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2023-06-07 23:11:48

vjudeu at gazeta.pl [ARCHIVE] on Nostr: đź“… Original date posted:2022-07-14 đź“ť Original message:> This specific approach ...

đź“… Original date posted:2022-07-14
đź“ť Original message:> This specific approach would obviously not work as most of those outputs would be dust and the miner would need to waste an absurd amount of block space just to grab them, but maybe there's a smarter way to do it.

There is a smarter way. Just send 0.01 BTC per block to the timelocked outputs. Now, we have 6.25 BTC, so it means less than 0.2%. But that percentage will grow over time, as basic block reward will shrink, and we will have mandatory 0.01 BTC endlessly moved, until it will wrap. And guess what: if it will be 0.01 BTC per block, wrapped every 210,000 blocks, it simply means you can lock 2,100 BTC in an endless circulation loop, and avoid this "tail supply attack".

So, fortunately, even if "tail supply attackers" will win, we will still have a chance to counter-attack by burning those coins, or (even better) by locking them in an endless circulation loop, just to satisfy their malicious soft-fork, whatever amount it will require. Because even if it will be mandatory to timelock 0.01 BTC to the current block number plus 210,000, then it is still perfectly valid to move that amount endlessly, without taking it, just to resist this "tail supply attack".


On 2022-07-13 20:01:39 user Manuel Costa via bitcoin-dev <bitcoin-dev at lists.linuxfoundation.org> wrote:
> What about burning all fees and keep a block reward that will smooth out while keeping the ~21M coins limit ?

This would be a hard fork afaict as it would go against the rules of the coinbase transaction following the usual halving schedule.

However, if instead we added a rule that fees have to be sent to an anyone can spend output with a timelock we might be able to achieve a similar thing.

Highly inefficient example:

- Split blocks into 144 (about a day)
- A mined block takes all the fees and distributes them equally into 144 new outputs (anyone can spend) time locked to each of the 144 blocks of the next day.
- Next day, for each block, we'd have available an amount equivalent to the previous day total fees / 144. So we deliver previous day's fees smoothed out.

Notes:
144 is arbitrary in the example.
This specific approach would obviously not work as most of those outputs would be dust and the miner would need to waste an absurd amount of block space just to grab them, but maybe there's a smarter way to do it.




Gino Pinuto via bitcoin-dev <bitcoin-dev at lists.linuxfoundation.org> escreveu no dia quarta, 13/07/2022 Ă (s) 13:19:
What about burning all fees and keep a block reward that will smooth out while keeping the ~21M coins limit ?


Benefits :
- Miners would still be incentivized to collect higher fees transaction with the indirect perspective to generate more reward in future.
- Revenues are equally distributed over time to all participants and we solve the overnight discrepancy.
- Increased velocity of money will reduce the immediate supply of bitcoin cooling down the economy.
- Reduction of velocity will have an impact on miners only if it persevere in the long term but short term they will still perceive the buffered reward.


I don't have ideas yet on how to elegantly implement this.



On Wed, 13 Jul 2022, 12:08 John Tromp via bitcoin-dev, <bitcoin-dev at lists.linuxfoundation.org> wrote:
> The emission curve lasts over 100 years because Bitcoin success state requires it to be entrenched globally.

It effectively doesn't. The last 100 years from 2040-2140 only emits a
pittance of about 0.4 of all bitcoin.

What matters for proper distribution is the shape of the emission
curve. If you emit 99% in the first year and 1% in the next 100 years,
your emission "lasts" over 100 years, and you achieve a super low
supply inflation rate immediately after 1 year, but it's obviously a
terrible form of distribution.

This is easy to quantify as the expected time of emission which would
be 0.99 * 0.5yr + 0.01* 51yr = 2 years.
Bitcoin is not much better in that the expected time of emission of an
bitcoin satisfies x = 0.5*2yr + 0.5*(4+x) and thus equals 6 years.

Monero appears much better since its tail emission yields an infinite
expected time of emission, but if we avoid infinities by looking at
just the soft total emission [1], which is all that is emitted before
a 1% yearly inflation, then Monero is seen to actually be a lot worse
than Bitcoin, due to emitting over 40% in its first year and halving
the reward much faster. Ethereum is much worse still with its huge
premine and PoS coins like Algorand are scraping the bottom with their
expected emission time of 0.

There's only one coin whose expected (soft) emission time is larger
than bitcoin's, and it's about an order of magnitude larger, at 50
years.

[1] https://john-tromp.medium.com/a-case-for-using-soft-total-supply-1169a188d153
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