually the least profitable part of the supply chain.

That American businesses would gladly hand over their profits to poorer countries is irrational at face value.

TSMC is more than a manufacturer, they are a provider of very sophisticated in-demand tech for which the manufacturing process itself - is high tech, high stakes, high barriers to entry.

They are a little bit like Boeing in that the 'making' part is really hard. Less so like Flextronics.

Depending on how countries react to this, we could very well be in the opposite situation in 3 years, where we have a vast glut of chips and parts of every kind.

TSMC is not going to charge their customers 'prevailing market value' i.e. they could spot price at 5x their current prices, because it'd be gauging and the supply change would react long term to that 'bad behaviour' by TSMC. Big supply chain relationships are longer term so those things matter.

Because of the huge players involved with enough cash do influence (i.e. Auto, Apple, Samgsung) maybe we're in for a strategic alignment beyond just a fab shop in Texas.

One big caveat to all of this is that though manufacturing itself is low profit, a lot of things around that can become profitable. Making moulds, adjusting designs, managing supply chains, optimizing designs etc. - all of this becomes 'know how' that moves over to the manufacturing side and if they are smart about it, they'll leverage it.

Also, manufacturers can possibly develop some market power which they can try to flex as well.

Hopefully we see a shift to more high quality intelligent manufacturing in the Western world by leveraging tech, robots etc. and convincing consumers to pay higher prices for some things.

>>Now the US can't even make ventilators or face masks

The US led the world in the speed of its vaccination rollout. As for manufacturing, its world-leading biopharmaceutical infrastructure allowed it to produce the most shots of the most effective covid19 vaccines, of any country in the world.

Work is work, money is money. There's nothing fundamentally more important about manufacturing then other types of jobs. The US still has tons of manufacturing but unsurprisingly its on the backs of much fewer jobs, many of which require more education and specialization then manufacturing economy of old used to supply

the idea that manufacturing is the only work that matters is especially bizarre on a social media website for tech workers.

microsoft or oracle or any number of other software products absolutely deliver value to customers just as much as a machine stamping out parts, those companies couldn't work without that software just like they can't work without an assembly line or a delivery truck or whatever.

You can get by without services, you can’t get by without manufacturing.

There are no tech workers without computers.

these lucrative manufacturers invested heavily into specialist machinery and are reaping the benefits.

Seriously though, 3M would like a word.

These managed funds are driven by quarterly earnings people expect to see...

This intern drives public companies to focus on quarterly earnings

Privately held companies almost never look at quarterly earnings, they look at a 5 year picture... It is mainly public companies majority owned institutional investors (401k's, pensions, etc) that focus on quarterly earnings

So once again what people blame capitalism for, is in reality government putting their hands on the scales and tipping the market in ways that have unintended consequences

Service economies work great in places where food and housing are free, so money is only needed to buy luxury goods. They only work poorly in the US because capitalists have leverage over service workers.

Samsung, which is the largest IC manufacturer, recently increased prices: https://www.tomshardware.com/news/samsung-foundry-to-hike-wa...

If you look at prices for the stuff a lot of wafer capacity is going towards, particularly Flash and RAM, you'll see that the prices have gone up 20%+ over the last year.

I think people like to pick out TSMC because of the politics surrounding Taiwan and China, and maybe because a lot of companies use TSMC for their IC production and like to complain. People don't notice as much when other ICs like flash, ram, micros, etc are slowly increased in price.

Also there is only one supplier (ASML) in the entire world who makes a critical machine (extreme ultraviolet laser photolithography machine) needed for these cutting edge processes. It is unable to match the increased demand for their tools. And even if they were these super advanced might as well be magic machines have a lead time in years themselves as do the factories they go in to.

If you want to start marking modern semiconductors or increase your existing capacity to do so it isn't as simple as throwing a couple million at it and having it running in a few months. Its billions of dollars in a massive sterile factory using machines made by a handful of suppliers taking up acres of land and consuming impressive amounts of electricity and water to do so. Semiconductor fabs are massive sprawling industrial campuses https://images.anandtech.com/doci/13749/intel_kiryat_678_678...

actually iirc they've tried to get into the custom foundry business a couple times now (see: "Intel Custom Foundry" that got discontinued a couple years ago) but they never really attracted any major customers.

https://semiwiki.com/semiconductor-manufacturers/intel/7912-...

Part of this was due to the fact that Intel's design rules (the "rules" that govern chip design: how small wires and transistor features can be and so on) are completely different from every other foundry, so while porting from TSMC to Samsung or something like that certainly isn't easy, it's at least straightforward, whereas Intel's stack is basically totally different from everyone else's. One of the advantages Intel has is that the chip design and the process are tightly intertwined, if there is a problem with the chip design the designers can go down the hall and talk to the process people and see if they can come up with a solution at the process level. This obviously also became their downfall when 10nm slipped, and likely also it severely reduced their ability to sell their foundry services to other customers.

