Author

Topic: Hypothesis - bitcoin price is directly related to electricity consumption (Read 297 times)

legendary
Activity: 4256
Merit: 8551
'The right to privacy matters'
Profitability of individual machines doesn't really matter in this argument as it is generalising across the whole estate and estimating electricity consumption in the round from miners total income.  See also here - https://www.cell.com/joule/fulltext/S2542-4351(21)00083-0 - which makes a similar argument: " in the long run, the share of electricity costs in the total costs of mining is around 60%".  If miners have more efficient machines that use less electricity for a given return they will simply buy more of them, because they can afford to.

Ok, from the start, this one I don't get it, I don't understand a thing from it so going over it.

Now here I disagree, except for the fact (as I have said) that there is clearly a lag between changing price and changes to the network.  If miners do not have the income support their expenses they will not (except for relatively short periods of time) continue to spend money on electricity.

They will continue to spend as long as it's profitable and that's why I was telling you at current prices there aren't miners who will drop out even if the reward goes to half with a price drop, the profits margin are so big right now you will not see a drop in hashrate on this alone. To have a better look you need to look at the hashrate before the jump with a nearly constant average price between around 10k and extrapolate from there the impact. Right now this one is supported even at 25k per BTC.


The index assumes that miners will spend 60% of their revenues on operational costs on average in equilibrium.
But then goes on to give an estimate of 22.21% of their income being spent on electricity, without explaining why they haven't used their own assumption.  They are certainly a bit vague about how they actually perform the calculation.

Pretty easy:
The 60% in that calculation is at a maximum optimal cost for them to run a profit at any time.
The 22.1% is the current number, which is explained by the huge jump in profitability, showing just how much is left there to grow.

Think of it as shale oil profitability, the required level is (assumption here) 50$, the price is currently $65.

For the rest, I pretty much agree with the assumptions or arguments over a 50% percent so ending the debate on those.

All have ignored the lowest power used to get a BTC is using the linzhi eth miner.

philipma1957, I was going from the start to say, let's first look at the rewards per day, as from my assumption those in ETH were too low to matter and then I got a shock, what the***
ETH $43,251,190.53 USD
BTC $53,335,447.97 USD
wow, just wow
If this is really happening then it's going to suppress the ETH price on the ETH/BTC pair worse than any event out there.
Didn't see this one, and never imagined it to be possible, not even counting it as a factor.





I have been writing  about this over and over and over and over. I wrote 3 or four long explanations.

Hey to me all pow coins translate as watts to $$ = Satoshi's idea not mine.

So a 3300 watt eth makes 270 a day
and a 3300 watt btc asic makes 38 a day

what do I build if I am bitmain.

 I can build ETH Asics I have built them before.
I can build  BTC Asics I built them before.


the hashrate numbers are accurate. It is obvious bitmain is mining eth like mad.  Plus they dump it and switch to cash and BTC

Lowers eth price raise btc price. pretty much a no brainer and I think it is legal. I can't see a crime in it.  ( eth shorts on an exchange maybe)
And why do the shorts they could lose.  What I am saying can't lose.

Frankly if they are not doing it they should start and send me about 10 btc for the idea.
legendary
Activity: 2912
Merit: 6403
Blackjack.fun
Profitability of individual machines doesn't really matter in this argument as it is generalising across the whole estate and estimating electricity consumption in the round from miners total income.  See also here - https://www.cell.com/joule/fulltext/S2542-4351(21)00083-0 - which makes a similar argument: " in the long run, the share of electricity costs in the total costs of mining is around 60%".  If miners have more efficient machines that use less electricity for a given return they will simply buy more of them, because they can afford to.

Ok, from the start, this one I don't get it, I don't understand a thing from it so going over it.

Now here I disagree, except for the fact (as I have said) that there is clearly a lag between changing price and changes to the network.  If miners do not have the income support their expenses they will not (except for relatively short periods of time) continue to spend money on electricity.

They will continue to spend as long as it's profitable and that's why I was telling you at current prices there aren't miners who will drop out even if the reward goes to half with a price drop, the profits margin are so big right now you will not see a drop in hashrate on this alone. To have a better look you need to look at the hashrate before the jump with a nearly constant average price between around 10k and extrapolate from there the impact. Right now this one is supported even at 25k per BTC.


The index assumes that miners will spend 60% of their revenues on operational costs on average in equilibrium.
But then goes on to give an estimate of 22.21% of their income being spent on electricity, without explaining why they haven't used their own assumption.  They are certainly a bit vague about how they actually perform the calculation.

Pretty easy:
The 60% in that calculation is at a maximum optimal cost for them to run a profit at any time.
The 22.1% is the current number, which is explained by the huge jump in profitability, showing just how much is left there to grow.

Think of it as shale oil profitability, the required level is (assumption here) 50$, the price is currently $65.

For the rest, I pretty much agree with the assumptions or arguments over a 50% percent so ending the debate on those.

