Disclaimer: This is my editing, so there could be always some misunderstandings and exaggerations, plus many convos are from 'spec channel', so take it with a grain of salt, pls. + I added some recent convos afterward. -------------------------------------------------- 📷 Luigi Vigneri [IF]어제 오후 8:26 Giving the opportunity to everybody to set up/run nodes is one of IOTA's priority. A minimum amount of resources is obviously required to prevent easy attacks, but we are making sure that being active part of the IOTA network can be possible without crazy investments. we are building our solution in such a way that the protocol is fair and lightweight. 📷 Hans Moog [IF]어제 오후 11:24 IOTA is not "free to use" but it's - fee-less you have tokens? you can send them around for free 📷 Hans Moog [IF]어제 오후 11:25 you have no tokens? you have to pay to use the network 📷 lekanovic어제 오후 11:25 I think it is a smart way to avoid the spamming network problem 📷 Hans Moog [IF]어제 오후 11:26 owning tokens is essentially like owning a share of the actual network and the throughput it can process 📷 Hans Moog [IF]어제 오후 11:26**** if you don't need all of that yourself, you can rent it out to people and earn money 📷 Hans Moog [IF]어제 오후 11:27 mana = tokens * time since you own them simplified 📷 Hans Moog [IF]어제 오후 11:27 the longer you hold your tokens and the more you have, the more mana you have but every now and then you have to move them to "realize" that mana 📷 lekanovic어제 오후 11:28 Is there any other project that is using a Mana solution to the network fee problem ? 📷 Hans Moog [IF]어제 오후 11:28 nah the problem with current protocol is that they are leader based 📷 Hans Moog [IF]어제 오후 11:29 you need absolute consensus on who the current leaders are and what their influence in the network is that's how blockchains works 📷 Hans Moog [IF]어제 오후 11:29 if two block producers produce 2 blocks at the same time, then you have to choose which one wins and where everybody attaches their next block to IOTA works differently and doesn't need to choose a single leader we therefore have a much bigger flexibility of designing our sybil protection mechanisms in a way, mana is also supposed to solve the problem of "rewarding" the infrastructure instead of the validators in blockchain only the miners get all the money running a node and even if it's one that is used by a lot of people will only cost you won't get anything back no fees, nothing the miners get it all 📷 Hans Moog [IF]어제 오후 11:31 in IOTA, the node operators receive the mana which gives them a share of the network throughput 📷 Hans Moog [IF]어제 오후 11:32 because in blockchain you need to decide whose txs become part of the blocks and it's not really based on networking protocols like AIMD 📷 lekanovic어제 오후 11:33 And the more Mana your node have, the more trust your node has and you have more to say in the FPC, is that correct? 📷 Hans Moog [IF]어제 오후 11:33 yeah a node that has processed a lot of txs of its users will have more mana than other nodes and therefore a bigger say in deciding conflicts its a direct measure of "trust" by its users 📷 lekanovic어제 오후 11:34 And choosing committee for dRNG would be done on L1 protocol level? Everything regarding Mana will be L1 level, right? 📷 Hans Moog [IF]어제 오후 11:35 Yeah Mana is layer1, but will also be used as weight in L2 solutions like smart contracts 📷 lekanovic어제 오후 11:35 And you are not dependant on using SC to implement this 📷 Hans Moog [IF]어제 오후 11:35 No, you don't need smart contracts That's all the base layer 📷 Hans Moog [IF]어제 오후 11:37 'Time' actually takes into account things like decay So it doesn't just increase forever It's close to "Demurrage" in monetary theory 📷 lekanovic어제 오후 11:36 For projects to be able to connect to Polkadot or Cosmos, you need to get the state of the ledger. Will it be possible to get the Tangle state? If this would be possible, then I think it would be SUPER good for IOTA 📷 Hans Moog [IF]어제 오후 11:38 Yeah but polkadot is not connecting other dlts Just inhouse stuff 📷 Hyperware어제 오후 11:39 Is there still a cap on mana so that the rich don't get richer? 📷 Hans Moog [IF]어제 오후 11:39 Yes mana is capped 📷 TangleAccountant어제 오후 11:39 u/HansMoog [IF] My first thought is thatthe evolution of this renting system will lead to several big mana renting companies that pool together tons of token holders mana. That way businesses looking to rent mana just need to deal with a reliable mana renting company for years instead of a new individualevery couple of months (because life happens and you don't know if that individual will need to sell their IOTAs due to personal reasons). Any thoughts on this? 📷 Hans Moog [IF]어제 오후 11:41 u/TangleAccountantyes that is likely - but also not a bad thing - token holders will have a place to get their monthly payout and the companies that want to use the tangle without having tokens have a place to pay 📷 TangleAccountant어제 오후 11:42 Oh I completely agree.That's really cool. I'll take a stab at creating one of those companies in the US. 📷 Hans Moog [IF]어제 오후 11:42 And everybody who wants to run a node themselves or has tokens and wants use the tangle for free can do so But "leachers" that would want to use the network for free won't be able to do so I mean ultimately there will always be "fees", as there is no "free lunch". You have a certain amount of resources that a network can process and you have a certain demand. And that will naturally result in fees based on supply / demand what you can do however is to build a system where the actual users of that system that legitimately want to use it can do so for free, just because they already "invest" enough by having tokens or running infrastructure they are already contributing to the well-being of the network through these two aspects alone it would be stupid to ask those guys for additional fees and mana essentially tries to be such a measure of honesty among the users 📷 Hyperware어제 오후 11:47 It's interesting from an investment perspective that having tokens/mana is like owning a portion of the network. 📷 Hans Moog [IF]어제 오후 11:48 Yeah, you are owning a certain % of the throughput and whatever the price will ultimately be to execute on this network - you will earn proportionally but you have to keep in mind that we are trying to build the most efficient DLT that you could possibly ever build 📷 semibaron어제 오후 11:48 The whole mana (tokens) = share of network throuput sounds very much like EOS tbh Just that EOS uses DPoS 📷 Hans Moog [IF]어제 오후 11:50 yeah i mean there is really not too many new things under the sun - you can just tweak a few things here and there, when it comes to distributing resources DPoS is simply not very nice from a centralization aspect 📷 Hans Moog [IF]어제 오후 11:50 at least not the way EOS does it delegating weights is 1 thing but assuming that the weight will always be in a way that 21 "identities" run the whole network is bad in the current world you see a centralization of power but ultimately we want to build a future where the wealth is more evenly distributed and the same goes for voting power 📷 Hans Moog [IF]어제 오후 11:52 blockchain needs leader selection it only works with such a centralizing component IOTA doesn't need that it's delusional to say that IOTA wouldn't have any such centralization but maybe we get better than just a handselected nodes📷 📷 Phantom3D어제 오후 11:52 How would this affect a regular hodler without a node. Should i keep my tokens elsewere to generate mana and put the tokens to use? 📷 Hans Moog [IF]어제 오후 11:53 you can do whatever you want with your mana just make an account at a node you regularly use and use it to build up a reputation with that node to be able to use your funds for free or run a node yourself or rent it out to companies if you just hodl 📷 semibaron어제 오후 11:54 Will there be a build-in function into the node software / wallet to delegate ("sell") my mana? 📷 Hans Moog [IF]어제 오후 11:55 u/semibaronnot from the start - that would happen on a 2nd layer ------------------------------------------------------------------------------------------------------------ 📷 dom어제 오후 9:49
suddenly be incentive to hold iota?