According to that article they were apparently also rather secretive about their process (seeing it as part of their "special sauce" I guess) and I've heard many customers doubted Intel's commitment to the program as well as their neutrality. And I think the final piece of the puzzle was probably price - I'm guessing Intel was asking a royal sum compared to GF or Samsung or TSMC. After all... they're intel, and their process is the best!

> One of the funniest stories I heard was about the first copy of the Intel 14nm design rules Atera got from Intel. They were heavily redacted, which is something I had never seen in the foundry business. After many delays Intel put their own implementation team on the first 14nm Altera tapeout and the result was a very competitive FPGA chip. If not for the continued delays, Xilinx would have been in serious trouble as the Intel 14nm FPGA, based on my experience with customers, beats the Xilinx 16nm in both density and performance.

They are now trying to get back into the custom foundry business of course. Different management, and a very different business situation for Intel - if they can get other customers to help finance their node development that's a big win for them at this point.

[1] https://www.anandtech.com/show/15428/asml-ramps-up-euv-scann...

[2] https://www.youtube.com/watch?v=jJIO7aRXUCg

Something doesn’t add up there.

No offense to his accomplishments, but the modern fabs like TSMC are so advanced you cannot just make the things they make without billions of capital investment. It just is not possible.

Unfortunately, many of the chips in short supply are on pretty small nodes, so you need extremely specialized equipment limited to a few of the big players to make them.

Certainly there's some stuff that can be made in larger nodes, but if you want something in 5nm you basically have one game in town.

The shortage won't last that long.

But in the meantime, anyone who owns a suitable factory can pretty much set the prices as high as they like. I'm really surprised the price hike is only 20%, rather than 10% per month for the next 3 years.

Some other government? This wouldn't have much impact on chips, except to make it a lot less likely anyone makes chips in that country ever again — which isn't to say no nation would do it; economic history is full of this sort of thing, particularly as nations start going the way of Venezuela.

The entity that manufactures the product is compensated for it, meaning the money isn't being siphoned off by a random third party. Price controls grant a wind fall to consumers who are in no position to build another semiconductor plant. It's basically a wealth transfer away from the semiconductor industry into the consuming industries. If you want semiconductor prices to drop then either grant a subsidy or let the government build a plant that produces way more than the market really needs.

A single shortage plus price increase might not be able to pay for a whole plant, but any plans to expand capacity will be shifted forward rather than be delayed. If the profit motive exists the construction of the new plant will happen one year sooner and it will be bigger in anticipation of future shortages.

For most uses of tech, demand is there even if the price doubles.

Very very few manufacturers are in that position.

When sourcing like this, how do you ensure that you're not getting factory seconds or counterfeit parts?

Source: I'm a software engineer who has had to fix so many issues due to unannounced component changes from suppliers.

"Oh you just replaced the specific USB chip with something different that has a whole lot of errata (Bugs in chip logic that you have to work around in software) and didn't tell us? GREAT! THANKS!"

This is yet another way we’re all forced to pay the price for cryptocurrency. As long as GPUs are profitable for mining, they will be purchased and put to work. The saddest part is that each additional GPU added to the mining networks only makes the overall system less efficient. Mining difficulty is automatically adjusted upward to cancel out the additional computing power. The networks processed just as many transactions last year as they do now, but countless new GPUs have been added to the mining network due to the incentive structure of mining. It’s a race to the bottom, consuming ever more GPUs and energy until equilibrium is reached.

It’s frustrating to watch so much of the output of our most advanced chip manufacturing be diverted straight into making arbitrary proof-of-work systems less efficient so someone can capture incrementally more coins. And now we must all pay higher prices for everything.

Estimates on Bitcoin energy usage put it at over 1TW now. I believe it was comparable to the energy consumption of Argentina.

Advocates will defend this by saying most energy usage is renewable. This conjures the image of someone with a bunch of solar panels but the reality is that it's primarily hydro power because that's the cheapest. Thing is, in regions with cheap hydro power, the miners can use so much power they end up making power more expensive for everyone.

I'd be more OK with this if crypto in fact solved a problem for most people. We should start by stopping calling them "currencies". They're not. They're assets. They lack all the useful properties of a currency (eg being massively deflationary)

The only thing cryptos really do is allow a temporary medium of exchange for traditional currencies. Some uses of this are entirely legitimate (eg escaping capital controls in certain currencies). Some are not (ie all the illegal usages).