All have ignored the lowest power used to get a BTC is using the linzhi eth miner.

philipma1957, I was going from the start to say, let's first look at the rewards per day, as from my assumption those in ETH were too low to matter and then I got a shock, what the***
ETH $43,251,190.53 USD
BTC $53,335,447.97 USD
wow, just wow

If this is really happening then it's going to suppress the ETH price on the ETH/BTC pair worse than any event out there.
Didn't see this one, and never imagined it to be possible, not even counting it as a factor.


sr. member
Activity: 2030
Merit: 323
I do not believe that miners decide the price, and that is why I do not trust this opinion neither. I think it is obvious that we are in a world where financial institution play a bigger role than miners, and yes I think they used to play a bigger role but with halving it got less and next halving will happen in 3 years and that will make it go down so low that it is not going to be important at all, they will be basically gone.

With stuff like lightning network and so forth, they are not going to make too much money with the fee charges as well, so all in all I think it is quite obvious that we will not be doing something that would be benefiting anyone. So at the end of the day, electricity consumption is nothing, sure it may decide what miners would be selling for, that is important for them, but we are much bigger than that now and I do not think it will matter anymore.
legendary
Activity: 4256
Merit: 8551
'The right to privacy matters'
All have ignored the lowest power used to get a BTC is using the linzhi eth miner.

it burns 3300 watts and earns 250-270 usd worth of eth.

the s19pro burns 3300 watts and earns 40 usd worth of btc.

So how many asdic eth miners are going on line to mine eth and auto convert to btc.

Answer bigly amount.

Jan 1        280,000 gh
March 23  440,000 gh

so 160,000 gh is now burning power added since Jan 1

We know some are gpus and some are asics but all this power has been added in under 90 days. Since jan 1.

Bitmain has added 2 new huge cloud mining setups.

And power is shifted to eth since 270 usd in coin vs 40 usd in coin for same 3300 watts of power.

do the math it is a lot of power.

160,000 gh is 1.6 million 3080 gpus or 255 x 24 = 6 kwatts a day for each card which is

10 million kwatts a day. The op and all posters ignore this power added.

that is about all the power needed daily to run NYC



Note all numbers above are rough estimates.

more exact below

https://etherscan.io/chart/hashrate


Dec 31 2020        293,000 gh

March 23 2021    458,000 gh

so 165,000 gh or 1.65 million nvidia 3080's or 61,111 linzhi asdic eth machines using 3300 watts

that linzhi number is important. lets see it is pretty much equal to 1 bitmain s19pro

lets figure how many 's19pros' were added from jan1 to march 23



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

dec 31 2020  142 eh

march 22 2021 160 eh   this is 18 eh increase lets say all s19pros

1 = 110th
10 = 1.1 ph
100 = 11ph
1000 = 110ph
10000 = 1.1eh
100000 = 11eh

165000 = 18eh

since both use 3300 watts the 165,000 for BTC to 61111 for ETH  would mean 165/61 ratio of power added in favor of the BTC network.

but 165 x 40 = 6600   vs    61 x 270 = 16470

 so for earning power per watt  BTC is getting crushed vs ETH.

If you are bitmain and can make 6gb eth miners (you know they can) they can do them cheaply

and the facts show 61,111 x 3300 watts at a minimum were added to eth mining all of this thread is incomplete with this being mentioned.

It is like not mentioning the sheep slaughter house also sells the fleece  and the fleece is worth 40% of the profits.

or that a beef slaughter house sells million worth of hides allong with the meat.
legendary
Activity: 4410
Merit: 4766
mining cost does not = ATH price impact


mining cost impacts the ATL
no one will sell below the most economic mining cost.
those with slightly less economic mining costs will give up mining and instead buy.. because its cheaper.
but the big farms wll continue mining AND buy. this creates alot of BOTTOM support

mining has nothing to do with the highs. its to do with the lows

right now the most economic mining cost is about $22k (asic farms)
and less economic millemarket miners at $24k-$37k
and less economic home hobby miners at $39-$67k
(some hobby miners in some european/japan countries already gave up mining and just buying)
and with all the pressure above $22k i cannot see bitcoin ever sinking below $22k again. not unless there is a massive hash collapse first
hero member
Activity: 1029
Merit: 712

It is also interesting to know that 60 to 67% of all energy produced goes to waste worldwide, so then why not use that wasted energy for mining Bitcoins.
I don't know how to calculate this but it should be taken into consideration.

I did a bit of digging into the "wasted" energy question, as I thought that was rather interesting.  I think the basis of the 67% "wasted" claim is this chart from Lawrence Livermore National Laboratory:



Which shows 67.5% of all energy as "rejected" and 65% of all electricity generated as "rejected".  (these are US figures, but probably pretty representative)

Having done some looking it turns out that "rejected" energy is not wasted in the sense of "I wasted that beer by pouring it away instead of drinking it", rather it is energy that is lost due to inefficiencies in the generation and consumption processes.

See for example here which explains: "Rejected energy is part of the energy of a fuel – such as gas or petrol – that could be used for a purposeful activity, like making electricity or transport. However, because of the technologies that we currently use to consume fuels a lot of it gets tossed out by turning it into heat in the environment, which is totally useless. For a coal fired power station, for instance, about 2/3 of the energy released when the coal is burnt is discarded as heat in the environment."

