π
Original date posted:2015-08-05
π Original message:>
> On 5 Aug 2015, at 15:15, Peter R <peter_r at gmx.com> wrote:
>
> Hi Dave,
>
> Thank you for the feedback regarding my paper.
>
>> The paper is nicely done, but I'm concerned that there's a real problem with equation 4. The orphan rate is not just a function of time; it's also a function of the block maker's proportion of the network hash rate. Fundamentally a block maker (pool or aggregation of pools) does not orphan its own blocks.
>
> With the benefit of hindsight, I think the paper would be stronger if it also analyzed how the model changes (or doesn't) if we assume zero propagation impedance for intra-miner communication, as you suggested (the "you don't orphan your own blocks" idea). Note that the paper did briefly discuss miner-dependent propagation times in the second paragraph of page 9 and in note 13.
I think this would be really interesting. It's an area that seems to be lacking research.
While I've not had time to model it I did have a quick discussion with the author of the Organ-of-Corti blog a few months ago and he seemed to think that the Poisson process model isn't quite accurate here. Intuitively this makes sense as until a block has fully propagated we're only seeing some fraction of the actual hashing network operating on the same problem, so we actually see slightly fewer very quick blocks than we might expect.
I do suspect that if we were to model this more accurately we might be able to infer the "typical" propagation characteristics by measuring the deviation from the expected distribution.
>> Consider that a 1% miner must assume a greater risk from orphaning than, say, a pool with 25%, or worse 40% of the hash rate.
>
> I'd like to explore this in more detail. Although a miner may not orphan his own block, by building on his own block he may now orphan two blocks in a row. At some point, his solution or solutions must be communicated to his peers. And if there's information about the transactions in his blocks to communicate, I think there's a cost associated with that. It's an interesting problem and I'd like to continue working on it. \
Agreed - I think this would be really interesting!
>> I suspect this may well change some of the conclusions as larger block makers will definitely be able to create larger blocks than their smaller counterparts.
>
> It will be interesting to see. I suspect that the main result that "a healthy fee market exists" will still hold (assuming of course that a single miner with >50% of the hash power isn't acting maliciously). Whether miners with larger value of h/H have a profit advantage, I'm not sure (but that was outside the scope of the paper anyways).
I really look forward to seeing the revised version. Seeing the differences will also help assess how much impact there is from simplified models.
Regards,
Dave
Dave Hudson [ARCHIVE] /
npub1reβ¦679nu
2023-06-07 17:32:50
in reply to nevent1qβ¦z9yn
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2023-06-07 17:32:50Event JSON
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Original date posted:2015-08-05\nπ Original message:\u003e \n\u003e On 5 Aug 2015, at 15:15, Peter R \u003cpeter_r at gmx.com\u003e wrote:\n\u003e \n\u003e Hi Dave,\n\u003e \n\u003e Thank you for the feedback regarding my paper. \n\u003e \n\u003e\u003e The paper is nicely done, but I'm concerned that there's a real problem with equation 4. The orphan rate is not just a function of time; it's also a function of the block maker's proportion of the network hash rate. Fundamentally a block maker (pool or aggregation of pools) does not orphan its own blocks.\n\u003e \n\u003e With the benefit of hindsight, I think the paper would be stronger if it also analyzed how the model changes (or doesn't) if we assume zero propagation impedance for intra-miner communication, as you suggested (the \"you don't orphan your own blocks\" idea). Note that the paper did briefly discuss miner-dependent propagation times in the second paragraph of page 9 and in note 13.\n\nI think this would be really interesting. It's an area that seems to be lacking research.\n\nWhile I've not had time to model it I did have a quick discussion with the author of the Organ-of-Corti blog a few months ago and he seemed to think that the Poisson process model isn't quite accurate here. Intuitively this makes sense as until a block has fully propagated we're only seeing some fraction of the actual hashing network operating on the same problem, so we actually see slightly fewer very quick blocks than we might expect.\n\nI do suspect that if we were to model this more accurately we might be able to infer the \"typical\" propagation characteristics by measuring the deviation from the expected distribution.\n\n\u003e\u003e Consider that a 1% miner must assume a greater risk from orphaning than, say, a pool with 25%, or worse 40% of the hash rate.\n\u003e \n\u003e I'd like to explore this in more detail. Although a miner may not orphan his own block, by building on his own block he may now orphan two blocks in a row. At some point, his solution or solutions must be communicated to his peers. And if there's information about the transactions in his blocks to communicate, I think there's a cost associated with that. It's an interesting problem and I'd like to continue working on it. \\\n\nAgreed - I think this would be really interesting!\n\n\u003e\u003e I suspect this may well change some of the conclusions as larger block makers will definitely be able to create larger blocks than their smaller counterparts.\n\u003e \n\u003e It will be interesting to see. I suspect that the main result that \"a healthy fee market exists\" will still hold (assuming of course that a single miner with \u003e50% of the hash power isn't acting maliciously). Whether miners with larger value of h/H have a profit advantage, I'm not sure (but that was outside the scope of the paper anyways).\n\nI really look forward to seeing the revised version. Seeing the differences will also help assess how much impact there is from simplified models.\n\n\nRegards,\nDave",
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