I really wonder what happens to Bitcoin (or any PoW coin) when it no longer becomes economical to mine new coins. Does all the computing power just move on to the next coin? If so, won't this make the network vulnerable to attack? What is the incentive for people to contribute computing power without the prospect of economical new coins?

Even if true (iirc there is a lot of doubt whether it is, see Iran), it's still moronic, because consuming renewable energy for shits and giggles obviously means that other energy demands are being met with your usual energy mix instead of that renewable energy that went into shits and giggles as assumed. In terms of net emissions it simply doesn't really matter whether you A) use non-renewable energy for BS or B) use renewable energy for BS, displacing other energy users to non-renewables.

The simple fact of the matter is that there is no free lunch and there is NO ecological way of randomly wasting energy.

Knocking a single coal mine offline in China famously cut bitcoin mining activity by a third earlier this year.

https://fortune.com/2021/04/20/bitcoin-mining-coal-china-env...

Now, the claim could still theoretically be true, but I really want to see some hard numbers with sources from the next person trying to defend that claim.

And that's why the Chinese authorities kicked out all the bitcoin miners a couple months after that, dropping the bitcoin hashrate by more than half. It's on its way back up, but it hasn't fully recovered.

https://www.blockchain.com/charts/hash-rate

By contrast, especially in tropical regions, you can build a solar or wind power plant to mine bitcoin profitably without finding someone else to fob the bill off on. In much of the world, solar energy is now less than half the cost of fossil-fuel energy, though not in cloudy polar regions like Germany, the Netherlands, or the UK. There's a new record-low PPA price every few months, and it's always solar; https://www.pv-magazine.com/2021/04/08/saudi-arabias-second-... this April seems to be the latest, at US$0.0104/kWh, which is about a quarter of what coal energy usually costs.

That's why the Navajo Generating Station has been demolished, Peabody Coal has gone bankrupt and may do so again, and for the first time in human history, outside of PRC, more coal generating capacity was shut down than was built last year. This year that'll probably be true worldwide. Coal (and nuclear, and oil) just can't compete economically with solar anymore, even in temperate regions. And, consequently, neither can Bitcoin miners who are paying the cost of using coal. Fortunately for them, shipping their server racks to a more profitable region is a lot cheaper than doing the same with a steel mill.

Hopefully this gives you a clearer picture of the whole political-economic environment in which Bitcoin mining is happening than just a few hard numbers, which are of course fundamental.

It's estimated all of the U.S. is ~17% of global energy. [1]

"According to the Cambridge Center for Alternative Finance (CCAF), Bitcoin currently consumes around 110 Terawatt Hours per year — 0.55% of global electricity production, or roughly equivalent to the annual energy draw of small countries like Malaysia or Sweden." [2]

[1] https://www.eia.gov/tools/faqs/faq.php?id=87&t=1 [2] https://hbr.org/2021/05/how-much-energy-does-bitcoin-actuall...

That last bit makes me doubt this would push renewables - who trusts that mining will remain profitable for years or even a decade? In other words, it may well incentivize energy sources with low down-payment costs.

Also: all those GPUs are expensive; is a miner really going to slow down mining significantly just because it's dark or no longer windy? Or will they prefer constant power, given the fact that GPU's will become obsolete much more quickly than the power source, and thus there's pressure to recoup that investment as quickly as possible, I'd guess... thus incentivizing baseload power, not unreliable but cheap power - conceivably, anyhow?

The cost of fossil-fuel electricity generation is about half capex and half opex (including fuel), and in much of the world, solar is now cheaper than either fossil-fuel capex or fossil-fuel opex. A large part of capex is machinery, much of which is so costly that shipping costs are insignificant, so the costs are the same anywhere in the world.

Bitcoin isn't mined with GPUs, but your comments about intermittency and capital costs apply a fortiori to ASIC mining.

Sure, but there doesn't seem to be to be any indication that this is what actually happens. Is there any evidence for that?

Then the difficulty would jump and we'd need to send one to Jupiter.

Then to mercury to set up the dyson swarm.

Suddenly we are a Kardashev civ... but it's all for bitcoin mining for rich billionaire paranoia of centralized currency control by the US government, and the actual bitcoin production rate is constant since the difficulty rate on the coins exploded from galaxy-spanning miner fleets.

If somebody's mining bitcoin they're clearly not interested in ethics in the first place.

It's disturbing that nobody in this whole thread thought to fact-check those implausibly large numbers; it indicates that the whole thread is dominated by herd instinct, not rational thought.

For instance. I don't cool my home with AC. does it bother you that I mine bitcoin overnight when the grid has surplus energy?

That said, there's a couple of differences between hot tubs and AC, and crypto mining:

- Creature comforts don't consume the energy equivalent of a small developed country.