to generate Mana 📷 Hyperware오늘 오전 4:21 The only thing I can really do, is believe that the IF have smart answers and are still building the best solutions they can for the sake of the vision 📷 dom오늘 오전 4:43 100% - which is why we're spending so much effort to communicate it more clearly now we'll do an AMA on this topic very soon 📷 M [s2]오늘 오전 4:54 u/dom please accept my question for the AMA: will IOTA remain a permissionless system and if so, how? 📷 dom오늘 오전 4:57 of course it remains permissionless 📷 dom오늘 오전 5:20 what is permissioned about it? is ETH or Bitcoin permissioned because you have to pay a transaction fee in their native token? 📷 Gerrit오늘 오전 5:24 How did your industry partners think about the mana solution and the fact they need to hold the token to ensure network throughput? 📷 dom오늘 오전 5:26 u/Gerritconsidering how the infrastructure, legal and regulatory frameworks are improving around the adoption and usage of crypto-currencies within large companies, I really think that we are introducing this concept exactly at the right time. It should make enterprise partners comfortable in using the permissionless network without much of a hurdle.They can always launch their own network if they want to ... 📷 Gerrit오늘 오전 5:27 Launching their own network can’t be what you want 📷 dom오늘 오전 5:27 exactly but that is what's happening with Ethereum and all the other networks they don't hold Ether tokens either. 📷 Gerrit오늘 오전 5:32 Will be very exciting to see if ongoing regulation will „allow“ companies to invest and hold the tokens. With upcoming custody solutions that would be a fantastic play. 📷 Hans Moog [IF]오늘 오전 5:34 It's still possible to send transactions even without mana - mana is only used in times of congestion to give the people that have more mana more priority there will still be sharding to keep the network free most of the time 📷 Hans Moog [IF]오늘 오전 5:35 but without a protection mechanism, somebody could just spam a lot of bullshit and you could break the network(수정됨) you need some form of protection from this 📷 M [s2]오늘 오전 5:36 u/HansMoog [IF]so when I have 0 Mana, I can still send transactions? This is actually the point where it got strange... 📷 Hans Moog [IF]오늘 오전 5:37 yes you can unless the network is close to its processing capabilities / being attacked by spammers then the nodes will favor the mana holders 📷 Hans Moog [IF]오늘 오전 5:37 but having mana is not a requirement for many years to come currently even people having fpgas can't spam that many tps and we will also have sharding implemented by then 📷 M [s2]오늘 오전 5:39 Thank youu/HansMoog [IF] ! This is the actually important piece of info! 📷 Basha오늘 오전 5:38 ok, i thought it was communicated that you need at least 1 mana to process a transaction. from the blogpost: "... a node with 0 mana can issue no transactions." maybe they meant during the congestion**, but if that's the case maybe you should add that** 📷 Hans Moog [IF]오늘 오전 5:42 its under the point "Congestion control:" yeah this only applies to spam attacks network not overloaded = no mana needed 📷 Hans Moog [IF]오늘 오전 5:43 if congested => favor txs from people who have the most skin in the game but sharding will try to keep the network non-congested most of the time - but there might be short periods of time where an attacker might bring the network close to its limits and of course its going to take a while to add this, so we need a protection mechanism till sharding is supported(수정됨) 📷 Hans Moog [IF]오늘 오전 6:36 I don't have a particular problem with EOS or their amount of validators - the reason why I think blockchain is inferior has really nothing to do with the way you do sybil protection and with validators I mean "voting nodes" I mean even bitcoin has less mining pools and you could compare mining pools to dpos in some sense where people assign their weight (in that case hashing power) to the corresponding mining pools so EOS is definitely not less decentralized than any other tech but having more identities having weight in the decision process definitely makes it harder to corrupt a reasonable fraction of the system and makes it easier to shard so its desirable to have this property(수정됨) ------------------------------------------------- 📷 Antonio Nardella [IF]오늘 오전 3:36
u/C3PO[92% Cooless]They could also add more git repos instead of the wallet one, and we would probably be #1 there too.. ---------------------------------------------------------------------------------- Disclaimer: I'm sorry, maybe I'm fueling some confusion through posting this mana-thing too soon, but, instead of erasing this posting, I'm adding recent convos. Certain things about mana seem to be not clear, yet. It would be better to wait for some official clarification. But, I hope the community gives its full support to IF, 'cause there could be always some bumps along the untouched, unchartered way. -------------------------------------------------------------------------------------- Recent Addition;
Billy Sanders [IF]오늘 오후 1:36
It's still possible to send transactions even without mana - mana is only used in times of congestion to give the people that have more mana more priority
u/HansMoog [IF] Im sorry Hans, but this is false in the current congestion control algorithm. No mana = no transactions. To be honest, we havent really tried to make it work so that you can sent transactions with no mana during ties with no congestion, but I dont see how you can enable this and still maintain the sybil protection required. u/LuigiVigneri [IF] What do you think?📷
Dave [EF]오늘 오후 2:19
Suggestion: Sidebar, then get back to us with the verdict.(수정됨)📷2📷
dom오늘 오후 2:27
No Mana no tx will definitely not be the case(수정됨)📷5📷7***[오후 2:28]***Billy probably means the previous rate control paper as it was written by Luigi. I'll clarify with them📷
Hans Moog [IF]오늘 오후 2:29
When was this decided u/BillySanders [IF] and by whom? Was this discussed at last resum when I wasnt there? The last info that I had was that the congestion control should only kick in when there is congestion?!?***[오후 2:29]***📷 📷 📷📷
Navin Ramachandran [IF]오늘 오후 2:30
Let's sidebar this discussion and return when we have agreement. Dave has the right idea
It's not a secret anymore that people are trying to mine private keys. Even if chances are astronomically low to find the right key, there is a chance. With a graphic card mining rig, a miner, with an investment of a few hundred $, can produce more than 300MH/s. Now imagine if someone is dedicating even more resources to find a private key. As I said, chances are low to achieve that. That's the beauty of mathematics. But there is a chance, and right now, people are trying to do so. There should be a way to prevent such behavior. I was thinking of a solution to this problem: A wallet should have a "wallet token/coin". When a user wants to make a transaction, let's say with Bitcoin, at first, it would need to make a transaction using the "wallet token". The "wallet token" has a private key of its own. The private key is a hash generated using a username, password, pin, and timestamp. The transaction would be automatically directed to the connected node if it's not specified differently. This transaction would produce a tx id. Just as now, when the user wants to make the Bitcoin transaction, the user would need to insert his private key. In this case, besides the private key, the wallet would ask for the tx id done with the "wallet token". Those two hashes would produce a unique, more extended, and one-time use, private key. This last private key would enable the wanted transaction. The private key miner would need to make countless transactions before even being able to find out if he got the right private key. Economically, it would not be profitable, unlike now, when he can effortlessly guess and try if the private key "fits" until it succeds. The "wallet token" would be created with some of these mechanisms:
Proof of work - mining like BTC
Proof of ownership - every wallet would produce small amounts of tokens over time.
Proof of transaction - Every transaction you do, you generate a new token for future transactions.
This is not a light and user-friendly solution. Its sole purpose is enhanced security. PS I'm not a techy guy. I don't know if this would require a completely new blockchain or it could be implemented in already existing wallets, coins, and protocols. Even if enormous numbers are reliable enough to keep our cryptocurrencies safe, faster and more efficient computers are being built every day. At this rate of progress, it not hard to imagine a super ASIC that could be able to mine a private key if left a few years to do its job. Not to mention the threat that quantum computers represent. I hope this will open a discussion in the crypto community to find the best solution to this problem. Or at least someone could explain why this is not an option or is a bad idea. Thank you Satoshi!
I've read about how some guy got his account blocked in Binance because he sent a transaction from Wasabi wallet. I've read it goes deep into several iterations after the mix. For instance: You send the coins into a mixer -> send it back to you to address A -> send it back to you to address B -> send it to an exchanger. Chainalaysis will notice the coins are mixed even if you've send it to 2 "clean addresses" before that. This is insanity. It could put people into trouble since one could mix the coins, send it to someone else, then this person sends it to an exchange where he is identified with his real name, and he ends up in some money laundering investigation scheme. Just nuts. Does it recognize all mixers? If you use helix, chipmixer or whatever else... how would it even know? Do they just keep adding more and more "blacklisted" addresses? In a long enough timeline the % of ending up in some "money laundering investigation" is increasingly higher. Until we have proper fungibility in Bitcoin, I wouldn't send a single satoshi to an exchanger that doesn't come from: 1) Coins you've bought from an exchange that uses Chainalysis (whitelisted by default since they had it on their custody wallet, one would assume those are safe) 2) Mined coins with no tx history These f*ckers are just developing an scheme to put people in trouble and confiscate coins. Use bisq outside of the above mentioned cases IMO. Just assume 0 privacy when dealing with your average big exchange. Better safe than sorry. Our only hope is smart devs crush their Chainalysis dreams where every coin has an ID.
Bitcoin is scarce, decentralized, and global digital money that cannot be censored.
Transactions generally cannot be reversed
Less than 21 million Bitcoin will exist
Bitcoin is highly divisible to allow for micro-transactions (up to 13 decimal places in a payment channel)
Bitcoin is an open, collaborative project that no company or government controls belonging to the people
Bitcoin is more than just money, but a secure timestamping ledger, payment rail, and smart contract platform
Do not respond to strangers messaging you with investment advice or offers and read how to avoid being scammed from the posts below.
Do not invest in Bitcoin until you do basic research, paid off all high interest debt, and have a emergency savings account of a stable fiat currency.
If investing do not expect to get rich quickly. You should expect to wait at least 1-2 years before taking profits. Bitcoin is currently very volatile. In the interim spend and replace Bitcoin because its a useful currency.
Beginners should avoid all mining and day trading until at least very familiar with Bitcoin. Mining is very professional(You cannot efficiently mine with your computer and need to buy special ASIC machines) and most people lose money day trading.
Never store your Bitcoins on an exchange or web wallet. Buy your bitcoins and withdraw it to your personal wallet where you actually own them instead of IOUs. Services like Robinhood and Revoult should be avoided because you cannot withdraw or use Bitcoin.
Make sure you make a backup of your wallet(software holding keys to your BTC) and preferably keep it offline and physical and private. Typically 12 to 24 words you write down on paper or metal. This onetime backup will restore all your keys, addresses , and Bitcoins on a new wallet if you lose your old wallet.
Beginners should avoid altcoins, tokens, and ICOs at least initially until they learn about Bitcoin. Most of these are scams and you should be familiar with the basics first. Bitcoin is referred to as BTC or XBT.
