> I was thinking that this would be a separate blockchain with separate headers that progress linearly like a normal blockchain.
Exactly, that's what I called "superblocks", where you have a separate chain, just to keep block headers instead of transactions.
> A block creator would collect together as many blocks that haven't been collected yet into the next superblock (and maybe receive a reward proportional to how many / how much weight they include).
You cannot "catch them all". If you do, you can end up with a lot of block headers, where each of them has difficulty equal to one. You need some limit, you can limit amount of blocks, you can assign some minimal difficulty, it does not matter that much, but some limit is needed, also because mining on top of the latest superblock should be more profitable than replacing someone else's reward in the previous superblock by your own reward and getting a bigger share in the previous superblock.
> This could be done using merge mining, or it could be done using a signing scheme (eg where the block creator signs to say "I created this superblock" and have mechanisms to punish those who sign multiple superblocks at the same height.
I would pick merge mining, because it is more compatible with existing mining scheme. Signing sounds more like Proof of Stake and I am trying to avoid that solution. Also, there is no need to sign anything, because you are solo mining where you have your own coinbase transaction or you are mining in a pool, where you have some shared address, and then you cannot produce any incompatible superblock, because the protocol can tell you, which address you should use (and if it is N-of-N taproot multisig and you have some closing transaction, then you can safely mine it).
> Really, you could even just use hashes of the block headers.
Replacing transactions with block headers will do the same trick. Each transaction is first hashed with double SHA-256, in exactly the same way as block headers are. If you replace transactions with block headers, you would get a superblock header, then varint saying how many block headers are there, and then you can place all block headers. During superblock merkle tree construction, you will hash all block headers (so you will get block hashes as leaves), and then you will combine block hashes in the same way as transaction hashes are combined.
From the Script point of view, you can always use "OP_SIZE 80 OP_EQUALVERIFY OP_HASH256 <hash> OP_EQUAL". Then, you can just change the size, just to show which object is hashed. Value 80 will work for block headers, small values below 520 will work for small transactions, value 64 will work for any merkle tree proof, no matter if it is for superblock or normal block. Also, by using block headers instead of hashes, you can prove that at least a proper amount of work was done to produce it, because if you use just hashes, then they could be random.On 2021-12-16 17:57:23 user Billy Tetrud <billy.tetrud@gmail.com> wrote:@Jeremy> for top-level pool participants there is never any central custody.I definitely see that. That was actually what I meant when I said the goals aren't the same as benefits. While your idea definitely satisfies all your goals in a modular way, the fact that it relies on pools means that unless the pools can also satisfy the goals, the total system also doesn't satisfy the goals (even tho the piece of that system you designed does).> Thus it doesn't "hurt" anyone except for the miners who are taking the not fully locked in funds riskTrue, it only potentially hurts whoever the channel partner is accepting the unspendable coins. And no one can really stop anyone from taking that risk if they really want to. But in that case, its not exactly a fully functional channel, since recourse mechanisms couldn't be performed. Wouldn't that open such a channel up to a pretty bad theft possibility?@Bob> Increased payout regularity does not lower the viable size of mining pools, because smaller mining pools using this mechanism still have higher variance.Yes, smaller mining pools will always have higher variance. However, lower variance has diminishing benefits. Below a certain amount of variance, less variance isn't very valuable. So increased payout regularity does indeed lower the viable size of mining pools because a given low-enough level of variance can be achieved with less pool hashpower.> The on-chain footprint is *higher* due to the increased payout regularity.That's a reasonable point. However, I think there is a difference here between the regularity of rewards vs payouts. Rewards for each miner can be more regular without necessarily increasing the number of on-chain payouts. In fact, theoretically, an individual miner could let their rewards accumulate in a pool over many rewards and only redeem when they need the coins for something. The incentive is there for each miner to be judicious on how much onchain space they take up.@vjudeu> how many block headers should be stored per one "superblock"?I was thinking that this would be a separate blockchain with separate headers that progress linearly like a normal blockchain. A block creator would collect together as many blocks that haven't been collected yet into the next superblock (and maybe receive a reward proportional to how many / how much weight they include). This could be done using merge mining, or it could be done using a signing scheme (eg where the block creator signs to say "I created this superblock" and have mechanisms to punish those who sign multiple superblocks at the same height. For merge mining, I could even imagine the data necessary to validate that it has been merge mined could be put into a taproot script branch (creating an invalid script, but a valid hash of the superblock).> we can collect all headers with the same previous block hash, and distribute block reward between all coinbase transactions in those headersExactly.> we would just have block headers instead of transactionsYeah, I think that would be the way to go. Really, you could even just use hashes of the block headers. But the size doesn't matter much because it would be both a small blockchain and an ephemeral one (which can be fully discarded after all parties have been paid out, or at least their payout has been committed to on the bitcoin blockchain).