- In what they do consume, most of the use is around basic human needs; excessive use happens rarely.

- Most importantly, for almost[0] everything other than crypto, whether it's hot tubs or ACs or fiat banking system, energy use is considered waste to be minimized. Simply because energy is not free, the market is incentivized to reduce marginal energy consumption involved across the board[1]. In contrast, PoW considers waste a feature.

Cryptocurrencies are their own special thing - the perfect machine for consuming any surplus energy available. That's why they deserve their own special kind of backlash.

--

[0] - I can't really think of any thing other than PoW cryptocurrencies, where energy waste would be beneficial to the thing by design.

[1] - That, of course, doesn't mean we're using less energy overall - because both population and economic growth outpace efficiency improvements. But on the margin, it holds true.

you are incorrect here. 10% of global energy (not just electricity) is used for cooling.

I live in the deep south with no AC. "basic human needs; excessive use happens rarely." is extremely generous.

What you are describing is what makes you comfortable. I have no problem with that. be comfortable. Just consider that what you are describing is completely a matter of perspective and not some universal truth about use of energy. Just like you are not universally correct that every watt spent on crypto is "wasted". It's a perspective.... and my point here is to remind you to keep it in perspective of other trivial preferences people have, rather than turning it into an ideological war of good and evil.

There are fossil burning power plants running only to produce PoW, and unless mining operations shut down to allow a generator to operate at minimum load, they are forcing shared generators to run and dams to drain.

it's not like a generator burns 2gal/hr no matter the load. This is easily observable even (perhaps especially) on home generators - if you run it idle it might run for 12 hours and if you load it to maximum capacity it might be out of fuel in 2 hours. look at a product page for a generator and will probably be specified at a particular load level (50% load for example).

also if you keep pushing water through a dam at maximum rate even when the dam is under a light load, you'll overspeed the generator and blow it up. You have to have control gates to control the water flow.

basically, "how difficult" it is to spin the generator is determined by the electrical load (coupled through the magnetic field of the motor) and obviously you need more physical power to spin against a stronger field, which translates into more power/fuel.

The only true surplus is if the water needed to flow anyway, or for something like nuclear power which has to stay active at some base load.

Even so, there’s more useful potential uses like desalinisation or carbon capture.

"Penny wise and pound foolsh."

Another example of this is plastic bottles. See it's your responsibility to recycle, not the company's responsibility to not use plastic. People nanny each other's recycling habits but don't say shit about Coca-Cola bottlers. Bottler's are too busy laughing their ass off on the way to the bank. Recycle, reduce, reuse.

As an example, the proposed proof of stake mechanism for Ethereum requires 32 ETH, which is around $100k USD today. So established parties with capital will be able to stake, but your average person will not. I'm not sure I like that aspect of it.

Consider the case with Proof of Work (ASIC-based): you need to purchase specialized hardware for several $k (apparently at least $2k), spend more on specialized infrastructure (power supply, cooling, servers) and live somewhere with almost free energy. Otherwise it's just not economical to mine. This leaves out the vast majority of people as well, and incentivizes (1) massive economies of scale of farms, (2) shady or corrupt deals for free energy, through local government or simply illegal connections to the network.

Classification as an asset is part of the state fighting against crypto currency. It's a non sequitor. If the dollar was deflationary more people would be holding onto it as an asset. But the dollar is intentionally manipulated/inflated so that it's a liability to hold it, therefore people trade it for other asset classes.

And you don’t think crypto is contributing to this?

This means that “renewable energy more than the output of Argentina was always being wasted for over a century every day because it was uneconomical to transport it”

Crypto mining has been unique in that it only needs power and housing to stay dry, low infrastructure, and doesn't need very good internet, compared to other large computational projects, or any other sector.

Okay, so we got the “ah it uses a lot of energy!” argument over to “ah okay its a relatively green sector compared to literally everything else but I don't respect the use in favor of literally everything else and this must be taking away from that” which is also not true so I’m curious how the goal post moves after this - assuming you are able to corroborate what I’ve told you at face value.

It would be more productive to advocate for specific sites to not raise prices for others if they did, or specific sites to use cleaner energy sources. I can understand how that could cause some consternation if your whole cause is not liking crypto mining at all. But it is important to remain vigilante on how these mining operations run, as it is possible for nation states to operate these uneconomically and actually do things that you imagine is happening now.

(Renewable and captured are not synonymous but usually its the same)

If not, then I don't know what it is supposed to be about. No one builds power plants in places where there is no demand for power. Electric power can be carried over pretty large distances though with very low losses, so having say a few hundred km between a hydro-dam and a large consumer is not a major problem.