Accordingly I don't think we can reasonably claim that bitcoin either does or can use this energy - I wish we could but we simply don't have the technology to make it usable at the moment.

The best that we can do is use more efficient generating sources - like renewables where less energy is rejected due to superior processes, but that won't mean that the rejected energy elsewhere in the system is actually used.
hero member
Activity: 1029
Merit: 712
If TS can explain to me how to mine bitcoin using only a power socket he would have a point....

TS is missing a few details like
- the cost of a miner
- non-continuous upgrades of mining hardware
- cooling costs
- administrative costs
- housing
- insurance
- etc...

These points don't matter, put simply the model assumes that the more income the miners have the more money they can spend on mining and the majority of their spend is on electricity and so you can approximate electricity consumption from their income, which in turn is directly linked to the price of bitcoin.  Its the economically logical thing to do.

From the Digiconomist link below:

"The index is built on the premise that miner income and costs are related. Since electricity costs are a major component of the ongoing costs, it follows that the total electricity consumption of the Bitcoin network must be related to miner income as well. To put it simply, the higher mining revenues, the more energy-hungry machines can be supported."

See:

Bitcoin boom: What rising prices mean for the network’s energy consumption

and

Bitcoin Energy Consumption Index

and

Cambridge Bitcoin Electricity Consumption Index

For the justification.




hero member
Activity: 1029
Merit: 712
But this is my argument exactly, perhaps I did not explain it clearly, I am saying that the price drives electricity consumption - as miners make more money (due to a rising price) then they will spend more money on electricity, thus electricity consumption follows the price.

Yeah,  you didn't.  Grin

However, I am also saying that there will be a cap on the amount of electricity that the network can use and when we are at or about that cap it will signal the approximate maximum sustained price, as if miners cannot acquire more electricity their costs will not increase and there will be no reason for them not to sell at a lower price.

And you're back at it one phrase later.
I already have told you that the price has gone up 6 times with the hashrate and thus directly proportional electricity consumption just around 20%, right now miners are really not caring about electricity costs at all.
Take a look at how numbers look for an s19pro in terms of costs (even at 10cents/kwh) vs profit.
The price can go to trillions with the energy consumption making baby steps, the proof is what is happening for already 5 months.


Not at all, they are quite different points of view:
- the first says that the miners will try to use just as much electricity as they want driven by their internal economics - absolutely agree
- the second says that there are external factors, outside of the control of the miners that may set limits on how much electricity they can use

Profitability of individual machines doesn't really matter in this argument as it is generalising across the whole estate and estimating electricity consumption in the round from miners total income.  See also here - https://www.cell.com/joule/fulltext/S2542-4351(21)00083-0 - which makes a similar argument: " in the long run, the share of electricity costs in the total costs of mining is around 60%".  If miners have more efficient machines that use less electricity for a given return they will simply buy more of them, because they can afford to.

That is not an assumption it is an assertion - it is the crux of my argument - I am saying that the network will not exceed 1% because socially and economically there is no justification for it to do so.  There is insufficient benefit to the world as a whole for more than 1% of worldwide electricity generation to be consumed by Bitcoin.

The whole theory is again flawed because you're expressing it in 1% globablly.
Some countries which are net importers of energy and they have limited capacity that is not flexible might raise an eyebrow even at 0.2%, some countries would not care even at 5% because they have spare capacity that simply stays offline for 90% period of the time. It's also a different thing in terms of what that 1% would represent to the budget of the country, for some is 6% (US case, and in this, we include oil and gas), thus 1% of it would represent 0.06  for other is less than 1% and it would go in fractions of a thousand.

This is a fair point, and there will absolutely be a pretty high degree of variability between locations and countries.  It will depend firstly on how flexible those countries are (i.e. how much they care about their energy resources being expended in this way) and how much energy they have at their disposal.

The article I linked to above (which as an aside was linked from the Digiconomist page you pointed me at) says:

"Given the growing implications of the cryptocurrency mining industry, policymakers might feel increasingly pressured to intervene. At a local level, this has already occurred in places such as Québec (Canada) and Iran."

and

"It might also be a concern that a country like Iran has adopted cryptocurrency mining as a way to boost revenues while its oil exports suffer from international sanctions. Cheap energy has lured in many cryptocurrency miners, and the mining activity in Iran now represents 8% of the total computational power in Bitcoin’s network. If Bitcoin is enabling Iran to circumvent economic sanctions, this could pose a threat to international safety, given that these sanctions were imposed to prevent the nation from developing military nuclear capability."

So we are already seeing external constraints brought to be bear upon the network.

Firstly that is why I have set my "limit" at more than double the current consumption - as I say above I don't know what the limit is, but I am arguing there is one and for the sake of the argument I picked a value to hang my hat on!

So basically there must be something out there because if it isn't things don't make sense to you and this is not tolerable  Grin. You know, at this point rather than trying to find facts to back up your theory wouldn't it is better to see how many facts are against it and come up with a new one?

Hmm, you don't really understand how hypothesis and arguments work do you?  There is no question of "tolerability" ... I thought it was an interesting idea and was raising it to spur some discussion.  I am in no way invested in its rightness or otherwise.

