Return-Path: Received: from smtp1.linuxfoundation.org (smtp1.linux-foundation.org [172.17.192.35]) by mail.linuxfoundation.org (Postfix) with ESMTPS id 2C1D7949 for ; Sat, 10 Dec 2016 12:05:26 +0000 (UTC) X-Greylist: whitelisted by SQLgrey-1.7.6 Received: from mail-wm0-f54.google.com (mail-wm0-f54.google.com [74.125.82.54]) by smtp1.linuxfoundation.org (Postfix) with ESMTPS id CE022E3 for ; Sat, 10 Dec 2016 12:05:24 +0000 (UTC) Received: by mail-wm0-f54.google.com with SMTP id a197so9012463wmd.0 for ; Sat, 10 Dec 2016 04:05:24 -0800 (PST) DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=gmail.com; s=20120113; h=mime-version:in-reply-to:references:from:date:message-id:subject:to; bh=fOdX7tWxOXXyVAtbvDyfMj9sE7DjzhrY7HSSTEzUNiM=; b=Xea79CjPlpodrEDj1Dq8dKLSql0LuhQ6KNOwIKhLsOm5dERDkYXIofgKjuDhxg4LiK vBc23O+L8gY6ljtCmS5k0Sv4Cu35BdtYFC7SPym1Ph6Xf5uc77nCPpF7h9IDuo5zhuxI WghkgbVj5iRAh12ZNu+FA8A5h6L1cnx9yj4q94xQrnYWjI2TatK+Ibr/nE4GRy0NM4BX cA7Vb9/Ku5i8aHHUedCiEG/PrxzRD5e4ShQYWDpPysFH9gYkrCdg8ZmQtWtXqH2rbu8r 2rH/bTB4apNlxNN1uIFirJZ0pUUmdfjFRbrYLDL26Q0Q5U/SuKpzlBB5j67loMCW4Ncw M9kQ== X-Google-DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=1e100.net; s=20130820; h=x-gm-message-state:mime-version:in-reply-to:references:from:date :message-id:subject:to; bh=fOdX7tWxOXXyVAtbvDyfMj9sE7DjzhrY7HSSTEzUNiM=; b=nByLAHz85A2VXDTpnSrst0dozdzD0/o23RggHKoWTYS6owwO+sMVs7dXPHmMwgWRef f45nkXGTIJYPPBnCcIKrLHRAb5KoFQ/52172qs/1HvOXaG3OveUt3qdlvIXthA4fgqOB Ra4tdAmJO17iw/TORhETo0Xw2bXtiIimkUrpGWoGnQAUMiLRqn5oyMudPj9CCGPZZaDL 88k7UlP/F5oLhveTwLI+8vSC9Aj7DiJS1EWosdj6C37xtbRQT0VqRJq+ofQilcmEY2Rp UZdlyLYNHYdk4u3IyMUKK4a8BEYRSmhcWWCGuPBjVp8OAGHvqNroVqAcsAPZcDztvLrT U4pQ== X-Gm-Message-State: AKaTC01ZuOJiyCTj/0VemPOSFkZO6DpW9YTMBfu3bAxX9HH3xIrkLsf1+UzM8RK1AP6scqoKibQ3GNNr7r7d9Q== X-Received: by 10.28.25.134 with SMTP id 128mr10107446wmz.37.1481371523379; Sat, 10 Dec 2016 04:05:23 -0800 (PST) MIME-Version: 1.0 Received: by 10.28.63.66 with HTTP; Sat, 10 Dec 2016 04:05:22 -0800 (PST) In-Reply-To: References: From: =?UTF-8?Q?Hampus_Sj=C3=B6berg?= Date: Sat, 10 Dec 2016 13:05:22 +0100 Message-ID: To: s7r@sky-ip.org, Bitcoin Protocol Discussion Content-Type: multipart/alternative; boundary=001a114d46b86e7b2105434cafd4 X-Spam-Status: No, score=-2.0 required=5.0 tests=BAYES_00,DKIM_SIGNED, DKIM_VALID, DKIM_VALID_AU, FREEMAIL_FROM, HTML_MESSAGE, RCVD_IN_DNSWL_NONE autolearn=ham version=3.3.1 X-Spam-Checker-Version: SpamAssassin 3.3.1 (2010-03-16) on smtp1.linux-foundation.org X-Mailman-Approved-At: Sat, 10 Dec 2016 13:57:30 +0000 Subject: Re: [bitcoin-dev] Managing block size the same way we do difficulty (aka Block75) X-BeenThere: bitcoin-dev@lists.linuxfoundation.org X-Mailman-Version: 2.1.12 Precedence: list List-Id: Bitcoin Protocol Discussion List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Sat, 10 Dec 2016 12:05:26 -0000 --001a114d46b86e7b2105434cafd4 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: quoted-printable > While disk space requirements might not be a big problem, block propagation time is Is block propagation time really still a problem? Compact blocks and FIBRE should help here. > Bitcoin, because its fundamental design, can scale by using offchain solutions. I agree. However, I believe that on-chain scaling will be needed regardless of which off-chain solution gains popularity. 2016-12-10 11:44 GMT+01:00 s7r via bitcoin-dev < bitcoin-dev@lists.linuxfoundation.org>: > t. khan via bitcoin-dev wrote: > > BIP Proposal - Managing Bitcoin=E2=80=99s block size the same way we do > > difficulty (aka Block75) > > > > The every two-week adjustment of difficulty has proven to be a > > reasonably effective and predictable way of managing how quickly blocks > > are mined. Bitcoin needs a reasonably effective and predictable way of > > managing the maximum block size. > > > > It=E2=80=99s clear at this point that human beings should not be involv= ed in the > > determination of max block size, just as they=E2=80=99re not involved i= n > > deciding the difficulty. > > > > Instead of setting an arbitrary max block size (1MB, 2MB, 8MB, etc.) or > > passing the decision to miners/pool operators, the max block size shoul= d > > be adjusted every two weeks (2016 