* Re: [bitcoin-dev] Dynamically Controlled Bitcoin Block Size Max C
[not found] <CAEgR2PFhubcZmiCnZOAYfNOeXwhsu6m1Xd9=KMmP7wueFQaK9A@mail.gmail.com>
@ 2015-08-21 21:35 ` Daniele Pinna
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From: Daniele Pinna @ 2015-08-21 21:35 UTC (permalink / raw)
To: bitcoin-dev
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"I ran some simulations, and if blocks take 20 seconds to propagate, a
network with a miner that has 30% of the hashing power will get 30.3% of
the blocks."
Peter_R's analysis of fee markets in the absence of blocksize limits [1]
shows that the hashrate advantage of a large miner is a side-effect of
coinbase subsidization. As the block rewards get smaller, so will large
miner advantages. An easy way to think about this is as follows:
Currently, the main critique of larger blocksizes is that we'll connected
miners can cut out smaller miners by gratuitously filling up blocks with
self-paying transactions. This only works because block subsidies exist.
The moment block rewards become comparable to block TX fees, this exploit
ceases to be functional.
Basically, large miners will still be forced to move full blocks, but it
will go against their interest to fill them with spam since their main
source of income is the fees themselves. As a result, large miners (unlike
smaller ones) will lose the incentive to mine an un full block this evening
the playing field.
In this context, large blocksizes as proposed by BIP100-101 hope to
stimulate the increase of TX fees by augmenting the network's capacity. The
sooner block rewards become comparable to block fees, the sooner we will
get rid of mine centralization.
Dpinna
[1]
http://www.scribd.com/mobile/doc/273443462/A-Transaction-Fee-Market-Exists-Without-a-Block-Size-Limit
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