Secondly my prediction only sets an upper limit it does not set a lower limit at all.  As you rightly say there is nothing to prevent the price being far far below the maximum implied by the power consumption cap.  However, I would expect total consumption of the network to fall if the price fell and remained significantly lower for an extended period.

It won't.
If the price would crash to half its value the consumption will probably not go down even 1%, almost everything that is plugged in right now and burning energy would still be profitable and with new more efficient gear to come and replace the old ones it would still keep that consumption.
Remember, we were doing 120EH/s at 10k, at that rate of profitability, we could still consume more energy than now by 50% even if the price drops to 20k.

Now here I disagree, except for the fact (as I have said) that there is clearly a lag between changing price and changes to the network.  If miners do not have the income support their expenses they will not (except for relatively short periods of time) continue to spend money on electricity.

We'd need to have good historic power consumption data to model the past accurately, and to be fair we don't even have good current data let alone historic!) but as I say the values can clearly diverge significantly for a period, the question is can they stay apart or will they tend to converge?  I think the latter.

For at least one year there will be no converging point.
Simply put, there is not enough production capacity for new miners, there is a chip shortage, and they would need to produce 6 times more gear than they have in 4 years. One more doubling of the price which can be triggered by stimulus money or Amazon investing in BTC and Bitmain would have to increase its production capacity by 10x, which is simply not doable.
So no, at least for one or maybe two years there will be no converging as the consumption is currently heavily influenced by factors that have nothing to do with bitcoin.


On this point I agree, the more I think about it the more I think that the current market means the price has out-stripped the network and so the estimates of power consumption will over-state the current consumption.  i.e. we are not currently in equilibrium and we probably need to use periods of relative stability.

As for the data, it's quite easy to approximate it
https://digiconomist.net/bitcoin-energy-consumption/

Well that chart seems to show that the current electricity consumption of the network is the highest it has ever been, so if there is an upper bound (from whatever cause) we haven't reached it yet.

However, I do have some questions about the specifics of the Digiconomist model for estimating electricity consumption.  On that page you linked (here) they say:

The index assumes that miners will spend 60% of their revenues on operational costs on average in equilibrium.

But then goes on to give an estimate of 22.21% of their income being spent on electricity, without explaining why they haven't used their own assumption.  They are certainly a bit vague about how they actually perform the calculation.

It's not rocket science, you just have to look at hashrate, what hashrate/w can miners deliver, and check when those were launched and when they stopped productions of certain models. Indeed it's approximate, it becomes muddy when suddenly old gear is back online after being retired but overall it does a pretty good job.

Again I disagree I don't think the relative performance of individual miners actually matters.  It is about providing what the Digiconomist page describes as an "economically credible estimate".  Accordingly neither the Digiconomist model nor the Cambridge model use it.

See here - "The index is built on the premise that miner income and costs are related. Since electricity costs are a major component of the ongoing costs, it follows that the total electricity consumption of the Bitcoin network must be related to miner income as well. To put it simply, the higher mining revenues, the more energy-hungry machines can be supported."

See also the original topic here (linked in my OP) that started me thinking about this, including this comment from BurtW:


First, note that Bitcoin mining efficiency does not matter when estimating the trend of the power consumption of the entire Bitcoin network.

Bitcoin mining will trend toward 57/15,000 = 0.38 % of world power production given these values.

This scales by BTC price so:

BTC at $500,000 means power consumption would trend to 3.8% of worldwide power.

BTC at $5,000,000 means power consumption would trend to 38% of worldwide power.

I do have some questions about his numbers, which was what started me down this path.
legendary
Activity: 1652
Merit: 1265
If TS can explain to me how to mine bitcoin using only a power socket he would have a point....

TS is missing a few details like
- the cost of a miner
- non-continuous upgrades of mining hardware
- cooling costs
- administrative costs
- housing
- insurance
- etc...
hero member
Activity: 1680
Merit: 655
These are estimates for sustained prices – this does not mean that the price cannot go above those values, merely that it cannot maintain those higher values for an extended period.
Miners expenditure on other items (capital, maintenance, labour, etc.) is irrelevant to this hypothesis as it assumes the spend on electricity is a fixed maximum proportion of income and those costs are covered in the remainder. 

Something pretty technical to don't consider other costs in an operation of the miners. This might just be a coincidence and nothing really more above that since really there is more too it then the electrical consumption of mining operations to consider on the price of Bitcoin just like what I have said on the S2F model price prediction in order for it to be accurate must consider all factors which in your case you have only considered electricity as a expenditure. Your theory simple don't consider the basic supply and demand as well as other factors such as laws and regulations or even the possibility of these miners shifting to renewable energy or even consider them having upgrades onto a more efficient ASIC miner. Simply this theory about it being correlated to electrical consumption isn't accurate.
legendary
Activity: 2912
Merit: 6403
Blackjack.fun
But this is my argument exactly, perhaps I did not explain it clearly, I am saying that the price drives electricity consumption - as miners make more money (due to a rising price) then they will spend more money on electricity, thus electricity consumption follows the price.