According to your post the best result would be that Bitcoin farms are powered by renewable energy plants build in places where nobody would have any use for that power anyway, because they're too remote to connect to any consumer. Even if this happens (and from what we're able to tell, it is not, instead we see coal and natural gas plants being ramped up to power bitcoin farms), it's still a net negative because building renewable energy power plants (as well as bitcoin farms) causes a significant amount of emissions. In normal use of e.g. a solar panel, this makes sense because it displaces non-renewable energy sources with higher emissions, so net emissions are reduced. In your scenario, there's a bunch of solar farms in the middle of the Saharan desert mining bitcoins, which - at this point - yes would not be able to displace non-renewable energy, but still represents a net-negative regardless because of the effort required to put all that shit there in the first place.

The simple fact of the matter is that there is no free lunch and there is NO ecological way of randomly wasting energy.

like I said, advocate against those specific mining sites. those made headlines in your world, while others did not.

A lot of captured energy mining occurs at remote flare gas sites, where those sites are in the business of pumping oil and flaring off byproducts and not in the business of moving power a few hundred km. These are highly polluting places, and crypto mining is ironically (to you) their sustainability solution, as they provide a use for the energy that would have been flared into the atmosphere as hydrocarbons instead. As these are also fracking sites, the machines can use the polluted water for cooling. Those kinds of sites are only captured and not necessarily renewable, an important distinction because your example was limited to imagining uneconomical solar. There is much more energy like this able to be tapped while reducing hydrocarbons in the atmosphere, and if it was economical for other use cases that you respect more to tap into that energy, you and others had several decades to do so.

- It's approximately a 180° pivot to go from "unused renewable energy" to "flare gas for green bitcoins"

- It doesn't reduce the emissions. Whether you flare it or burn it in a gas turbine / engine driving a generator to mine bitcoin, the CO2 released is exactly the same, as you are burning ~100 % of the hydrocarbons either way. The difference is that one generates bitcoins, the other does not. This is only valuable to bitcoin stakeholders, and as has been pointed out up and down all these threads this is either of approximately no value or of negative value to society at large. And overall, creating the equipment to mine bitcoins with flare gas, and deploying that to remote oil fields w/ no use for gas, creates a bunch of emissions that simply don't exist if you just flare the gas.

- There are non-emissive alternatives, e.g. gas re-injection. Note that the great majority of unwanted gas is already dealt with this way. This means that mining bitcoins using flare gas has a very good likelihood of increasing the share of unwanted gas that is effectively flared, again, increasing emissions.

Reducing the amount of flared gas (and putting it through a turbine to mine bitcoin is the same as flaring it as far as emissions go) is in fact an UN IEA goal.

The simple fact of the matter is that there is no free lunch and there is NO ecological way of randomly wasting energy.

I wrote earlier to avoid this specific derailing. Renewable and captured are not synonymous but usually the same. This is one of the cases where it is not the same. To my knowledge, the only other captured sources are at hydroelectric plants, while some parties are interested in geothermal as well.

Noteworthy is that “captured” seems to be also called “rejected” energy in some circles.

> And overall, creating the equipment to mine bitcoins with flare gas, and deploying that to remote oil fields w/ no use for gas, creates a bunch of emissions that simply don't exist if you just flare the gas.

Once. I’m not sure how a one time event is remotely comparable to ongoing issues. Please elaborate?

> It doesn't reduce the emissions. Whether you flare it or burn it in a gas turbine / engine driving a generator to mine bitcoin, the CO2 released is exactly the same, as you are burning ~100 % of the hydrocarbons either way. The difference is that one generates bitcoins, the other does not.

Hmm. Is there anything we can do about that then? Like does that format allow for further processing towards sustainability? The generating of bitcoin making it economical to do more with the CO2 that the oil guys just threw their hands up on decades ago? If this issue has nothing to do with bitcoin mining and the alternative is just business as usual with it going directly to the atmosphere like it already was, then why point fingers at the bitcoin mining?

It has been fascinating to me to watch the disbelief evolve. One aspect of this is that negative reporting has been basically allowed and encouraged by miners because they didn't want competition on their cheaper renewable/captured energy sources.

So, for years, many investment groups would discourage their renewable or captured energy activity to be citable source of what is happening with bitcoin mining, because they didn't want others with deeper connections to make partnerships with sites faster.

Its really funny, to me, watching people have to redo their understanding but trying to make that understanding conform to the negative energy impact idea that they were intentionally led on with.