blocks) using a system similar to how > > difficulty is calculated. > > > > Put another way: let=E2=80=99s stop thinking about what the max block s= ize > > should be and start thinking about how full we want the average block t= o > > be regardless of size. Over the last year, we=E2=80=99ve had averages o= f 75% or > > higher, so aiming for 75% full seems reasonable, hence naming this > > concept =E2=80=98Block75=E2=80=99. > > > > The target capacity over 2016 blocks would be 75%. If the last 2016 > > blocks are more than 75% full, add the difference to the max block size= . > > Like this: > > > > MAX_BLOCK_BASE_SIZE =3D 1000000 > > TARGET_CAPACITY =3D 750000 > > AVERAGE_OVER_CAP =3D average block size of last 2016 blocks minus > > TARGET_CAPACITY > > > > To check if a block is valid, =E2=89=A4 (MAX_BLOCK_BASE_SIZE + AVERAGE_= OVER_CAP) > > > > For example, if the last 2016 blocks are 85% full (average block is 850 > > KB), add 10% to the max block size. The new max block size would be > > 1,100 KB until the next 2016 blocks are mined, then reset and > > recalculate. The 1,000,000 byte limit that exists currently would > > remain, but would effectively be the minimum max block size. > > > > Another two weeks goes by, the last 2016 blocks are again 85% full, but > > now that means they average 935 KB out of the 1,100 KB max block size. > > This is 93.5% of the 1,000,000 byte limit, so 18.5% would be added to > > that to make the new max block size of 1,185 KB. > > > > Another two weeks passes. This time, the average block is 1,050 KB. The > > new max block size is calculated to 1,300 KB (as blocks were 105% full, > > minus the 75% capacity target, so 30% added to max block size). > > > > Repeat every 2016 blocks, forever. > > > > If Block75 had been applied at the difficulty adjustment on November > > 18th, the max block size would have been 1,080KB, as the average block > > during that period was 83% full, so 8% is added to the 1,000KB limit. > > The current size, after the December 2nd adjustment would be 1,150K. > > > > Block75 would allow the max block size to grow (or shrink) in response > > to transaction volume, and does so predictably, reasonably quickly, and > > in a method that prevents wild swings in block size or transaction fees= . > > It attempts to keep blocks at 75% total capacity over each two week > > period, the same way difficulty tries to keep blocks mined every ten > > minutes. It also keeps blocks as small as possible. > > > > Thoughts? > > > > -t.k. > > > > I like the idea. It is good wrt growing the max. block size > automatically without human action, but the main problem (or question) > is not how to grow this number, it is what number can the network > handle, considering both miners and users. While disk space requirements > might not be a big problem, block propagation time is. The time required > for a block to propagate in the network (or at least to all the miners) > is directly dependent of its size. If blocks take too much time to > propagate in the network, the orphan rate will increase in unpredictable > ways. For example if the internet speed in China is worse than in > Europe, and miners in China have more than 50% of the hashing power, > blocks mined by European miners might get orphaned. > > The system as described can also be gamed, by filling the network with > transactions. Miners have the monetary interest to include as many > transactions as possible in a block in order to collect the fees. > Regardless how you think about it, there has to be a maximum block size > that the network will allow as a consensus rule. Increasing it > dynamically based on transaction volume will reach a point where the > number got big enough that it broke things. Bitcoin, because its > fundamental design, can scale by using offchain solutions. > > > _______________________________________________ > bitcoin-dev mailing list > bitcoin-dev@lists.linuxfoundation.org > https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev > > --001a114d46b86e7b2105434cafd4 Content-Type: text/html; charset=UTF-8 Content-Transfer-Encoding: quoted-printable
> While disk space requirements might no= t be a big problem, block propagation time is