Yeah,  you didn't.  Grin

However, I am also saying that there will be a cap on the amount of electricity that the network can use and when we are at or about that cap it will signal the approximate maximum sustained price, as if miners cannot acquire more electricity their costs will not increase and there will be no reason for them not to sell at a lower price.

And you're back at it one phrase later.
I already have told you that the price has gone up 6 times with the hashrate and thus directly proportional electricity consumption just around 20%, right now miners are really not caring about electricity costs at all.
Take a look at how numbers look for an s19pro in terms of costs (even at 10cents/kwh) vs profit.
The price can go to trillions with the energy consumption making baby steps, the proof is what is happening for already 5 months.


That is not an assumption it is an assertion - it is the crux of my argument - I am saying that the network will not exceed 1% because socially and economically there is no justification for it to do so.  There is insufficient benefit to the world as a whole for more than 1% of worldwide electricity generation to be consumed by Bitcoin.

The whole theory is again flawed because you're expressing it in 1% globablly.
Some countries which are net importers of energy and they have limited capacity that is not flexible might raise an eyebrow even at 0.2%, some countries would not care even at 5% because they have spare capacity that simply stays offline for 90% period of the time. It's also a different thing in terms of what that 1% would represent to the budget of the country, for some is 6% (US case, and in this, we include oil and gas), thus 1% of it would represent 0.06  for other is less than 1% and it would go in fractions of a thousand.


Firstly that is why I have set my "limit" at more than double the current consumption - as I say above I don't know what the limit is, but I am arguing there is one and for the sake of the argument I picked a value to hang my hat on!

So basically there must be something out there because if it isn't things don't make sense to you and this is not tolerable  Grin. You know, at this point rather than trying to find facts to back up your theory wouldn't it is better to see how many facts are against it and come up with a new one?

Secondly my prediction only sets an upper limit it does not set a lower limit at all.  As you rightly say there is nothing to prevent the price being far far below the maximum implied by the power consumption cap.  However, I would expect total consumption of the network to fall if the price fell and remained significantly lower for an extended period.

It won't.
If the price would crash to half its value the consumption will probably not go down even 1%, almost everything that is plugged in right now and burning energy would still be profitable and with new more efficient gear to come and replace the old ones it would still keep that consumption.
Remember, we were doing 120EH/s at 10k, at that rate of profitability, we could still consume more energy than now by 50% even if the price drops to 20k.


We'd need to have good historic power consumption data to model the past accurately, and to be fair we don't even have good current data let alone historic!) but as I say the values can clearly diverge significantly for a period, the question is can they stay apart or will they tend to converge?  I think the latter.

For at least one year there will be no converging point.
Simply put, there is not enough production capacity for new miners, there is a chip shortage, and they would need to produce 6 times more gear than they have in 4 years. One more doubling of the price which can be triggered by stimulus money or Amazon investing in BTC and Bitmain would have to increase its production capacity by 10x, which is simply not doable.
So no, at least for one or maybe two years there will be no converging as the consumption is currently heavily influenced by factors that have nothing to do with bitcoin.

As for the data, it's quite easy to approximate it
https://digiconomist.net/bitcoin-energy-consumption/

It's not rocket science, you just have to look at hashrate, what hashrate/w can miners deliver, and check when those were launched and when they stopped productions of certain models. Indeed it's approximate, it becomes muddy when suddenly old gear is back online after being retired but overall it does a pretty good job.
legendary
Activity: 2478
Merit: 1951
Leading Crypto Sports Betting & Casino Platform
Well, it's reasonable to think that Bitcoin's electricity consumption can't go up too much, because if it would start negatively affecting other industries, the government will step in and ban mining and Bitcoin, which already happened in some smaller countries. If this happened in China or the US, the price would suffer majorly.

But if there's a way to get more electricity without annoying anyone, then there's no reasons to think that some arbitrary value, like 1% of world's power, is a hard limit to Bitcoin's power consumption and by link a price.

It seems to me that no government will worry about too much electricity consumption by the bitcoin network. Miners do not receive any subsidies from the state - they buy electricity at market prices. This price includes all compensation for electricity production, taking into account environmental problems, etc.
legendary
Activity: 2128
Merit: 1293
There is trouble abrewing
i wouldn't say "directly" related but electricity cost is definitely one of many factors that are affecting bitcoin price.

you are also making certain wrong assumption here such as the total capacity of the electric network. the capacity is what it is because the demand needs this much and not any more. if the demand went up the capacity will also increase. not to mention that thee efficiency of everything (mining equipment, electricity production line,...) is also improving.

how much electricity bitcoin is going to consume in the future depends on how much demand there is for bitcoin. when bitcoin becomes a lot more adopted than this and more than 1% of the world is using it, the electricity consumption will also go up and reach 0.5% of the total electricity consumption in 2024 for example.
legendary
Activity: 3024
Merit: 2148
Well, it's reasonable to think that Bitcoin's electricity consumption can't go up too much, because if it would start negatively affecting other industries, the government will step in and ban mining and Bitcoin, which already happened in some smaller countries. If this happened in China or the US, the price would suffer majorly.