They don't have good internet. Which I wrote earlier. Crypto mining don't need good internet, it barely needs any good internet speed and barely needs decent latency - by design (blockchains allow anything from 2 seconds - 2000 milliseconds - to 10 minutes - 600000 milliseconds - for the majority of miners on the whole planet to reach the same state together, under the assumption that some nodes will have slow data and low latency. So a 500-900ms latency connection in the middle of nowhere is quite fine, not optimal but good enough for consistent average earnings). Other data heavy computational uses require the opposite of that, these remote sites are not going to get the plumbing for good internet or prioritize it. The main issue is that they won't prioritize it because they aren't interested in it, they are technophobic oil guys that are slowly being convinced by crypto investors to solve their pollution problem. The crypto people don't need anything except a little space.

The issue with imagining that everyone else could do it, is that everyone else doesn't need to do it. A data center can set up in the middle of the desert along any fiber line like they already do. Go ahead and tell them "hey instead of using this readily available property can you go set up at the oil refinery after making an unnecessary partnership with that unrelated business because I don't like that crypto people are doing it, you also need to invest in laying some pipes out there" if you really think that is practical or necessary, be my guest.

The stackexchange approach would be better here, where certain power users can vote on flagging and you can see who voted on flagging, other users can vote against flagging and even override it

Looks like Argentina generates 131TWh annually as of 2016. The US was estimated to generate 4K TWh (a.k.a. 4PWh) in 2020.

"Argentina generates 131,910,280 MWh of electricity as of 2016 (covering 109% of its annual consumption needs)."

https://www.worldometers.info/electricity/argentina-electric...

Bitcoin energy usage is estimated at 100TWh annual, but the upper bound estimate is nearly 350TWh so it could be more than Argentina.

https://cbeci.org

It's indeed location independent, but that's more compatible with previously uneconomical fossil fuels (eg. methane in locations where transferring it out isn't economical).

https://finance.yahoo.com/news/green-energy-sustainable-futu...

https://www.nrcm.org/news/hydro-quebec-offers-misleading-cla...

NB: You just listed only illegal usages and split them into two categories.

[1] https://john-tromp.medium.com/a-case-for-using-soft-total-su...

Bitcoin is often described as distributed Ponzi. There is little value (skipping over regulations is about the only thing it's useful for) and a lot artificial pumping. It will collapse when people need money for something else so either economic downturn (exactly the thing crypto believers think they are hedging against) or when it slowly goes out of fashion (probably either due to regulation catching up or something much better coming about). Till then the show goes on. Even if there is just 10% of real dollars behind those valuations it will not matter until there is a bit of a run to cash out.

The thing that Bitcoiners have realized, that I think you may not have quite understood yet, is that there is no 'cash run out'. Brrrrr...

Cash is infinite. Bitcoin is not. That is part of its fundamental value proposition.

What does BTC do for me? It's a number on a screen. Much like a NFT.. it has no actual value on it's own. In a zombie apoc, no one is trading you food for BTC.

The argument that scarcity is a fundamental value proposition for an asset is just nonsense. I can make my own crypto even more limited than BTC overnight and it will worth about 0. It's not scarcity that makes stuff valuable. In case of BTC 3 things make it valuable: adoption, ability to make transaction while skipping over regulations (which requires adoption) and artificial propping by scams like Tether.

I agree that adoption (network effect, Metcalfs Law), censorship resistance and other economic constructs like stablecoins all have an influence in value. Folks have been saying "I can make my own, scarcity is bunk" for a long time now. 10,000 other clones of bitcoin exist today that are worth nothin'. Maybe there is something about big b Bitcoin and the cryptoeconomic model that Satoshi chose.

Of course there is also an option of closing shop and dividing the assets to shareholders or myriad other ways of making the assets valuable without paying dividends.

Those kinds of basic misconceptions about financial markets is what crypto evangelist prey on. It sounds pretty convincing to the ignorant but is just nonsense under scrutiny.

Given the increasing prevalence of ransomeware attacks, and the fact that they have touched higher and higher profile targets, it's not impossible to imagine the regulatory hammer coming down on cryptocurrency at some point in the near-ish future.

While in theory the community can elect to inflate the money supply, in practice the people who get to vote on the issue are holders of currency, who have strong incentives to restrict the supply and deflate the currency. If an inflationary EIP is proposed, these people will simply ignore it and stick to the deflationary chain.

So, if you thought Bitcoin energy usage was a pretty bad problem but not world-endingly dire, you should now think it's insignificant. If that isn't what you think, it probably means that your opinions are not based on careful cost-benefit analysis, just partisanship, and should therefore be disregarded.

You can measure energy consumption over a given time period in terawatt hours; for example, consuming a terawatt for one hour is consuming one terawatt hour, while consuming a terawatt for two hours, or consuming two terawatts for one hour, is consuming two terawatt hours. The standard term for "energy consumption over a given time period" is "power", and the standard SI unit for power is the watt. A terawatt hour per year is precisely and identically some number of watts; I calculate it as 114,079,550 watts, or more conveniently 114.1 megawatts, because an hour is about 0.00014407955 years.

