> Completely wrong. Go run a testnet yourself and you will see.
If you imagine that a laptop has enough hashrate to mine all the world's transactions in realtime, then how do you explain to yourself that the actual Bitcoin network is only able to add a few hundred transactions per second to the chain?
> The difficulty adjusts automatically. The energy usage comes only from the competition aspect - people are competing to earn blocks. You are lacking basic understanding of how PoW functions.
PoW works because miners have to invest significant resources in building and maintaining their mining rigs. As such, no one who wins the race to add a new block will want that block to contain false transactions, as that would bring down the value of the currency and leave them with extremely expensive mining equipment that is useless (once the deception would be noticed by others).
If the bitcoin network was run on 3 laptops, I could buy 100 laptops and start advertising my own blockchain which reverts the entire previous blockchain and replaces it with transactions I like. Since I can mine many more blocks with my 100 laptops, I can create a longer chain, so all clients will accept my chain and discard the old one, reverting all transactions that ever happened.
Instead, if I wanted to mount such an attack on the actual bitcoin network today, I would have to spend billions of dollars on equipment and electricity - ensuring that I wouldn't want to do so.
I am struggling the follow the argument through the comment chain. Energy is used to secure the chain via mining; a secure network is required to be a payment system, but the energy usage is not from processing transactions.
Originally the discussion is about people "using Bitcoin to pay for their McDonalds". Then the commenter erroneously stated, in response to that, that a "bitcoin transaction uses the energy equivalent the entire lifespan of a tree". El Salvador is using the lightning network. These transactions are done off-chain. So the transaction fees do not even go to miners. There can be thousands of McDonalds transactions that occur off-chain and are eventually settled on-chain in one transaction. Processing and validating transactions is very computationally easy. You can indeed do it on a laptop.
Mining blocks is a separate issue. If you ignore the competitive security race, then the network can indeed function on a laptop. Most the mining race that is currently occurring is because people are fighting to win the block reward - this would happen even if nobody were transacting, and someone doing a lightning network transaction has truly negligible effect on that energy usage.
When you said "bitcoin would become valueless, as everyone with a laptop could produce their own longest blockchain where they have half of all bitcoin" this shows you don't understand the process, because the difficulty would rise until people can no longer produce blocks so rapidly. You're describing a situation where miners are not even on the same network so it doesnt make sense
Let's look at it like this: a block on the blockchain has a maximum size. A transaction has a minimum size. So, each block contains a maximum number of transactions. Miners must waste a certain amount of energy hashing a block to ensure the security of the network (through the incentive mechanisms described above).
So, we can compute a practical energy/block, which translates to an energy/typical transaction.
Now, the block size is a kind of free parameter - the blockchain guarantees wouldn't be significantly different with 1GB blocks instead of 1MB. And that, in turn, would reduce the energy cost per transaction dramatically, and allow the network to process more transactions/second.
Similarly, if there were fewer people putting fewer resources into mining bitcoin, the energy cost/block could go down. This would affect the security of the network though, as it also brings down the cost of a 51% attack.
But miners are opposed to such changes, which have been proposed before. So, in practice, the bitcoin network as it is today has a huge energy cost/mined transaction.
Again, if you don't believe this, you should ask yourself what stops the bitcoin blockchain from processing 1 billion transactions/second instead of the current pitiful ~2 hundred transactions.
Do you know what the lightning network is? It changes all of these relationships, and it is key to what we are talking about, but you didnt mention it in this comment.
Separately to the lightning network, the security (hashrate, energy usage) is still not directly linked to the number of on-chain transactions that are processed. You can compute "a practical energy/block" specifically for bitcoin but it does not translate to a meaningful energy/transaction value because the quantity of energy used is not directly caused by transactions. You can have a less-secure blockchain that does many more transactions than bitcoin with low energy usage (altcoins exist) - if these are low value transactions then people won't even be incentivised to attack it. The relationship is NOT just energy/transaction. Your estimated energy/transaction value will keep changing because that's not the relationship; the new coins in the block reward will eventually drop to zero, the value processed by the network will change, the ASIC development situation will change, etc. It's like finding a runner that eats icecream and computing icecream/kilometre.
>Again, if you don't believe this, you should ask yourself what stops the bitcoin blockchain from processing 1 billion transactions/second instead of the current pitiful ~2 hundred transactions.
Nothing is stopping it. Run your own lightning node and you can do more transactions than what you are erroneously claiming
What do off-chain transactions like Lightning have to do with the transaction costs of the blockchain itself? We can trade bitcoin over HN comments, that doesn't mean that the bitcoin blockchain is involved in our trade.