But if there's a way to get more electricity without annoying anyone, then there's no reasons to think that some arbitrary value, like 1% of world's power, is a hard limit to Bitcoin's power consumption and by link a price.
legendary
Activity: 2674
Merit: 1226
Livecasino, 20% cashback, no fuss payouts.
Rather than a simple relationship, I understand you to mean that there is a causal relationship. That two events are apparently related does not mean that there is a causal relationship between them, and, in fact, most of the time there is not:

The more films Nicolas Cage makes, the more people drown.

The famous saying everywhere I hear in trading even before crypto is that, just because the two events happened one after another, does not mean they caused each other (it's translated from what I know in local language).

Causal relationships are difficult to determine but especially in crypto I would never put 2 and 2 together:)
legendary
Activity: 2212
Merit: 7064
If there is a better source for the energy consumption of the network I should be delighted to use it and re-work my hypothesis, however, I haven't found that better source yet.

There is Digiconomist research that is showing very different and much lower values compared to CBECI but their information is also not correct.
Maybe you can take a look at this Coincenter report from 2019 for more information and clarification.

Regarding the waste energy point, I saw that commented on in the WO thread and haven't had time to look into the detail as to how it is calculated, though my immediate question is how can we say that bitcoin is using some of the "waste" energy rather than being counted in the 30-40% that isn't "wasted"?

We can't say that but in theory we could use ALL of that wasted energy for mining Bitcoin, and my point is that a lot more energy is wasted in the world all the time even if we don't count Bitcon.
Do you see any headlines about that in newspapers?
No.
hero member
Activity: 1029
Merit: 712
This is certainly interesting topic for discussion but I said this before and I have to repeat that Cambridge Bitcoin Electricity Consumption Index (CBECI) data is totally wrong and should not be taken as correct source of information.
Even CBECI themselves admitted that data is inaccurate and you need to find better source for your hypothesis.

It is also interesting to know that 60 to 67% of all energy produced goes to waste worldwide, so then why not use that wasted energy for mining Bitcoins.
I don't know how to calculate this but it should be taken into consideration.

If there is a better source for the energy consumption of the network I should be delighted to use it and re-work my hypothesis, however, I haven't found that better source yet.

Regarding the waste energy point, I saw that commented on in the WO thread and haven't had time to look into the detail as to how it is calculated, though my immediate question is how can we say that bitcoin is using some of the "waste" energy rather than being counted in the 30-40% that isn't "wasted"?
legendary
Activity: 2212
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This is certainly interesting topic for discussion but I said this before and I have to repeat that Cambridge Bitcoin Electricity Consumption Index (CBECI) data is totally wrong and should not be taken as correct source of information.
Even CBECI themselves admitted that data is inaccurate and you need to find better source for your hypothesis.

It is also interesting to know that 60 to 67% of all energy produced goes to waste worldwide, so then why not use that wasted energy for mining Bitcoins.
I don't know how to calculate this but it should be taken into consideration.
legendary
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Actually, I don't think it really is a new hypothesis. Certainly, the first value ever attributed to Bitcoin was based on the cost of mining a block (can't recall right now the source but will add it here later).

And like it or not, miners have to sell at a profit. I do believe many hold for bigger gains especially in huge dips but the majority will sell for as long as it's profitable and as long as there is significant new coin issued by miners, they have a say in price I think.
legendary
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The amount of electricity consumed by the bitcoin network is a secondary or even tertiary parameter in its economy. If the demand for it grows, then there will be an increase in consumed electricity, if it falls, then vice versa.
I had my own topic where I considered the interaction of miners, the price of bitcoin and consumed electricity - but unfortunately it is in Russian.
hero member
Activity: 1029
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Your assumption has one major flaw

If you look at the price and hashrate evolution you will see that hashrate has not managed to keep up with the rise in price, and thus energy consumption, why? Simple because there is no gear to burn that electricity and mine available.
As of right now, those two indicators are so far away it makes no sense trying to find any relation between them.

The second problem is that electricity consumption follows price, miners don't buy gear, plug it in and then think wait, we need to raise the price to x level to make mining profitable, it's completely the opposite if the price goes up, profits increase buying gear becomes a good investment, electric consumption goes up.


But this is my argument exactly, perhaps I did not explain it clearly, I am saying that the price drives electricity consumption - as miners make more money (due to a rising price) then they will spend more money on electricity, thus electricity consumption follows the price.  However, I am also saying that there will be a cap on the amount of electricity that the network can use and when we are at or about that cap it will signal the approximate maximum sustained price, as if miners cannot acquire more electricity their costs will not increase and there will be no reason for them not to sell at a lower price.


Now to your assumption:
Quote
Assertion – the proportion of worldwide electricity generation that may be consumed by the Bitcoin network cannot exceed 1%.
Why? Who is stopping it to go to 1.0007%?

That is not an assumption it is an assertion - it is the crux of my argument - I am saying that the network will not exceed 1% because socially and economically there is no justification for it to do so.  There is insufficient benefit to the world as a whole for more than 1% of worldwide electricity generation to be consumed by Bitcoin. Accordingly people (individuals, corporates, governments, etc.) will not make the investment decisions and compromises required for more than 1% to go to Bitcoin.