Note: Exchanges all have unique market prices and spreads so fees alone will not tell you the best rates. Best way is to directly compare the rates between exchanges. Buy fees above are for normal trading volumes. Verification and hold times can vary based upon lack of history, verification level or credit. More exchanges per location For a secure Decentralized Exchange (DEX) use https://bisq.network
Yesterday there was a transaction that received a lot of attention, as it spent the coinbase reward from a very early block. Here is the txID for it: f38d6f043c070ce9805ee81f46db4d32d0c9f148d62bbfbc0378bc5847c7dc70 Something interesting about this transaction that I haven't seen mentioned much online, is that whoever spent those coins is now officially the HODL world champion! What is meant by this, is that of all now-spent UTXOs, the coinbase reward they spent in that block now holds the record for being the longest-held. This is a pretty cool title to hold, the individual who owned that UTXO had been sitting on it since the absolute earliest days of the Bitcoin network. When that block was mined, BTC had no value, beyond fascinating a handful of crypto and computer nerds around the world. When spent, the output was worth almost $500,000 USD. Thats quite the HODL! In total, this UTXO was held for 627,404 blocks, which is about 11 years, 3 months, and 11 days. For more info, and a list of all the runner ups, see this post on stack exchange: https://bitcoin.stackexchange.com/questions/88517/what-was-the-longest-held-utxo-ever-spent/96055#96055
I got 3 maybe 4 reply like this after each request even though i provided screenshot with everything they need from transictions, fee rate confirmations number even outputs and for sure tx/ID still i get this message Thanks for letting us know. Can you please confirm the exact bitcoin amount you sent less the mining fee or the txID/hash? You can also send a screenshot so that I can easily locate it It used to be my legit supplier but now they seems like taking advantage of bitcoin and their support team just copy paste same thing over and over even though i provided all info they want. I pay with bitcoin and now they ignore me. Be careful on Wholecelium.com because it's up to them to scam you or not, yet you have nothing to complain, no difference than darkweb scammers but on clearnet version.
[M] - Mandatory. The update contains security fixes or contains fork update (wallet will stop working after some height reach). IMPORTANT: The latest version is 0.5.0.1 (contains minor update after 0.5.0.1)
Meet Ryo Currency 0.5.0.0 update - Fermi Paradox. In this update we will discuss 3 updates and do one announcement in the source code, 2 of them will be the first among any Cryptonote projects:
Wallet Scan speedup thanks to ECC and multi-threading library. Increased wallet scan speed when processing blockchain. New Elliptic Curve Cryptography library combined with implemented multi-threading that ustilises user's CPU results in reduced block verification up to 5x times compared with previous modes.
Plateau emission curve. Ryo's block reward changes every 6-months following a "Plateau Curve" distribution model. The modification of emission curve was initiated and debated with Ryo community. The following fork will finalise and implement that change.Notice: the difference between previous and this model will take effect at block height 394470.Read more about Ryo plateau emission curve
Various code edits, refactoring and minor fixes. There are multiple code fixes and edits that could be considered minor when looked in particular, but when looked in general - result in more than 35.000 lines of code being changed making core code more clean, optimised and bugfixed.Check Ryo Github repository
level 0 - everyone can look into your wallet and know your transactions (BTC level)
level 1 - nobody can see inside of your wallet, but each note has a serial number (yes, this is real life money level and in CN coins is implemented using stealth addresses)
level 2 - notes you have don't have a serial number to a guy that gave you one, and no-one can't know if you spent it later (In CN coins it is implemented using ring signatures - which are the failing ones)
What we are saying is over the past year or two, researches stripped ring signatures of their privacy properties so much, that we think it is no longer fair to say that we (or Monero, which is even worse since it has even smaller ring size compared to Ryo) or any other CN project that uses it - meet the level 2 of privacy. So, summarising in non-tech words what does it mean - when you are doing a transaction and want to imagine how it looks like in system:
bitcoin - "I spent output 10, worth 1 BTC and output 22, worth 0.5 BTC"
ring signature (current CN coins) - "I spent output 10, 14, 18 or 20, and output 16, 18, 19, or 22"
Please update your wallets before this block, or your previous wallet will stop synchronising after the block 362000:
Ryo Wallet Atom: download latest Atom installer when annouced update to version 1.5.0, start it and perform reinstall.
Ryo cli binaries: download or compile from source updated binaries from Github version 0.5.0.0 and unzip it, and place your wallet key files in new folder.
Pool owners and exchanges are notified about updating their nodes to the latest version before the fork.
Questions you might have regarding the fork:
What will happen with mining algorithm - will it change or what does "fork" mean - coin is split on 2? No, "fork" basically means major code update that is being activated on a specified block height. There will be no mining algorithm change or chainsplit.
Ryo roadmap indicates that you had in plans reaching 100x ring sizes. In light of future introduction of ZK-proofs does it mean that this is not aplicable? Yes, we eventually will be replacing ring signature technology on ZK-proofs, which is more fundamental change than trying to "beat dead horse" with ring signatures.
What about atomic swaps? Ryo roadmap indicates it being planned, is it still possible with introducing ZK-proofs? Yes it is! And we aim to implement this feature after all necessary updates in core code. It is important to have everything implemented and tested before adding that feature.
What is a ZK-proof? ZK stands for zero-knowledge. In cryptography, a zero-knowledge proof is a method by which one party (the prover) can prove to another party (the verifier) that they know a value x, without conveying any information apart from the fact that they know the value xYou can read more about zero-knowledge proof (with real life examples) here.
Will blockchain grow faster (what about tx size) when moving to ZK-proofs? Overall, transactions and blocks using ZK-proofs will be even smaller in size than pre-fork ring signatures with bulletproofs! Plus it enables transactions to be aggregated together - this is obviously a major scalability gain for Ryo Currency.
I heard or as far I understand that ZK-proofs are somewhat less private? Does it mean that you are not privacy-oriented project anymore? No, in short - we decided to do this change to second gen. ZK-proofs, because ring signatures as is are too weak on providing enough for us default level of privacy and overall are considered now as an obsolete technology. So we don't want to say that we have a privacy level of 2, when research shows that it is not.
Ok, after 0.5.0.0 fork - will we be using uniform payment ID-s to do transactions on exchanges? Yes. There are no changes regarding usage of payment ID-s and integrated addresses. We will be still using ring signatures, but also are announcing our goal on moving to ZK-proofs.
What else is there in plans/ideas you have in development of Ryo? Besides all plans and development ongoing with Ryo (wallets, infrastructure, core code and researches) we also developed and improve Mining platform RagerX. It is a all-in-one mining platform that unites a miner, pplns pool, OS, GUI flasher utillity, pool frontend and has advanced social features as well as 2 level affiliate program. In observable future we will add Cryptonight-GPU mining possibillity.We are implementing RagerX so people can mine CPU coins and Ryo simultaneously. Which means more eyes on Ryo, especially from fresh members.
Are the ring signature issues that have been discovered are applicable to other ring signature based coins like Monero? Yes.
Technical: A Brief History of Payment Channels: from Satoshi to Lightning Network
Who cares about political tweets from some random country's president when payment channels are a much more interesting and are actually capable of carrying value? So let's have a short history of various payment channel techs!
Generation 0: Satoshi's Broken nSequence Channels
Because Satoshi's Vision included payment channels, except his implementation sucked so hard we had to go fix it and added RBF as a by-product. Originally, the plan for nSequence was that mempools would replace any transaction spending certain inputs with another transaction spending the same inputs, but only if the nSequence field of the replacement was larger. Since 0xFFFFFFFF was the highest value that nSequence could get, this would mark a transaction as "final" and not replaceable on the mempool anymore. In fact, this "nSequence channel" I will describe is the reason why we have this weird rule about nLockTime and nSequence. nLockTime actually only works if nSequence is not 0xFFFFFFFF i.e. final. If nSequence is 0xFFFFFFFF then nLockTime is ignored, because this if the "final" version of the transaction. So what you'd do would be something like this:
You go to a bar and promise the bartender to pay by the time the bar closes. Because this is the Bitcoin universe, time is measured in blockheight, so the closing time of the bar is indicated as some future blockheight.
For your first drink, you'd make a transaction paying to the bartender for that drink, paying from some coins you have. The transaction has an nLockTime equal to the closing time of the bar, and a starting nSequence of 0. You hand over the transaction and the bartender hands you your drink.
For your succeeding drink, you'd remake the same transaction, adding the payment for that drink to the transaction output that goes to the bartender (so that output keeps getting larger, by the amount of payment), and having an nSequence that is one higher than the previous one.
Eventually you have to stop drinking. It comes down to one of two possibilities:
You drink until the bar closes. Since it is now the nLockTime indicated in the transaction, the bartender is able to broadcast the latest transaction and tells the bouncers to kick you out of the bar.
You wisely consider the state of your liver. So you re-sign the last transaction with a "final" nSequence of 0xFFFFFFFF i.e. the maximum possible value it can have. This allows the bartender to get his or her funds immediately (nLockTime is ignored if nSequence is 0xFFFFFFFF), so he or she tells the bouncers to let you out of the bar.
