From mboxrd@z Thu Jan 1 00:00:00 1970 Received: from sog-mx-1.v43.ch3.sourceforge.com ([172.29.43.191] helo=mx.sourceforge.net) by sfs-ml-2.v29.ch3.sourceforge.com with esmtp (Exim 4.76) (envelope-from ) id 1Z4Bvf-0001mp-81 for bitcoin-development@lists.sourceforge.net; Sun, 14 Jun 2015 17:42:43 +0000 X-ACL-Warn: Received: from edge20.ethz.ch ([82.130.99.26]) by sog-mx-1.v43.ch3.sourceforge.com with esmtps (TLSv1:AES128-SHA:128) (Exim 4.76) id 1Z4Bvd-0004KT-6p for bitcoin-development@lists.sourceforge.net; Sun, 14 Jun 2015 17:42:43 +0000 Received: from CAS12.d.ethz.ch (172.31.38.212) by edge20.ethz.ch (82.130.99.26) with Microsoft SMTP Server (TLS) id 14.3.195.1; Sun, 14 Jun 2015 19:42:26 +0200 Received: from [192.168.0.12] (46.127.137.135) by mail.ethz.ch (172.31.38.212) with Microsoft SMTP Server (TLS) id 14.3.195.1; Sun, 14 Jun 2015 19:42:27 +0200 Message-ID: <557DBDCC.5040106@student.ethz.ch> Date: Sun, 14 Jun 2015 19:45:48 +0200 From: Jonas Nick User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:31.0) Gecko/20100101 Thunderbird/31.7.0 MIME-Version: 1.0 To: References: In-Reply-To: Content-Type: text/plain; charset="windows-1252" Content-Transfer-Encoding: quoted-printable X-Originating-IP: [46.127.137.135] X-Spam-Score: -0.4 (/) X-Spam-Report: Spam Filtering performed by mx.sourceforge.net. See http://spamassassin.org/tag/ for more details. -0.4 RP_MATCHES_RCVD Envelope sender domain matches handover relay domain X-Headers-End: 1Z4Bvd-0004KT-6p Subject: Re: [Bitcoin-development] Mining centralization pressure from non-uniform propagation speed X-BeenThere: bitcoin-development@lists.sourceforge.net X-Mailman-Version: 2.1.9 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Sun, 14 Jun 2015 17:42:43 -0000 Hi all, it's a very useful approach to also model fees and you came up with an in= teresting scenario. Assuming that you meant that the groups are only connected with a single = link, I've recreated the scenario with Gavin's simulation and got similar resul= ts. The group with the large hashrate does profit overall, but the miners whi= ch are not directly connected to the small group loose: https://github.com/jonasnick/bitcoin_miningsim/blob/master/analysis/READM= E.md#two-groups-well-connected-internally-but-connected-to-each-other-wit= h-a-single-poor-connection Moreover, it's important to note that this is not an equilibrium because = these miners are better off when they create their own connections to the small group (see the plot below the other one). This means that your scenario is not the result of a cartel but the resul= t of a long-term network partition. When assuming partitions, there are quite a few scenarios where big miner= s can profit from creating big blocks. For example, one 40% miner and two groups of three 10% miners, wh= ere both groups are connected to the big miner but they are not connected to each other. https://github.com/jonasnick/bitcoin_miningsim/blob/master/analysis/READM= E.md#one-big-miner-and-two-partitioned-groups Best, Jonas On 06/12/2015 06:51 PM, Pieter Wuille wrote: > Hello all, > > I've created a simulator for Bitcoin mining which goes a bit further th= an > the one Gavin used for his blog post a while ago. The main difference i= s > support for links with different latency and bandwidth, because of the > clustered configuration described below. In addition, it supports diffe= rent > block sizes, takes fees into account, does difficulty adjustments, and > takes processing and mining delays into account. It also simulates long= er > periods of time, and averages the result of many simulations running in= > parallel until the variance on the result is low enough. > > The code is here: https://github.com/sipa/bitcoin-net-simul > > The configuration used in the code right now simulates two groups of mi= ners > (one 80%=3D25%+25%+30%, one 20%=3D5%+5%+5%+5%), which are well-connecte= d > internally, but are only connected to each other through a slow 2 Mbit/= s > link. > > Here are some results. > > This shows how the group of smaller miners loses around 8% of their > relative income (if they create larger blocks, their loss percentage go= es > up slightly further): > > Configuration: > * Miner group 0: 80.000000% hashrate, blocksize 20000000.000000 > * Miner group 1: 20.000000% hashrate, blocksize 1000000.000000 > * Expected average block size: 16200000.000000 > * Average fee per block: 0.250000 > * Fee per byte: 0.0000000154 > Result: > * Miner group 0: 81.648985% income (factor 1.020612 with hashrate) > * Miner group 1: 18.351015% income (factor 0.917551 with hashrate) > > When fees become more important however, and half of a block's income i= s > due to fees, the effect becomes even stronger (a 15% loss), and the opt= imal > way to compete for small miners is to create larger blocks as well (sma= ller > blocks for them result in even less income): > > Configuration: > * Miner group 0: 80.000000% hashrate, blocksize 20000000.000000 > * Miner group 1: 20.000000% hashrate, blocksize 20000000.000000 > * Expected average block size: 20000000.000000 > * Average fee per block: 25.000000 > * Fee per byte: 0.0000012500 > Result: > * Miner group 0: 83.063545% income (factor 1.038294 with hashrate) > * Miner group 1: 16.936455% income (factor 0.846823 with hashrate) > > The simulator is not perfect. It doesn't take into account that multipl= e > blocks/relays can compete for the same bandwidth, or that nodes cannot > process multiple blocks at once. > > The numbers used may be unrealistic, and I don't mean this as a predict= ion > for real-world events. However, it does very clearly show the effects o= f > larger blocks on centralization pressure of the system. Note that this = also > does not make any assumption of destructive behavior on the network - j= ust > simple profit maximalization. > > Lastly, the code may be buggy; I only did some small sanity tests with > simple networks. > > > > -----------------------------------------------------------------------= ------- > > > _______________________________________________ > Bitcoin-development mailing list > Bitcoin-development@lists.sourceforge.net > https://lists.sourceforge.net/lists/listinfo/bitcoin-development