On Thu, Dec 16, 2021 at 1:35 AM <vjudeu@gazeta.pl> wrote:> The missing piece here would be an ordering of weak blocks to make the window possible. Or at least a way to determine what blocks should definitely be part of a particular block's pay out. I could see this being done by a separate ephemeral blockchain (which starts fresh after each Bitcoin block) that keeps track of which weak blocks have been submitted, potentially using the pow already in each block to secure it. Granted that piece is a bit half baked, but it seems quite solvable. Wdyt?
I thought about something like that, but there is one problem: how many block headers should be stored per one "superblock"? Currently, we have single block header, where the whole coinbase transaction is taken by some mining pool or solo miner. But instead, each miner could submit its own block header. Then, we can collect all headers with the same previous block hash, and distribute block reward between all coinbase transactions in those headers. One "superblock" then would be created in a similar way as existing blocks, we would just have block headers instead of transactions. If most transactions inside those blocks will be the same, then each block could be expressed just as a set of transaction hashes, only coinbase transactions or custom, non-broadcasted transactions included by miners will be revealed, everything else will be known.
> One thing that jumped out at me as not safe is throwing block rewards into a channel and being able to spend them immediately. There's a reason block rewards aren't spendable for a while, and channels don't solve that problem, do they? Why not simply reduce the on chain wait time for spending block rewards at that point? Seems like the consequences would be the same.
All coinbase rewards are unspendable for 100 blocks, it is enforced by consensus. It does not matter if there are outputs owned directly by miners, or if there is one huge N-of-N taproot multisig for the whole pool, where every miner signed the closing transaction. The only option to take coins faster I can see is swapping the coins by some LN transaction. But then, the other party can check if some deposit to the LN channel is a part of the coinbase transaction or not, and then decide if it is acceptable to do the swap.On 2021-12-15 19:00:44 user Billy Tetrud via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> wrote:Looks like an interesting proposal, but it doesn't seem to quite match the goals you mentioned. As you do mention, this mining pool coordination doesn't get rid of the need for mining pools in the first place. So it doesn't satisfy item 1 on your goal list afaict.The primary benefits over what we have today that I can see are:1. increased payout regularity, which lowers the viable size of mining pools, and2. Lower on chain footprint through combining pay outs from multiple pools.Am I missing some?These are interesting benefits, but it would be nice if your post was clearer on that, since the goals list is not the same as the list of potential benefits of this kind of design.As far as enabling solo mining, what if this concept were used off chain? Have a public network of solo miners who publish "weak blocks" to that network, and the next 100 (or 1000 etc) nice miners pay you out as long as you're also being nice by following the protocol? All the nice optimizations you mentioned about eg combined taproot payouts would apply i think. The only goals this wouldn't satisfy are 3 and 5 since an extra network is needed, but to be fair, your proposal requires pools which all need their own extra network anyways.The missing piece here would be an ordering of weak blocks to make the window possible. Or at least a way to determine what blocks should definitely be part of a particular block's pay out. I could see this being done by a separate ephemeral blockchain (which starts fresh after each Bitcoin block) that keeps track of which weak blocks have been submitted, potentially using the pow already in each block to secure it. Granted that piece is a bit half baked, but it seems quite solvable. Wdyt?One thing that jumped out at me as not safe is throwing block rewards into a channel and being able to spend them immediately. There's a reason block rewards aren't spendable for a while, and channels don't solve that problem, do they? Why not simply reduce the on chain wait time for spending block rewards at that point? Seems like the consequences would be the same.