Now that of course is a payment channel. Individual payments (purchases of alcohol, so I guess buying coffee is not in scope for payment channels). Closing is done by creating a "final" transaction that is the sum of the individual payments. Sure there's no routing and channels are unidirectional and channels have a maximum lifetime but give Satoshi a break, he was also busy inventing Bitcoin at the time. Now if you noticed I called this kind of payment channel "broken". This is because the mempool rules are not consensus rules, and cannot be validated (nothing about the mempool can be validated onchain: I sigh every time somebody proposes "let's make block size dependent on mempool size", mempool state cannot be validated by onchain data). Fullnodes can't see all of the transactions you signed, and then validate that the final one with the maximum nSequence is the one that actually is used onchain. So you can do the below:
Become friends with Jihan Wu, because he owns >51% of the mining hashrate (he totally reorged Bitcoin to reverse the Binance hack right?).
Slip Jihan Wu some of the more interesting drinks you're ordering as an incentive to cooperate with you. So say you end up ordering 100 drinks, you split it with Jihan Wu and give him 50 of the drinks.
When the bar closes, Jihan Wu quickly calls his mining rig and tells them to mine the version of your transaction with nSequence 0. You know, that first one where you pay for only one drink.
Because fullnodes cannot validate nSequence, they'll accept even the nSequence=0 version and confirm it, immutably adding you paying for a single alcoholic drink to the blockchain.
The bartender, pissed at being cheated, takes out a shotgun from under the bar and shoots at you and Jihan Wu.
Jihan Wu uses his mystical chi powers (actually the combined exhaust from all of his mining rigs) to slow down the shotgun pellets, making them hit you as softly as petals drifting in the wind.
The bartender mutters some words, clothes ripping apart as he or she (hard to believe it could be a she but hey) turns into a bear, ready to maul you for cheating him or her of the payment for all the 100 drinks you ordered from him or her.
Steely-eyed, you stand in front of the bartender-turned-bear, daring him to touch you. You've watched Revenant, you know Leonardo di Caprio could survive a bear mauling, and if some posh actor can survive that, you know you can too. You make a pose. "Drunken troll logic attack!"
I think I got sidetracked here.
Bears are bad news.
You can't reasonably invoke "Satoshi's Vision" and simultaneously reject the Lightning Network because it's not onchain. Satoshi's Vision included a half-assed implementation of payment channels with nSequence, where the onchain transaction represented multiple logical payments, exactly what modern offchain techniques do (except modern offchain techniques actually work). nSequence (the field, but not its modern meaning) has been in Bitcoin since BitCoin For Windows Alpha 0.1.0. And its original intent was payment channels. You can't get nearer to Satoshi's Vision than being a field that Satoshi personally added to transactions on the very first public release of the BitCoin software, like srsly.
Miners can totally bypass mempool rules. In fact, the reason why nSequence has been repurposed to indicate "optional" replace-by-fee is because miners are already incentivized by the nSequence system to always follow replace-by-fee anyway. I mean, what do you think those drinks you passed to Jihan Wu are, other than the fee you pay him to mine a specific version of your transaction?
Satoshi made mistakes. The original design for nSequence is one of them. Today, we no longer use nSequence in this way. So diverging from Satoshi's original design is part and parcel of Bitcoin development, because over time, we learn new lessons that Satoshi never knew about. Satoshi was an important landmark in this technology. He will not be the last, or most important, that we will remember in the future: he will only be the first.
Incentive-compatible time-limited unidirectional channel; or, Satoshi's Vision, Fixed (if transaction malleability hadn't been a problem, that is). Now, we know the bartender will turn into a bear and maul you if you try to cheat the payment channel, and now that we've revealed you're good friends with Jihan Wu, the bartender will no longer accept a payment channel scheme that lets one you cooperate with a miner to cheat the bartender. Fortunately, Jeremy Spilman proposed a better way that would not let you cheat the bartender. First, you and the bartender perform this ritual:
You get some funds and create a transaction that pays to a 2-of-2 multisig between you and the bartender. You don't broadcast this yet: you just sign it and get its txid.
You create another transaction that spends the above transaction. This transaction (the "backoff") has an nLockTime equal to the closing time of the bar, plus one block. You sign it and give this backoff transaction (but not the above transaction) to the bartender.
The bartender signs the backoff and gives it back to you. It is now valid since it's spending a 2-of-2 of you and the bartender, and both of you have signed the backoff transaction.
Now you broadcast the first transaction onchain. You and the bartender wait for it to be deeply confirmed, then you can start ordering.
The above is probably vaguely familiar to LN users. It's the funding process of payment channels! The first transaction, the one that pays to a 2-of-2 multisig, is the funding transaction that backs the payment channel funds. So now you start ordering in this way:
For your first drink, you create a transaction spending the funding transaction output and sending the price of the drink to the bartender, with the rest returning to you.
You sign the transaction and pass it to the bartender, who serves your first drink.
For your succeeding drinks, you recreate the same transaction, adding the price of the new drink to the sum that goes to the bartender and reducing the money returned to you. You sign the transaction and give it to the bartender, who serves you your next drink.
At the end:
If the bar closing time is reached, the bartender signs the latest transaction, completing the needed 2-of-2 signatures and broadcasting this to the Bitcoin network. Since the backoff transaction is the closing time + 1, it can't get used at closing time.
If you decide you want to leave early because your liver is crying, you just tell the bartender to go ahead and close the channel (which the bartender can do at any time by just signing and broadcasting the latest transaction: the bartender won't do that because he or she is hoping you'll stay and drink more).
If you ended up just hanging around the bar and never ordering, then at closing time + 1 you broadcast the backoff transaction and get your funds back in full.
Now, even if you pass 50 drinks to Jihan Wu, you can't give him the first transaction (the one which pays for only one drink) and ask him to mine it: it's spending a 2-of-2 and the copy you have only contains your own signature. You need the bartender's signature to make it valid, but he or she sure as hell isn't going to cooperate in something that would lose him or her money, so a signature from the bartender validating old state where he or she gets paid less isn't going to happen. So, problem solved, right? Right? Okay, let's try it. So you get your funds, put them in a funding tx, get the backoff tx, confirm the funding tx... Once the funding transaction confirms deeply, the bartender laughs uproariously. He or she summons the bouncers, who surround you menacingly. "I'm refusing service to you," the bartender says. "Fine," you say. "I was leaving anyway;" You smirk. "I'll get back my money with the backoff transaction, and posting about your poor service on reddit so you get negative karma, so there!" "Not so fast," the bartender says. His or her voice chills your bones. It looks like your exploitation of the Satoshi nSequence payment channel is still fresh in his or her mind. "Look at the txid of the funding transaction that got confirmed." "What about it?" you ask nonchalantly, as you flip open your desktop computer and open a reputable blockchain explorer. What you see shocks you. "What the --- the txid is different! You--- you changed my signature?? But how? I put the only copy of my private key in a sealed envelope in a cast-iron box inside a safe buried in the Gobi desert protected by a clan of nomads who have dedicated their lives and their childrens' lives to keeping my private key safe in perpetuity!" "Didn't you know?" the bartender asks. "The components of the signature are just very large numbers. The sign of one of the signature components can be changed, from positive to negative, or negative to positive, and the signature will remain valid. Anyone can do that, even if they don't know the private key. But because Bitcoin includes the signatures in the transaction when it's generating the txid, this little change also changes the txid." He or she chuckles. "They say they'll fix it by separating the signatures from the transaction body. They're saying that these kinds of signature malleability won't affect transaction ids anymore after they do this, but I bet I can get my good friend Jihan Wu to delay this 'SepSig' plan for a good while yet. Friendly guy, this Jihan Wu, it turns out all I had to do was slip him 51 drinks and he was willing to mine a tx with the signature signs flipped." His or her grin widens. "I'm afraid your backoff transaction won't work anymore, since it spends a txid that is not existent and will never be confirmed. So here's the deal. You pay me 99% of the funds in the funding transaction, in exchange for me signing the transaction that spends with the txid that you see onchain. Refuse, and you lose 100% of the funds and every other HODLer, including me, benefits from the reduction in coin supply. Accept, and you get to keep 1%. I lose nothing if you refuse, so I won't care if you do, but consider the difference of getting zilch vs. getting 1% of your funds." His or her eyes glow. "GENUFLECT RIGHT NOW." Lesson learned?
Payback's a bitch.
Transaction malleability is a bitchier bitch. It's why we needed to fix the bug in SegWit. Sure, MtGox claimed they were attacked this way because someone kept messing with their transaction signatures and thus they lost track of where their funds went, but really, the bigger impetus for fixing transaction malleability was to support payment channels.
Yes, including the signatures in the hash that ultimately defines the txid was a mistake. Satoshi made a lot of those. So we're just reiterating the lesson "Satoshi was not an infinite being of infinite wisdom" here. Satoshi just gets a pass because of how awesome Bitcoin is.