Is block propaga= tion time really still a problem? Compact blocks and FIBRE should help here= .

> Bitcoin, because its fundamental design, can scale by using o= ffchain solutions.

I agree.
However, I believe that o= n-chain scaling will be needed regardless of which off-chain solution gains= popularity.

2016-12-10 11:44 GMT+01:00 s7r via bitcoin-dev <<= a href=3D"mailto:bitcoin-dev@lists.linuxfoundation.org" target=3D"_blank">b= itcoin-dev@lists.linuxfoundation.org>:
t. khan via bitcoin-d= ev wrote:
> BIP Proposal - Managing Bitcoin=E2=80=99s block size the same way we d= o
> difficulty (aka Block75)
>
> The every two-week adjustment of difficulty has proven to be a
> reasonably effective and predictable way of managing how quickly block= s
> are mined. Bitcoin needs a reasonably effective and predictable way of=
> managing the maximum block size.
>
> It=E2=80=99s clear at this point that human beings should not be invol= ved in the
> determination of max block size, just as they=E2=80=99re not involved = in
> deciding the difficulty.
>
> Instead of setting an arbitrary max block size (1MB, 2MB, 8MB, etc.) o= r
> passing the decision to miners/pool operators, the max block size shou= ld
> be adjusted every two weeks (2016 blocks) using a system similar to ho= w
> difficulty is calculated.
>
> Put another way: let=E2=80=99s stop thinking about what the max block = size
> should be and start thinking about how full we want the average block = to
> be regardless of size. Over the last year, we=E2=80=99ve had averages = of 75% or
> higher, so aiming for 75% full seems reasonable, hence naming this
> concept =E2=80=98Block75=E2=80=99.
>
> The target capacity over 2016 blocks would be 75%. If the last 2016 > blocks are more than 75% full, add the difference to the max block siz= e.
> Like this:
>
> MAX_BLOCK_BASE_SIZE =3D 1000000
> TARGET_CAPACITY =3D 750000
> AVERAGE_OVER_CAP =3D average block size of last 2016 blocks minus
> TARGET_CAPACITY
>
> To check if a block is valid, =E2=89=A4 (MAX_BLOCK_BASE_SIZE + AVERAGE= _OVER_CAP)
>
> For example, if the last 2016 blocks are 85% full (average block is 85= 0
> KB), add 10% to the max block size. The new max block size would be > 1,100 KB until the next 2016 blocks are mined, then reset and
> recalculate. The 1,000,000 byte limit that exists currently would
> remain, but would effectively be the minimum max block size.
>
> Another two weeks goes by, the last 2016 blocks are again 85% full, bu= t
> now that means they average 935 KB out of the 1,100 KB max block size.=
> This is 93.5% of the 1,000,000 byte limit, so 18.5% would be added to<= br> > that to make the new max block size of 1,185 KB.
>
> Another two weeks passes. This time, the average block is 1,050 KB. Th= e
> new max block size is calculated to 1,300 KB (as blocks were 105% full= ,
> minus the 75% capacity target, so 30% added to max block size).
>
> Repeat every 2016 blocks, forever.
>
> If Block75 had been applied at the difficulty adjustment on November > 18th, the max block size would have been 1,080KB, as the average block=
> during that period was 83% full, so 8% is added to the 1,000KB limit.<= br> > The current size, after the December 2nd adjustment would be 1,150K. >
> Block75 would allow the max block size to grow (or shrink) in response=
> to transaction volume, and does so predictably, reasonably quickly, an= d
> in a method that prevents wild swings in block size or transaction fee= s.
> It attempts to keep blocks at 75% total capacity over each two week > period, the same way difficulty tries to keep blocks mined every ten > minutes. It also keeps blocks as small as possible.
>
> Thoughts?
>
> -t.k.
>

I like the idea. It is good wrt growing the max. block size
automatically without human action, but the main problem (or question)
is not how to grow this number, it is what number can the network
handle, considering both miners and users. While disk space requirements might not be a big problem, block propagation time is. The time required for a block to propagate in the network (or at least to all the miners)
is directly dependent of its size.=C2=A0 If blocks take too much time to propagate in the network, the orphan rate will increase in unpredictable ways. For example if the internet speed in China is worse than in
Europe, and miners in China have more than 50% of the hashing power,
blocks mined by European miners might get orphaned.

The system as described can also be gamed, by filling the network with
transactions. Miners have the monetary interest to include as many
transactions as possible in a block in order to collect the fees.
Regardless how you think about it, there has to be a maximum block size
that the network will allow as a consensus rule. Increasing it
dynamically based on transaction volume will reach a point where the
number got big enough that it broke things. Bitcoin, because its
fundamental design, can scale by using offchain solutions.


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bitcoin-dev mailing list
bitcoin-dev@lists.= linuxfoundation.org
https://lists.linuxfoundation.org= /mailman/listinfo/bitcoin-dev


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