The whole discussion is about the Bitcoin blockchain itself. Altcoins, lightning, payment apps etc are all entirely irrelevant to this point.
The bitcoin blockchain as it exists today has a pretty well fixed energy cost per transaction. All sorts of things could change this - changes in the protocol to allow bigger blocks, changes in the hashrate that most miners are willing to invest, changes in mining hardware efficiency etc.
But what you are claiming is like saying that it's meaningless to talk about the gas/mile of a diesel Ford Mustang, since you could always change the engine (block size), or change from gas to another fuel (better ASICs), or choose to ship the car by ferry somewhere(use Lightning instead)!
> You can compute "a practical energy/block" specifically for bitcoin but it does not translate to a meaningful energy/transaction value because the quantity of energy used is not directly caused by transactions.
Why does it matter that "it's not caused by " the number of transactions? As long as the block size is fixed, the number of transactions that can be processed by the existing bitcoin network is directly linked to the energy expenditure of the existing bitcoin network. Other hypothetical versions of the bitcoin network could achieve other energy/transaction thresholds. But the one we have today is extremely wasteful.
> Nothing is stopping it. Run your own lightning node and you can do more transactions than what you are erroneously claiming
"Why can't my car do 600km/h, it can only do 200km/h?" "Nothing is stopping it. Board a maglev train and you can do far more than 200 km/h."
The block reward will continue to repeatedly halve over time until it reaches zero and dramatically decreases the incentive to mine. That requires no changes.
>"Why can't my car do 600km/h, it can only do 200km/h?" "Nothing is stopping it. Board a maglev train and you can do far more than 200 km/h."
Going by this analogy, you are commenting on an article about maglev trains. The article is about lightning network transactions. So you've gone completely off-topic? Why even talk about "transaction costs of the blockchain itself" if you think lightning transactions arent bitcoin transactions?
>What do off-chain transactions like Lightning have to do with the transaction costs of the blockchain itself?
Facilitating off-chain transactions lowers demand for on-chain transactions. Off-chain transactions arent possible without the underlying blockchain, yet they can fulfill the use-case of small bitcoin transactions. You can't separate the two.
>All sorts of things could change this - changes in the protocol to allow bigger blocks, changes in the hashrate that most miners are willing to invest, changes in mining hardware efficiency etc. But what you are claiming...
Back up the comment chain you were arguing that changing electricity prices etc would not affect the energy usage... I think you have changed what you are arguing about. Previously you disagreed with this:
"Bitcoin use and mining power are completely uncorrelated. By mining bitcoins, your earn as much as the computational fraction you are representing. So, indeed, there was a race to more and more mining power in the recent years but it can completely be reversed. For example if electricity prices rises."
But changing the blocksize is just a software change. It doesn't require outlay on a "bigger engine", or any new engineering. The "existing bitcoin network" could switch to it with a 1 line change in the code.
So it's not quite the same as some of your examples.
It's not "just" a software change. It's a huge political and organizational issue. It has been proposed and agreed and disagreed and fought over for many years, with no plausible change in site.
Turns out, changing fundamental limits of a truly distributed system is actually very hard. True, not entirely for engineering reasons, but that makes it even worse - engineering can in principle be solved, people problems can be forever.
You are correct! The other person is wrong. Transaction volume has almost zero relationship with mining energy usage (there are some very subtle connections, but those nuances are hardly worth getting into for this discussion).
If you imagine that a laptop has enough hashrate to mine all the world's transactions in realtime, then how do you explain to yourself that the actual Bitcoin network is only able to add a few hundred transactions per second to the chain?
> The difficulty adjusts automatically. The energy usage comes only from the competition aspect - people are competing to earn blocks. You are lacking basic understanding of how PoW functions.
PoW works because miners have to invest significant resources in building and maintaining their mining rigs. As such, no one who wins the race to add a new block will want that block to contain false transactions, as that would bring down the value of the currency and leave them with extremely expensive mining equipment that is useless (once the deception would be noticed by others).
If the bitcoin network was run on 3 laptops, I could buy 100 laptops and start advertising my own blockchain which reverts the entire previous blockchain and replaces it with transactions I like. Since I can mine many more blocks with my 100 laptops, I can create a longer chain, so all clients will accept my chain and discard the old one, reverting all transactions that ever happened.
Instead, if I wanted to mount such an attack on the actual bitcoin network today, I would have to spend billions of dollars on equipment and electricity - ensuring that I wouldn't want to do so.