Note I fully accept that 1% is just a guess - it may well be 1.0007% or even 2% - the key point is that I am arguing that there is a practical cap.  It may be better to re-word the assertion to something like:

Assertion – the proportion of worldwide electricity generation that may be consumed by the Bitcoin network cannot exceed [N%] unless there is a step change in the general perceived value delivered by Bitcoin.


Quote
Between now and the next halving (mid 2024) the maximum sustained high we should expect the bitcoin price to reach will be no more than about $95,000.

Who is sustaining this price? One thing I can tell you for sure, it's not miners.

I am using the word sustained in its meaning for an extended period not to mean held up by something.  Since there is a significant lag between price changes and additional gear coming online price changes need to persist for some time for them to have a meaningful effect.


Now, to understand simply why your projected growth is not realistic you should look at your own numbers:

You're capping the price at double the current one based on the assumption that bitcoin staying at a certain level requires 0.47% of the world production which is false.

The problem arises with the fact that even if the price doesn't move, with current profitability if enough gear will be released on the market the power consumption could still double even if the price retracts.
Remember that we were doing around 130EH/s when the price was 10k, and now we're barely at 160EX.
So if the electric consumption was already at 0.3-0.4% when the price was at 10k it means that we're already far beyond the above levels imposed by your 1% limit, but somehow still under  Grin

Firstly that is why I have set my "limit" at more than double the current consumption - as I say above I don't know what the limit is, but I am arguing there is one and for the sake of the argument I picked a value to hang my hat on!

Secondly my prediction only sets an upper limit it does not set a lower limit at all.  As you rightly say there is nothing to prevent the price being far far below the maximum implied by the power consumption cap.  However, I would expect total consumption of the network to fall if the price fell and remained significantly lower for an extended period.  

We'd need to have good historic power consumption data to model the past accurately, and to be fair we don't even have good current data let alone historic!) but as I say the values can clearly diverge significantly for a period, the question is can they stay apart or will they tend to converge?  I think the latter.

Also let me add this is mainly a thought exercise - so thanks for your replies which are helping to refine my thoughts.
hero member
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Rather than a simple relationship, I understand you to mean that there is a causal relationship. That two events are apparently related does not mean that there is a causal relationship between them, and, in fact, most of the time there is not:

The more films Nicolas Cage makes, the more people drown.

Yes and I absolutely understand your position - correlation is not causation - as per the famous pirates vs global warming chart.

See my later post that hopefully further clarifies what I am saying.
legendary
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Your assumption has one major flaw

If you look at the price and hashrate evolution you will see that hashrate has not managed to keep up with the rise in price, and thus energy consumption, why? Simple because there is no gear to burn that electricity and mine available.
As of right now, those two indicators are so far away it makes no sense trying to find any relation between them.

The second problem is that electricity consumption follows price, miners don't buy gear, plug it in and then think wait, we need to raise the price to x level to make mining profitable, it's completely the opposite if the price goes up, profits increase buying gear becomes a good investment, electric consumption goes up.

Now to your assumption:
Quote
Assertion – the proportion of worldwide electricity generation that may be consumed by the Bitcoin network cannot exceed 1%.
Why? Who is stopping it to go to 1.0007%?

Quote
Between now and the next halving (mid 2024) the maximum sustained high we should expect the bitcoin price to reach will be no more than about $95,000.

Who is sustaining this price? One thing I can tell you for sure, it's not miners.
Now, to understand simply why your projected growth is not realistic you should look at your own numbers:

You're capping the price at double the current one based on the assumption that bitcoin staying at a certain level requires 0.47% of the world production which is false.

The problem arises with the fact that even if the price doesn't move, with current profitability if enough gear will be released on the market the power consumption could still double even if the price retracts.
Remember that we were doing around 130EH/s when the price was 10k, and now we're barely at 160EX.
So if the electric consumption was already at 0.3-0.4% when the price was at 10k it means that we're already far beyond the above levels imposed by your 1% limit, but somehow still under  Grin
legendary
Activity: 2730
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Hypothesis - bitcoin price is directly related to electricity consumption

It is the opposite. The electricity consumption is directly related to the bitcoin price. If it would not be then Bitcoin network would be insufficient secured. You need much higher network security when Bitcoin is worth $100k then when Bitcoin is worth $1.

It is similar as with Gold. When price of gold goes up then investment in mining Gold increases. They start mining Gold from deeper gold mines where at gold price $1000 would not be profitable to mine it. At $2000 it is profitable.
legendary
Activity: 1372
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Rather than a simple relationship, I understand you to mean that there is a causal relationship. That two events are apparently related does not mean that there is a causal relationship between them, and, in fact, most of the time there is not:

The more films Nicolas Cage makes, the more people drown.
hero member
Activity: 1029
Merit: 712
In general electricity consumption goes up when bitcoin price goes up because it becomes more profitable to mine bitcoin. But it's not like there is some super elastic direct relationship. Mining continued to go up for most of 2018 as the price crashed.