If you want to measure power consumption in ad-hoc units of 114.1 megawatts or poundal-fathoms per Planck time, I can't stop you, and you can even do correct calculations with them, but, myself, I prefer to use SI units, because they greatly facilitate mental arithmetic and comparisons.

(This has been a brief introduction to the basics of the Systeme Internationale of units.)

If you scroll up about 512 pixels from where you were looking on that page, which currently says annualized consumption is probably about 93.01 TWh/year, you'll see that they also provide the same number in a different form, as 11.76 GW. (This is a slight arithmetic error; 11.76 GW actually adds up to 93.01 TWh every 330 days. Perhaps the 11.76 GW is a 7-day moving average and the 93.01 TWh/year is instantaneous power consumption, or vice versa.)

Whether 11.76 GW is "an enormous amount of power" or not depends on what you're comparing it to. Total world marketed energy consumption is about 18-20 TW, so compared to world marketed energy consumption, it's not an enormous amount of power. (A terawatt is 1000 gigawatts.) Terrestrial insolation is about 130 petawatts (a petawatt is 1000 TW); about 0.3% of that falls on arable land, so agriculture uses about 350 TW of power, almost 20 times world marketed energy consumption.

Unsurprisingly, you're also mistaken about the Netherlands' power consumption, perhaps because you don't know about non-electrical forms of energy such as kinetic energy, chemical energy, and (very ironically in this context) solar energy; even their electrical energy consumption alone is 119 TWh/year, which is 13.6 GW, but most of their energy consumption is not electrical; their total energy consumption is more than 100 GW.

So, Bitcoin provides a secure digital currency to 7.8 billion people for, probably, significantly less energy than the Netherlands uses to provide electricity to 0.018 billion people. (A million is 0.001 billion.)

Is it partisanship to call that "an enormous amount of power"? Maybe, maybe not, it's a valid subjective perspective. But it's clearly partisanship to not care whether it's 12 GW or 1000 GW.

but wouldn't evading capital controls for a countries currency be illegal, too?

In the future, this effect will likely be more pronounced. It's an asset class that has some degree of independence from other asset classes, so it decreases the overall risk of the financial system.

Bitcoin is small compared to the rest of the economy, and it's less integrated than many other asset classes, but it is very much coupled to other financial markets.

You're joking yourself if you think government seizures are just; in the US asset forfeiture does not require even a criminal conviction. This is a problem for all people. Crypto solves a problem for all people.

The only thing crypto is good for:

- earning money by spinning up GPU fans

- playing the crypto stock market

- money laundering

- buying weapons

- buying drugs

- buying humans

I'm glad that the EU is at least trying to put an end to this: https://www.euronews.com/next/2021/07/21/eu-will-make-bitcoi...

Anonymous crypto wallets cannot be banned and to "taint" any bitcoin that has passed through anonymous wallets would mean every single bitcoin would be tainted. It would be like trying to ban euros used for drug trade; if it were done all euros would seize to circulate.

If mining goes down as hardware capabilities go up, it’s only a matter of time before somebody fires up a mining operation for a few days to outcompete the rest.

>It is if you intend to avoid 51% attacks.

This is contradictory. If centralized mining doesn't exist, then by definition a 51% attack by centralized mining doesn't happen.

You are acknowledging even under clamp downs, mining will continue. If you think about 30 seconds further, you'll realize it will be widespread and it is likely not just one clever 51% attack hopeful will come up with the bright idea of running an underground mining operation. Prisoner's dillema keeps all the decentralized nodes from colluding (risk losing your mining reward against the hope everyone will stick to the deal and hash a dirty chain). Prisoner's dillema acts the same way against more centralized groups so long as no one of them controls a large portion of the available hashrate.

Basically your statement is "people will pull off scaled mining operations even if illegal, and bitcoins demise is predicated on centralized mining operations" and I agree with you 100%.

If your argument is that Bitcoin is susceptible to a 51% attack, the answer is you are correct and you always have been. It is built into the protocol.

Bitcoin's survival is predicated upon the distributed, cooperating members of the network being willing and able to spend more cycles than any one bad actor.

Prohibition of mining centralized mining tautologically reduces the number of cycles the network is able to cooperatively dedicate toward mining. Whatever the hash rate otherwise would be without a prohibition, once you prohibit and drastically reduce the contribution of centralized mining, it would be drastically less.

But the ability for someone to put together a centralized mining facility is still there, it just carries additional risk. If nobody else is performing centralized mining, the incentives for someone to quietly put together an outfit of their own for the sake of attempting a 51% attack grows. This might be outright illegal, it might be done by a government, or a myriad other possibilities. Either way, it's an order of magnitude easier in that future than it is today for someone to gather the necessary hardware to mount such an attack and turn it on all at once.