CLTV-protected Spilman Channels
Using CLTV for the backoff branch. This variation is simply Spilman channels, but with the backoff transaction replaced with a backoff branch in the SCRIPT you pay to. It only became possible after OP_CHECKLOCKTIMEVERIFY (CLTV) was enabled in 2015. Now as we saw in the Spilman Channels discussion, transaction malleability means that any pre-signed offchain transaction can easily be invalidated by flipping the sign of the signature of the funding transaction while the funding transaction is not yet confirmed. This can be avoided by simply putting any special requirements into an explicit branch of the Bitcoin SCRIPT. Now, the backoff branch is supposed to create a maximum lifetime for the payment channel, and prior to the introduction of OP_CHECKLOCKTIMEVERIFY this could only be done by having a pre-signed nLockTime transaction. With CLTV, however, we can now make the branches explicit in the SCRIPT that the funding transaction pays to. Instead of paying to a 2-of-2 in order to set up the funding transaction, you pay to a SCRIPT which is basically "2-of-2, OR this singlesig after a specified lock time". With this, there is no backoff transaction that is pre-signed and which refers to a specific txid. Instead, you can create the backoff transaction later, using whatever txid the funding transaction ends up being confirmed under. Since the funding transaction is immutable once confirmed, it is no longer possible to change the txid afterwards.
Todd Micropayment Networks
The old hub-spoke model (that isn't how LN today actually works). One of the more direct predecessors of the Lightning Network was the hub-spoke model discussed by Peter Todd. In this model, instead of payers directly having channels to payees, payers and payees connect to a central hub server. This allows any payer to pay any payee, using the same channel for every payee on the hub. Similarly, this allows any payee to receive from any payer, using the same channel. Remember from the above Spilman example? When you open a channel to the bartender, you have to wait around for the funding tx to confirm. This will take an hour at best. Now consider that you have to make channels for everyone you want to pay to. That's not very scalable. So the Todd hub-spoke model has a central "clearing house" that transport money from payers to payees. The "Moonbeam" project takes this model. Of course, this reveals to the hub who the payer and payee are, and thus the hub can potentially censor transactions. Generally, though, it was considered that a hub would more efficiently censor by just not maintaining a channel with the payer or payee that it wants to censor (since the money it owned in the channel would just be locked uselessly if the hub won't process payments to/from the censored user). In any case, the ability of the central hub to monitor payments means that it can surveill the payer and payee, and then sell this private transactional data to third parties. This loss of privacy would be intolerable today. Peter Todd also proposed that there might be multiple hubs that could transport funds to each other on behalf of their users, providing somewhat better privacy. Another point of note is that at the time such networks were proposed, only unidirectional (Spilman) channels were available. Thus, while one could be a payer, or payee, you would have to use separate channels for your income versus for your spending. Worse, if you wanted to transfer money from your income channel to your spending channel, you had to close both and reshuffle the money between them, both onchain activities.
Poon-Dryja Lightning Network
Bidirectional two-participant channels. The Poon-Dryja channel mechanism has two important properties:
No time limit.
Both the original Satoshi and the two Spilman variants are unidirectional: there is a payer and a payee, and if the payee wants to do a refund, or wants to pay for a different service or product the payer is providing, then they can't use the same unidirectional channel. The Poon-Dryjam mechanism allows channels, however, to be bidirectional instead: you are not a payer or a payee on the channel, you can receive or send at any time as long as both you and the channel counterparty are online. Further, unlike either of the Spilman variants, there is no time limit for the lifetime of a channel. Instead, you can keep the channel open for as long as you want. Both properties, together, form a very powerful scaling property that I believe most people have not appreciated. With unidirectional channels, as mentioned before, if you both earn and spend over the same network of payment channels, you would have separate channels for earning and spending. You would then need to perform onchain operations to "reverse" the directions of your channels periodically. Secondly, since Spilman channels have a fixed lifetime, even if you never used either channel, you would have to periodically "refresh" it by closing it and reopening. With bidirectional, indefinite-lifetime channels, you may instead open some channels when you first begin managing your own money, then close them only after your lawyers have executed your last will and testament on how the money in your channels get divided up to your heirs: that's just two onchain transactions in your entire lifetime. That is the potentially very powerful scaling property that bidirectional, indefinite-lifetime channels allow. I won't discuss the transaction structure needed for Poon-Dryja bidirectional channels --- it's complicated and you can easily get explanations with cute graphics elsewhere. There is a weakness of Poon-Dryja that people tend to gloss over (because it was fixed very well by RustyReddit):
You have to store all the revocation keys of a channel. This implies you are storing 1 revocation key for every channel update, so if you perform millions of updates over your entire lifetime, you'd be storing several megabytes of keys, for only a single channel. RustyReddit fixed this by requiring that the revocation keys be generated from a "Seed" revocation key, and every key is just the application of SHA256 on that key, repeatedly. For example, suppose I tell you that my first revocation key is SHA256(SHA256(seed)). You can store that in O(1) space. Then for the next revocation, I tell you SHA256(seed). From SHA256(key), you yourself can compute SHA256(SHA256(seed)) (i.e. the previous revocation key). So you can remember just the most recent revocation key, and from there you'd be able to compute every previous revocation key. When you start a channel, you perform SHA256 on your seed for several million times, then use the result as the first revocation key, removing one layer of SHA256 for every revocation key you need to generate. RustyReddit not only came up with this, but also suggested an efficient O(log n) storage structure, the shachain, so that you can quickly look up any revocation key in the past in case of a breach. People no longer really talk about this O(n) revocation storage problem anymore because it was solved very very well by this mechanism.
Another thing I want to emphasize is that while the Lightning Network paper and many of the earlier presentations developed from the old Peter Todd hub-and-spoke model, the modern Lightning Network takes the logical conclusion of removing a strict separation between "hubs" and "spokes". Any node on the Lightning Network can very well work as a hub for any other node. Thus, while you might operate as "mostly a payer", "mostly a forwarding node", "mostly a payee", you still end up being at least partially a forwarding node ("hub") on the network, at least part of the time. This greatly reduces the problems of privacy inherent in having only a few hub nodes: forwarding nodes cannot get significantly useful data from the payments passing through them, because the distance between the payer and the payee can be so large that it would be likely that the ultimate payer and the ultimate payee could be anyone on the Lightning Network. Lessons learned?
We can decentralize if we try hard enough!
"Hubs bad" can be made "hubs good" if everybody is a hub.
Smart people can solve problems. It's kinda why they're smart.
After LN, there's also the Decker-Wattenhofer Duplex Micropayment Channels (DMC). This post is long enough as-is, LOL. But for now, it uses a novel "decrementing nSequence channel", using the new relative-timelock semantics of nSequence (not the broken one originally by Satoshi). It actually uses multiple such "decrementing nSequence" constructs, terminating in a pair of Spilman channels, one in both directions (thus "duplex"). Maybe I'll discuss it some other time. The realization that channel constructions could actually hold more channel constructions inside them (the way the Decker-Wattenhofer puts a pair of Spilman channels inside a series of "decrementing nSequence channels") lead to the further thought behind Burchert-Decker-Wattenhofer channel factories. Basically, you could host multiple two-participant channel constructs inside a larger multiparticipant "channel" construct (i.e. host multiple channels inside a factory). Further, we have the Decker-Russell-Osuntokun or "eltoo" construction. I'd argue that this is "nSequence done right". I'll write more about this later, because this post is long enough. Lessons learned?
Bitcoin offchain scaling is more powerful than you ever thought.
arriving at consensus AND distributing coins via burning Bitcoin instead of electricity/equipment to create permissionless, unfakeable, green, and trust minimized basis over every aspect of sidechain control.
creating Bitcoin peg from altcoin chain to mainchain (the hard direction) by allocating small percentage of Bitcoin intended for burning to reimbursing withdrawals, effectively making it a childchain/sidechain (no oracles or federated multisigs)
This is not an altcoin thread. I'm not making anything. The design discussed options for existing altcoins and new ways to built on top of Bitcoin inheriting some of its security guarantees. 2 parts: First, the design allows any altcoins to switch to securing themselves via Bitcoin instead of their own PoW or PoS with significant benefits to both altcoins and Bitcoin (and environment lol). Second, I explain how to create Bitcoin-pegged assets to turn altcoins into a Bitcoin sidechain equivalent. Let me know if this is of interest or if it exists, feel free to use or do anything with this, hopefully I can help.
how to create continuous sunk costs, permissionless entry, high cost of attacks?
how to do it without needing to build up a new source of hardware capital or energy costs?
how to peg another chain's token value w/o incentivized collusion risk of federation or oracles?
how to make sidechain use fully optional for all Bitcoin parties?
how to allow programmable Bitcoins w/ unlimited permissionless expressiveness w/o forcing mainchain into additional risks?
Solution to first few points:
Continuous Proof of Bitcoin Burn (CPoBB) to distribute supply control and sidechain consensus control to independent parties
Distributes an altcoin for permissionless access and sidechain-only sybil protection.