The relationship is more like: when price allows mining rewards to vastly outstrips mining costs, mining goes up perpetually. And occasionally in the bottom of bear markets when mining rewards barely or don't cover the mining costs then mining falls. Mining will continue to go up where there is the will and capital to venture into mining, as long as cheap electricity is available.


Well, that is the point isn't it - I am positing that it won't be available (or rather that there will be a practical cap) and therefore (un)availability of electricity will act as a brake.


I think your very low price predictions for the coming years speaks for itself in showing your model isn't accurate.

We will see won't we ... I certainly won't mind if that's the case ... Wink

hero member
Activity: 2240
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In general electricity consumption goes up when bitcoin price goes up because it becomes more profitable to mine bitcoin. But it's not like there is some super elastic direct relationship. Mining continued to go up for most of 2018 as the price crashed.

The relationship is more like: when price allows mining rewards to vastly outstrips mining costs, mining goes up perpetually. And occasionally in the bottom of bear markets when mining rewards barely or don't cover the mining costs then mining falls. Mining will continue to go up where there is the will and capital to venture into mining, as long as cheap electricity is available.

I think your very low price predictions for the coming years speaks for itself in showing your model isn't accurate.
hero member
Activity: 1029
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Inspired by this topic I developed the following hypothesis for discussion: the bitcoin price is directly related to the amount of electricity that the bitcoin network consumes and using that we can estimate the sustained maximum price.

Reasoning:

When considered as a whole, bitcoin miners expend a fixed percentage of their income on electricity.

If their income increases (in a sustained way) they will spend more money on electricity, but in a fixed ratio. The remainder of their income covers all other items, including profit.

The electricity consumption of the bitcoin network is bound by two factors:
1.   Mining income (derived by price x subsidy+fees) - (i.e. how much money do they receive)
2.   The proportion of worldwide electricity generating capacity that is available to the network - (i.e. how much electricity can they get)

At the time of writing the bitcoin network is estimated to use 130.39 TWh of electricity annually.1

This is approximately 0.47% of worldwide generation (27,586 TWh)2

In the current era the Bitcoin block subsidy is currently 6.25 BTC/block = 27,375 BTC/month

Bitcoin transaction fees are currently averaging 3,294 BTC/month3

Thus total mining income (BTC) is currently approx. 30,669 BTC/month

At the 2021 “average” price of approximately $44,234/BTC4 that means an average worldwide total mining income of $1.357 billion per month

Therefore, $1.357 Bn provides sufficient income to purchase 0.47% of the worldwide electricity supply.

Assertion – the proportion of worldwide electricity generation that may be consumed by the Bitcoin network cannot exceed 1%.

Key assumptions for forward projections:
Assumption 1: worldwide electricity generation capacity continues to increase at c. 2% per annum
Assumption 2: transaction fees increase at 10% per annum
Assumption 3: there will be no step change in the cost or capacity of the worldwide electricity generating network (such as making cold fusion wirk)


Forecast maximum sustained BTC value, era 3:   2022  2023  2024
Using 0.5% of worldwide electricity $47,000 $48,000$48,000
Using 1.0% of worldwide electricity $94,000 $95,000$96,000

For era 4 there is a significant increase driven by the halving of the block reward:
Forecast maximum sustained BTC value, era 4:   2025  2026  2027  2028
Using 0.5% of worldwide electricity$84,000$84,000 $83,000$82,000
Using 1.0% of worldwide electricity$168,000$168,000$166,000$164,000

Summary
Between now and the next halving (mid 2024) the maximum sustained high we should expect the bitcoin price to reach will be no more than about $95,000.
In the next era (post 2024 halving) the sustained peak will be no higher than about $168,000

Note: I do not think these are hard numbers, just indications - there are a lot of estimates and assumptions that underpin the forecasts.

Clearly the key question is my assertion that the Bitcoin network cannot, for an extended period, consume more than 1% of the total worldwide generating capacity.  If that is wrong then the projections will be wrong, but the hypothesis may still be valid, but at a different level.  My estimate of 1% is purely a guess, but I believe that societal, economic and structural constraints will mean that it is more or less right.

Notes:
These are estimates for sustained prices – this does not mean that the price cannot go above those values, merely that it cannot maintain those higher values for an extended period.
Miners expenditure on other items (capital, maintenance, labour, etc.) is irrelevant to this hypothesis as it assumes the spend on electricity is a fixed maximum proportion of income and those costs are covered in the remainder. 
The forecast price per bitcoin in era 4 reduces over time, because the projected increase in transaction fees and thus income outweighs the increase in the worldwide electricity network.
For simplicity I have assumed that era 3 continues until the end of 2024, and era 4 starts in 2025.  This also reflects the fact that there is likely to be a time lag as miners adapt to the new era.



1Cambridge Bitcoin Electricity Consumption Index (www.cbeci.org)
2Extrapolated from data on Our World in Data (https://ourworldindata.org/energy-production-consumption#electricity-generation)
3taken from here: https://www.blockchain.com/charts/transaction-fees
4Calculated by taking the average of the of the last 12 weekly closing prices, from Bitstamp BTC:USD market
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