> Basically your statement is "people will pull off scaled mining operations even if illegal, and bitcoins demise is predicated on centralized mining operations" and I agree with you 100%.

My statement is "people can pull off scaled-down mining operations even if illegal, but this reduces the effective hashrate; further, other people can pull off scaled-up mining operations in the short term".

Which is an entirely different statement than saying bitcoin's survival is predicated on centralized mining. It's not.

If centralized mining operations can continue, centralized mining operations could have a 51% attack.

Thank you captain obvious, ultimate king of semantics.

Your entire argument is one of bitcoin's demise via 51% attack being predicated on centralized mining. I don't think you understand that claiming a 51% attack is predicated on scaled-up operations is an entirely different statement than arguing against bitcoin's survival not being predicated on centralized mining.

You imagine a scenario of majority hashrate bad actors, all cooperating, can pull off centralized mining, and that their hashrate exceeds the entire hashrate of the decentralized less upscaled nodes as well as the more centralized good actors. That is a possible, but unlikely scenario that has always existed since the beginning of bitcoin for the reasons I previously stated before. It simply hasn't happened, there is currently a roughly $1T bet that it won't happen in the near term, and there is a valid argument to be made that when centralized mining becomes more restricted that the likelihood of successful 51% attack goes down and not up.

>people can pull off scaled-down mining operations even if illegal, but this reduces the effective hashrate

Probably, but not necessarily so. If I shutdown my up-scaled operation and send my miners to 100 of my friends to use discretely in their homes with similar uptime, tell me what difference does it make to the total hashrate? The only real effect is it makes it even harder to coordinate a 51% attack.

>My statement is "people can pull off scaled-down mining operations even if illegal, but this reduces the effective hashrate; further, other people can pull off scaled-up mining operations in the short term".

It sounds very easy to say "just get 51% of the world hashrate" (you seem unaware of what a feat this is) when in fact worldwide many actors would simply mine to the extent they can get away with it, probably including large centralized operations, and prisoner's dilemma and lack of worldwide coordination of bad actors would quite likely prevent such a 51% attack. I also don't think you can make the presumption the decentralized, down-scaled nodes will be a minority of the total hashrate if up-scaled mining becomes difficult (of course, it is possible, no in is denying that a 51% attack has always been a means of attacking bitcoin).

Err that depends.

The thing with dams is that the water can never rise above a certain level, else the structural stability of the dam is compromised. So often they have to run the dam with turbines disconnected to lower the water level since there's nobody on the receiving end.

That's also why some blocks of hydro power are very cheap (and time sensitive).

I'm not sure this factoid is germane to GPU shortages, since no one is using GPU's to mine bitcoin these days.

It would be more relevant to cite the energy usage of Ethereum or Dogecoin.

I don't really understand how these are different, given that escaping capital controls is by definition illegal (otherwise you could just use the normal banking system).

We will find out exactly this relatively soon when Ethereum moves to Eth2 and Proof of Stake.

Thanks for making me look at this. We should ban cryptocurrencies.

This is madness, and will doom humanity. There is a reason that free speech is such a critical component of free societies.

You may not understand how the OTC market works in jurisdictions like China that do indeed ban cryptocurrency exchanges and prevent fiat<->cryptocurrency exchanges. A fist full of RMB can be swapped for USDT, which can be swapped for BTC from OTC brokers.

What you are proposing can only be stopped by breaking computers, breaking arms/legs and breaking economies. Violence is never the solution to problems.

Can you give an example of software (not data...) that is illegal to run in the US?

> (2) No person shall manufacture, import, offer to the public, provide, or otherwise traffic in any technology, product, service, device, component, or part thereof, that—

> (A) is primarily designed or produced for the purpose of circumventing a technological measure that effectively controls access to a work protected under this title;

> (B) has only limited commercially significant purpose or use other than to circumvent a technological measure that effectively controls access to a work protected under this title; or

> (C) is marketed by that person or another acting in concert with that person with that person’s knowledge for use in circumventing a technological measure that effectively controls access to a work protected under this title.

To my defense, I would argue that this speaks to production and sale of circumvention tools, and does not actually criminalize the execution of this code. But I weaken my original position about outlawing software. Thank you.

In actuality, there are more dollar transactions that doesn't include, so the numerator is bigger. It also uses much much less than the total U.S. energy consumption, so the denominator is much much smaller.

A bigger numerator and much much smaller denominator tells me that bitcoin is much much less efficient than traditional systems in dollars traded per kWh.

see: https://foldingathome.org/