In case of sidechain block-producer censorship, Bitcoin's independent data availability makes sidechain nodes trivially aware
PoW altcoin switching to CPoBB would trade:
cost of capital and energy -> cost of burnt bitcoin
finality of their PoW -> finality of Bitcoin's PoW
impact on environment -> 0 impact on environment
unforgeable costliness of work -> unforgeable costliness of burn
contract logic can include conditions dependent on real Bitcoins as it's Bitcoin-aware
PoS altcoin switching to CPoBB would trade:
permissioned by coin holders entry -> permissionless entry by anyone with access to Bitcoin
no incentive to give up control or sell coins -> incentive to sell coins to cover the cost of burnt bitcoin
incentivized guaranteed centralization of control over time by staking -> PoW guarantees with same 0 environmental impact
nothing at stake -> recovering sunk costs at stake
contract logic can include conditions dependent on real Bitcoins as it's Bitcoin-aware
We already have a permissionless, compact, public, high-cost-backed finality base layer to build on top - Bitcoin! It will handle sorting, data availability, finality, and has something of value to use instead of capital or energy that's outside the sidechain - the Bitcoin coins. The sunk costs of PoW can be simulated by burning Bitcoin, similar to concept known as Proof of Burn where Bitcoin are sent to unspendable address. Unlike ICO's, no contributors can take out the Bitcoins and get rewards for free. Unlike PoS, entry into supply lies outside the alt-chain and thus doesn't depend on permission of alt-chain stake-coin holders. It's hard to find a more bandwidth or state size protective blockchain to use other than Bitcoin as well so altcoins can be Bitcoin-aware at little marginal difficulty - 10 years of history fully validates in under a day.
What are typical issues with Proof of Burn?
limited burn time window prevents permissionless entry in the future. how many years did it take for most heavily mined projects to become known and well reviewed? many. thus entry into control of supply that's vital to control of chain cannot be dependent on the earliest stage of the project. (counterparty)
"land grabs" - by having limited supply without continuous emission or inflation we encourage holding vs spending.
These issues can be fixed by having Proof of Burn be permanently accessible and continuous: Continuous Proof of Bitcoin Burn CPoBB
This should be required for any design for it to stay permissionless. Optional is constant fixed emission rate for altcoins not trying to be money if goal is to maximize accessibility. Since it's not depending on brand new PoW for security, they don't have to depend on massive early rewards giving disproportionate fraction of supply at earliest stage either. If 10 coins are created every block, after n blocks, at rate of 10 coins per block, % emission per block is = (100/n)%, an always decreasing number. Sidechain coin doesn't need to be scarce money, and could maximize distribution of control by encouraging further distribution. If no burners exist in a block, altcoin block reward is simply added to next block reward making emission predictable. Sidechain block content should be committed in burn transaction via a root of the merkle tree of its transactions. Sidechain state will depend on Bitcoin for finality and block time between commitment broadcasts. However, the throughput can be of any size per block, unlimited number of such sidechains can exist with their own rules and validation costs are handled only by nodes that choose to be aware of a specific sidechain by running its consensus compatible software. Important design decision is how can protocol determine the "true" side-block and how to distribute incentives. Simplest solution is to always :
Agree on the valid sidechain block matching the merkle root commitment for the largest amount of Bitcoin burnt, earliest inclusion in the bitcoin block as the tie breaker
Distribute block reward during the next side-block proportional to current amounts burnt
Bitcoin fee market serves as deterrent for spam submissions of blocks to validate
sidechain block reward is set always at 10 altcoins per block Bitcoin block contains the following content embedded and part of its transactions: tx11: burns 0.01 BTC & OP_RETURN tx56: burns 0.05 BTC & OP_RETURN ... <...root of valid sidechain block version 1> ... tx78: burns 1 BTC & OP_RETURN ... <...root of valid sidechain block version 2> ... tx124: burns 0.2 BTC & OP_RETURN ... <...root of INVALID sidechain block version 3> ...
Validity is deterministic by rules in client side node software (e.g. signature validation) so all nodes can independently see version 3 is invalid and thus burner of tx124 gets no reward allocated. The largest valid burn is from tx78 so version 2 is used for the blockchain in sidechain. The total valid burn is 1.06 BTC, so 10 altcoins to be distributed in the next block are 0.094, 0.472, 9.434 to owners of first 3 transactions, respectively. Censorship attack would require continuous costs in Bitcoin on the attacker and can be waited out. Censorship would also be limited to on-sidechain specific transactions as emission distribution to others CPoB contributors wouldn't be affected as blocks without matching coin distributions on sidechain wouldn't be valid. Additionally, sidechains can allow a limited number of sidechain transactions to happen via embedding transaction data inside Bitcoin transactions (e.g. OP_RETURN) as a way to use Bitcoin for data availability layer in case sidechain transactions are being censored on their network. Since all sidechain nodes are Bitcoin aware, it would be trivial to include. Sidechain blocks cannot be reverted without reverting Bitcoin blocks or hard forking the protocol used to derive sidechain state. If protocol is forked, the value of sidechain coins on each fork of sidechain state becomes important but Proof of Burn natively guarantees trust minimized and permissionless distribution of the coins, something inferior methods like obscure early distributions, trusted pre-mines, and trusted ICO's cannot do. More bitcoins being burnt is parallel to more hash rate entering PoW, with each miner or burner getting smaller amount of altcoins on average making it unprofitable to burn or mine and forcing some to exit. At equilibrium costs of equipment and electricity approaches value gained from selling coins just as at equilibrium costs of burnt coins approaches value of altcoins rewarded. In both cases it incentivizes further distribution to markets to cover the costs making burners and miners dependent on users via markets. In both cases it's also possible to mine without permission and mine at a loss temporarily to gain some altcoins without permission if you want to. Altcoins benefit by inheriting many of bitcoin security guarantees, bitcoin parties have to do nothing if they don't want to, but will see their coins grow more scarce through burning. The contributions to the fee market will contribute to higher Bitcoin miner rewards even after block reward is gone.
What is the ideal goal of the sidechains? Ideally to have a token that has the bi-directionally pegged value to Bitcoin and tradeable ~1:1 for Bitcoin that gives Bitcoin users an option of a different rule set without compromising the base chain nor forcing base chain participants to do anything different. Issues with value pegs:
federation based pegs allow collusion to steal bitcoins stored in multi-party controlled accounts
even if multisig participants are switched or weighted in some trust minimized manner, there's always incentive to collude and steal more
smart contract pegs (plasma, rollups) on base chain would require bitcoin nodes and miners to validate sidechain transactions and has to provide block content for availability (e.g. call data in rollups), making them not optional.
bitcoin nodes shouldn't be sidechain aware so impossible to peg the value
Let's get rid of the idea of needing Bitcoin collateral to back pegged coins 1:1 as that's never secure, independent, or scalable at same security level. As drive-chain design suggested the peg doesn't have to be fast, can take months, just needs to exist so other methods can be used to speed it up like atomic swaps by volunteers taking on the risk for a fee. In continuous proof of burn we have another source of Bitcoins, the burnt Bitcoins. Sidechain protocols can require some minor percentage (e.g. 20%) of burner tx value coins via another output to go to reimburse those withdrawing side-Bitcoins to Bitcoin chain until they are filled. If withdrawal queue is empty that % is burnt instead. Selection of who receives reimbursement is deterministic per burner. Percentage must be kept small as it's assumed it's possible to get up to that much discount on altcoin emissions. Let's use a really simple example case where each burner pays 20% of burner tx amount to cover withdrawal in exact order requested with no attempts at other matching, capped at half amount requested per payout. Example:
withdrawal queue: request1: 0.2 sBTC request2: 1.0 sBTC request3: 0.5 sBTC same block burners: tx burns 0.8 BTC, 0.1 BTC is sent to request1, 0.1 BTC is sent to request2 tx burns 0.4 BTC, 0.1 BTC is sent to request1 tx burns 0.08 BTC, 0.02 BTC is sent to request 1 tx burns 1.2 BTC, 0.1 BTC is sent to request1, 0.2 BTC is sent to request2 withdrawal queue: request1: filled with 0.32 BTC instead of 0.2 sBTC, removed from queue request2: partially-filled with 0.3 BTC out of 1.0 sBTC, 0.7 BTC remaining for next queue request3: still 0.5 sBTC
Withdrawal requests can either take long time to get to filled due to cap per burn or get overfilled as seen in "request1" example, hard to predict. Overfilling is not a big deal since we're not dealing with a finite source. The risk a user that chooses to use the sidechain pegged coin takes on is based on the rate at which they can expect to get paid based on value of altcoin emission that generally matches Bitcoin burn rate. If sidechain loses interest and nobody is burning enough bitcoin, the funds might be lost so the scale of risk has to be measured. If Bitcoins burnt per day is 0.5 BTC total and you hope to deposit or withdraw 5000 BTC, it might take a long time or never happen to withdraw it. But for amounts comparable or under 0.5 BTC/day average burnt with 5 side-BTC on sidechain outstanding total the risks are more reasonable. Deposits onto the sidechain are far easier - by burning Bitcoin in a separate known unspendable deposit address for that sidechain and sidechain protocol issuing matching amount of side-Bitcoin. Withdrawn bitcoins are treated as burnt bitcoins for sake of dividing block rewards as long as they followed the deterministic rules for their burn to count as valid and percentage used for withdrawals is kept small to avoid approaching free altcoin emissions by paying for your own withdrawals and ensuring significant unforgeable losses. Ideally more matching is used so large withdrawals don't completely block everyone else and small withdrawals don't completely block large withdrawals. Better methods should deterministically randomize assigned withdrawals via previous Bitcoin block hash, prioritized by request time (earliest arrivals should get paid earlier), and amount of peg outstanding vs burn amount (smaller burns should prioritize smaller outstanding balances). Fee market on bitcoin discourages doing withdrawals of too small amounts and encourages batching by burners. The second method is less reliable but already known that uses over-collateralized loans that create a oracle-pegged token that can be pegged to the bitcoin value. It was already used by its inventors in 2014 on bitshares (e.g. bitCNY, bitUSD, bitBTC) and similarly by MakerDAO in 2018. The upside is a trust minimized distribution of CPoB coins can be used to distribute trust over selection of price feed oracles far better than pre-mined single trusted party based distributions used in MakerDAO (100% pre-mined) and to a bit lesser degree on bitshares (~50% mined, ~50% premined before dpos). The downside is 2 fold: first the supply of BTC pegged coin would depend on people opening an equivalent of a leveraged long position on the altcoin/BTC pair, which is hard to convince people to do as seen by very poor liquidity of bitBTC in the past. Second downside is oracles can still collude to mess with price feeds, and while their influence might be limited via capped price changes per unit time and might compromise their continuous revenue stream from fees, the leverage benefits might outweight the losses. The use of continous proof of burn to peg withdrawals is superior method as it is simply a minor byproduct of "mining" for altcoins and doesn't depend on traders positions. At the moment I'm not aware of any market-pegged coins on trust minimized platforms or implemented in trust minimized way (e.g. premined mkr on premined eth = 2 sets of trusted third parties each of which with full control over the design). _______________________________________
Brief issues with current altchains options:
PoW: New PoW altcoins suffer high risk of attacks. Additional PoW chains require high energy and capital costs to create permissionless entry and trust minimized miners that are forever dependent on markets to hold them accountable. Using same algorithm or equipment as another chain or merge-mining puts you at a disadvantage by allowing some miners to attack and still cover sunk costs on another chain. Using a different algorithm/equipment requires building up the value of sunk costs to protect against attacks with significant energy and capital costs. Drive-chains also require miners to allow it by having to be sidechain aware and thus incur additional costs on them and validating nodes if the sidechain rewards are of value and importance.