On Tue, Dec 14, 2021, 16:12 Bob McElrath via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> wrote:You are hand waving. Attempting to redefine terms to justify your argument is
intellectually dishonest. Bitcoin pools have *always* been about variance
reduction. Your window function fundamentally CANNOT be used to hedge hashrate.
Various suggestions below introduce dangerous new games that might be played by
miners.
The fact is that the half-baked design you posted is less than useless, and
doesn't do anything that anyone wants.
You are trying to justify CTV by making it be all things to all people. "When
all you have is a hammer, every problem looks like a nail". Instead I humbly
suggest that you pick ONE problem for which CTV is demonstrably the right and
best solution, instead of snowing us with a ton of half-baked things that
*could* be done, and often don't even require CTV, and some (like this one)
fundamentally don't work. I do like some of your ideas, but if you had to pick
just one "use case", which would it be?
Jeremy [jlrubin@mit.edu] wrote:
> Bitcoin didn't invent the concept of pooling: https://en.wikipedia.org/wiki/
> Pooling_(resource_management). This is a Bitcoin Mining Pool, although it may
> not be your favorite kind, which is fixated on specific properties of computing
> contributions before finding a block. Pooling is just a general technique for
> aggregating resources to accomplish something. If you have another name like
> pooling that is in common use for this type of activity I would be more than
> happy to adopt it.
>
> This sort of pool can hedge not only against fee rates but also against
> increases in hashrate since your historical rate 'carries' into the future as a
> function of the window. Further, windows and reward functions can be defined in
> a myriad of ways that could, e.g., pay less to blocks found in more rapid
> succession, contributing to the smoothing functionality.
>
> With respect to sub-block pooling, as described in the article, this sort of
> design also helps with micro-pools being able to split resources
> non-custodially in every block as a part of the higher order DCFMP. The point
> is not, as noted, to enable solo mining an S9, but to decrease the size of the
> minimum viable pool. It's also possible to add, without much validation or
> data, some 'uncle block' type mechanism in an incentive compatible way (e.g.,
> add 10 pow-heavy headers on the last block for cost 48 bytes header + 32 bytes
> payout key) such that there's an incentive to include the heaviest ones you've
> seen, not just your own, that are worth further study and consideration
> (particularly because it's non-consensus, only for opt-in participation in the
> pool).
>
> With respect to space usage, it seems you wholly reject the viability of a
> payment pool mechanism to cut-through chain space. Is this a critique that
> holds for all Payment Pools, or just in the context of mining? Is there a
> particular reason why you think it infeasible that "strongly online"
> counterparties would be able to coordinate more efficiently? Is it preferable
> for miners, the nexus of decentralization for Bitcoin, to prefer to use
> custodial services for pooling (which may require KYC/AM) over bearing a cost
> of some extra potential chainload?
>
> Lastly, with respect to complexity, the proposal is actually incredibly simple
> when you take it in a broader context. Non Interactive Channels and Payment
> Pools are useful by themselves, so are the operations to merge them and swap
> balance across them. Therefore most of the complexity in this proposal is
> relying on tools we'll likely see in everyday use in any case, DCFMP or no.
>
> Jeremy
> !DSPAM:61b8f2f5321461582627336!
--
Cheers, Bob McElrath
"For every complex problem, there is a solution that is simple, neat, and wrong."
-- H. L. Mencken
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