PoS: PoS is permissioned (requires permission from internal party to use network or contribute to consensus on permitted scale), allows perpetual control without accountability to others, and incentivizes centralization of control over time. Without continuous source of sunk costs there's no reason to give up control. By having consensus entirely dependent on internal state network, unlike PoW but like private databases, cannot guarantee independent permissionless entry and thus cannot claim trust minimization. Has no built in distribution methods so depends on safe start (snapshot of trust minimized distributions or PoW period) followed by losing that on switch to PoS or starting off dependent on a single trusted party such as case in all significant pre-mines and ICO's.
Proof of Capacity: PoC is just shifting costs further to capital over PoW to achieve same guarantees.
PoW/PoS: Still require additional PoW chain creation. Strong dependence on PoS can render PoW irrelevant and thus inherit the worst properties of both protocols.
Tokens inherit all trust dependencies of parent blockchain and thus depend on the above.
Embedded consensus (counterparty, veriblock?, omni): Lacks mechanism for distribution, requires all tx data to be inside scarce Bitcoin block space so high cost to users instead of compensated miners. If you want to build a very expressive scripting language, might very hard & expensive to fit into Bitcoin tx vs CPoBB external content of unlimited size in a committed hash. Same as CPoBB is Bitcoin-aware so can respond to Bitcoin being sent but without source of Bitcoins like burning no way to do any trust minimized Bitcoin-pegs it can control fully.
Few extra notes from my talks with people:
fees must be high to be included in next block (and helps pay and bribe bitcoin miners), RBF use is encouraged to cancel late transactions
what if not enough burners, just passive nodes? you can burn smallest amount of bitcoin yourself when you have a transaction you want to go through
using commit hashes on bitcoin to lock altcoin state isn't new (e.g. kmd) but usually those rely on some federation or permissioned proof of stake mechanism with no real costs. this is combination of both.
this is not exactly like counterparty's embedded consensus as block data and transactions are outside Bitcoin, but consensus is derived with help of embedded on Bitcoin data.
deterministic randomness (e.g. via that block's hash) could be used to assign winning sidechain block weighted by amount burned to allow occasional blocks formed by others curbing success rate of censorship by highest burner
wants to transition away from using proof of burn via tunable proofs and native proof of work (whitepaper)
a dominant premine (trust maximized) relative to emission that defeats the purpose of distributing control over incentives (figure 3 in tokenpaper suggests premine still ~30%-70% by year 2050)
variable emission rate "adaptive mint and burn" makes supply unpredictable (and possibly gameable)
additional rewards that aren't trust minimized like "app mining" and "user incentives" possibly gameable with premine
election of a leader includes their own PoW to be elected even at start (5% cap), why lol?
blockstack also suggested use of randomness that depends on that block so Bitcoin miners that already spent energy mining that block can't just re-do it to get picked at no cost
if can burn bitcoins directly via op_return tx would help to use 1 less output and be provably prunable for utxo set (not sure if that's relayed as standard)
Main questions to you:
why not? (other than blocktime)
can this be done without an altcoin? (Not sure and don't think so w/o compromising unforgeable costliness and thus trust minimization. At least it's not using an altcoin that's clearly centralized.)
how to make it less detectable by Bitcoin miners? ( BMM could use some techniques described here: https://twitter.com/SomsenRuben/status/1210040270328254464 ) ( Perhaps since sidechain nodes receive proposed blocks independently and can figure out their hash, the commit message ( sidechain id + block commit + miner address) can be hashed one more time before its placed on Bitcoin, making miners unaware until after Bitcoin block is found that this is that sidechain's burn. Sidechain block producers would have to delay sidechain block propagation until after Bitcoin block is propagated, 10 minutes blocktime helps here. Hiding the fact that Bitcoin is burnt until after the fact is another possibly important matter. )
Should reward be split between all valid blocks or just winner gets all? (Blockstacks approach does not reward blocks marked by different from leader chaintip. That seems dangerous since sidechain tx sorting would be difficult to match and could take significant time to be compensated for perfectly valid work and coins burned. It doesn't seem as necessary in burning since we're not expending costs based on only one previous block version, the costs are independent of block assembly. Tradeoff is between making it easier for independent "mining" of sidechain and making it easier to validate for full nodes on sidechain)
Mirror world Network is the only new incentive layer public chain that has been mature to apply IPFS technology to actual storage. It uses block chain and distributed storage technology to build a truly visible IPFS storage system and an easy-to-use and available distributed file storage network.
What is a public chain?
Public chain refers to the blockchain that is open in the whole network and has no user authorization mechanism. The original intention of Nakamoto’s invention of bitcoin is to create an open and transparent environment for the whole network, while the public chain is the blockchain project most in line with Nakamoto’s concept. In the public chain, any node can join or leave the network at any time without any permission, with high freedom.
What is the difference between MW Network and other public chains?
MW Network has built-in distributed web system IPFS, Alibaba cloud OSS protocol, peer-to-peer P2P network, DHT distributed hash table, data encryption segmentation, multi chain incentive mechanism, block exchange and other technologies, and built a global distributed storage ecosystem with high security, high privacy, high availability and Multi Chain deployment. Its friendly and inclusive features make the current public chain and storage Network and personal nodes can be deployed and run on it.
What is the design principle of MW Network?
The protocol consists of the following parts: role, network, data, contribution quantification, reward and punishment, multi chain; MW Network uses data fragmentation, multi backup and data erasure to ensure data security and availability; The data owner has the ownership and full access to the data, and the data is encrypted and has privacy; There are corresponding quantitative standards and observable contributions to the contributions of all parties of the system; The data object is allowed to be in different states at different nodes, but its state can quickly converge to obtain the whole network consistency; It can detect the availability of the whole network and the state of the whole network of data objects, and repair it autonomously according to the policy to a certain extent; On the premise that the data owner knows and agrees, certain degree of supervision and audit can be conducted in certain specific fields or scenarios; And has a high scalability and ease of use API.
What is the consensus mechanism of MW Network?
The multi-chain consensus block generation method consists of Tx-Bundle and MW Network Block. This method allows each Mirror World mining pool to execute different consensus algorithms internally. A transaction package contains the transaction records in the Mirror World mining pool to which it belongs. The full-node generates MW Network block containing different transaction packages and publishes it to the network. Each Tx-Bundle needs to contain the identity information of the Mirror World mining pool and nodes: Node-ID, Pool-ID, Area -ID. A full node can only connect to one MW Network mining pool. Nodes connected to MW Network chain (MW Network mining pool 0) can be packaged to generate MW Network blocks. In the future, we will explore how to make MW Network mining pools individually packaged into blocks. A feasible implementation idea is to deploy at least one proxy node connected to the MW Network chain in each MW Network mining pool.
How is data stored on MW Network?
The client initiates a request to store data, and the request is recorded to the Store-Book. The client pays the storage fee, and system returns the matching Store. The client uploads the file to the storage node. After receiving the data, the storage node updates the global state of the Store-Book and the data object. Broadcast replica-task to the network according to the security policy. The remaining storage nodes perform data backup and check whether the number of copies defined by the security policy is met. If not, they continue to broadcast data backup tasks to the network.
How to retrieve the stored data?
The client initiates a data retrieval request, and system obtains the latest data object from the Bean-Book and returns it to the client and synchronizes the data retrieval request to the storage node. In active mode, the client establishes a connection with the storage node and obtains data from the storage node. In passive mode, storage nodes push data to clients. After the storage node retrieves data from the client, it updates the Store-Book. After receiving the data, the storage node updates the global state of the Store-Book and the Bean-Book. After the client retrieves the data, the client will update the Proof-Book to prove that the storage node does hold the data object.
What is the development plan of MW Network?
2019 MW Network in-depth research, start-up project, based on three-year R & D achievements and technical development, write more than 900000 lines of code to achieve business functions 2020 January 13: MW Network white paper release February 15: MW Network official conference April 10: MW Network test network officially launched May: MW Network high performance interactive implementation June: MW Network global node deployment, China establishes distributed storage data center July to August: MW Network main network goes online September to October: MW landing in mainstream exchange October to December: MW Network core code open source Future: global distributed storage infrastructure
What is the vision of MW Network?
At present, the vast majority of data are stored in the data centers of major Internet companies in a centralized way, which brings a series of problems: expensive, unable to store permanently, prone to data leakage, privacy snooping, data abuse, etc. goal of Mirror World Network is to build a huge network, provide high quality and low price file storage services for the public, and build an easy-to-use and available distributed landing application.
What are the values of MW Network?
Different from most of the decentralized application ideas, we believe that the world needs order. For example, the rapid development of China in the past 30 years has brought new order to the world, and at the same time promoted the competition and progress in various technologies. With the arrival of the Internet of things and the 5g Era, the digital formation of human life, the demand for global storage facilities will explode, and MW Network will be in the future Build a storage facility node group for 100 million people to provide global, high security, high privacy, high availability, permanent and low-cost storage services.
What is the future of MW Network?
After MW Network goes online, it is conservatively estimated that 10000 storage devices can be included in one year. Based on an average of 100t, the total capacity space will reach 1000pb. According to the low price estimate of traditional cloud storage industry, the first year’s value of Mirror World Network can reach US $100 million. With the operation of the project to access more storage devices, the project valuation will be more breakthrough.
What is MW Token?
MW is the built-in encrypted digital token in Mirror World Network, which is mainly used to build the storage ecosystem of the system and reward the roles that make more contributions to the system.
What is the mechanism of MW Token?
MW, as the anchor of the original token under the Multi Chain (MW Network mine pool) structure, is also used as a means of economic punishment to avoid malicious nodes and infinite cycle logic bombs that may appear in the smart contract. MW has the function of transaction destruction. When the user pays MW as the storage fee, we will burn MW according to a certain proportion of the circulation quantity, and some MW will be burnt It moves to the address of the black hole and functions as a deflation.
How is MW Token distributed?
MW token will be distributed to four important components of Mirror World Network , which play an important role in network maintenance, technology development and ecological construction of MW Network. 70% of MW is used for (Contribution Award) — providing and maintaining the MW Network of contributor data storage service award; 12% of MW is used for (Technology Research) — technology research and development, technology innovation, project deployment, distribution, etc; 10% of MW is used for (Genesis Investors) — ecological development, business development, cooperative support, etc; 8% of MW is used for (Foundation) — project long-term governance, community construction, etc.
How to unlock MW Token?
The contribution reward is released steadily every year, and the release is completed in 10 years; Technology research began to unlock and release after (September 21, 2020), with an average of 36 months; When the test network was officially launched (April 18, 2020), Genesis Investors began to unlock and release, which was completed in 24 months on average.
What are the benefits of MW Token?
With the advent of 5g and AI era, data will grow explosively. The annual data generated in the world will increase from 33zb in 2018 to 175zb in 2025, which is equivalent to 491eb per day.In the future, the growth of data will exceed our imagination. With the continuous development of MW Network network, the market demand for storage services will continue to increase, but the total amount of MW issuance is limited, which will inevitably lead to rising pressure. 17.MW Token can be generated by mining machine, or can participate in MW Token creation exchange, becoming the early owner of Later, MW Token will go online to the mainstream exchange, and can be purchased in the exchange.
At present, I am not familiar with the project. How to participate?
Which are your Top 5 favourite coins out of the Top 100? An analysis.
I am putting together my investment portfolio for 2018 and made a complete summary of the current Top 100. Interestingly, I noticed that all coins can be categorized into 12 markets. Which markets do you think will play the biggest role in the coming year? Here is a complete overview of all coins in an excel sheet including name, market, TPS, risk profile, time since launch (negative numbers mean that they are launching that many months in the future) and market cap. You can also sort by all of these fields of course. Coins written in bold are the strongest contenders within their market either due to having the best technology or having a small market cap and still excellent technology and potential. https://docs.google.com/spreadsheets/d/1s8PHcNvvjuy848q18py_CGcu8elRGQAUIf86EYh4QZo/edit#gid=0 The 12 markets are
Currency 13 coins
Platform 25 coins
Ecosystem 9 coins
Privacy 10 coins
Currency Exchange Tool 8 coins
Gaming & Gambling 5 coins
Misc 15 coins
Social Network 4 coins
Fee Token 3 coins
Decentralized Data Storage 4 coins
Cloud Computing 3 coins
Stable Coin 2 coins
Before we look at the individual markets, we need to take a look of the overall market and its biggest issue scalability first: Cryptocurrencies aim to be a decentralized currency that can be used worldwide. Its goal is to replace dollar, Euro, Yen, all FIAT currencies worldwide. The coin that will achieve that will be worth several trillion dollars. Bitcoin can only process 7 transactions per second (TPS). In order to replace all FIAT, it would need to perform at at least VISA levels, which usually processes around 3,000 TPS, up to 25,000 TPS during peak times and a maximum of 64,000 TPS. That means that this cryptocurrency would need to be able to perform at least several thousand TPS. However, a ground breaking technology should not look at current technology to set a goal for its use, i.e. estimating the number of emails sent in 1990 based on the number of faxes sent wasn’t a good estimate. For that reason, 10,000 TPS is the absolute baseline for a cryptocurrency that wants to replace FIAT. This brings me to IOTA, which wants to connect all 80 billion IoT devices that are expected to exist by 2025, which constantly communicate with each other, creating 80 billion or more transactions per second. This is the benchmark that cryptocurrencies should be aiming for. Currently, 8 billion devices are connected to the Internet. With its Lightning network recently launched, Bitcoin is realistically looking at 50,000 possible soon. Other notable cryptocurrencies besides IOTA and Bitcoin are Nano with 7,000 TPS already tested, Dash with several billion TPS possible with Masternodes, Neo, LISK and RHOC with 100,000 TPS by 2020, Ripple with 50,000 TPS, Ethereum with 10,000 with Sharding. However, it needs to be said that scalability usually goes at the cost of decentralization and security. So, it needs to be seen, which of these technologies can prove itself resilient and performant. Without further ado, here are the coins of the first market
Market 1 - Currency:
Bitcoin: 1st generation blockchain with currently bad scalability currently, though the implementation of the Lightning Network looks promising and could alleviate most scalability concerns, scalability and high energy use.
Ripple: Centralized currency that might become very successful due to tight involvement with banks and cross-border payments for financial institutions; banks and companies like Western Union and Moneygram (who they are currently working with) as customers customers. However, it seems they are aiming for more decentralization now.https://ripple.com/dev-blog/decentralization-strategy-update/. Has high TPS due to Proof of Correctness algorithm.
Bitcoin Cash: Bitcoin fork with the difference of having an 8 times bigger block size, making it 8 times more scalable than Bitcoin currently. Further block size increases are planned. Only significant difference is bigger block size while big blocks lead to further problems that don't seem to do well beyond a few thousand TPS. Opponents to a block size argue that increasing the block size limit is unimaginative, offers only temporary relief, and damages decentralization by increasing costs of participation. In order to preserve decentralization, system requirements to participate should be kept low. To understand this, consider an extreme example: very big blocks (1GB+) would require data center level resources to validate the blockchain. This would preclude all but the wealthiest individuals from participating.Community seems more open than Bitcoin's though.
Litecoin : Little brother of Bitcoin. Bitcoin fork with different mining algorithm but not much else.Copies everything that Bitcoin does pretty much. Lack of real innovation.
Dash: Dash (Digital Cash) is a fork of Bitcoin and focuses on user ease. It has very fast transactions within seconds, low fees and uses Proof of Service from Masternodes for consensus. They are currently building a system called Evolution which will allow users to send money using usernames and merchants will find it easy to integrate Dash using the API. You could say Dash is trying to be a PayPal of cryptocurrencies. Currently, cryptocurrencies must choose between decentralization, speed, scalability and can pick only 2. With Masternodes, Dash picked speed and scalability at some cost of decentralization, since with Masternodes the voting power is shifted towards Masternodes, which are run by Dash users who own the most Dash.
IOTA: 3rd generation blockchain called Tangle, which has a high scalability, no fees and instant transactions. IOTA aims to be the connective layer between all 80 billion IOT devices that are expected to be connected to the Internet in 2025, possibly creating 80 billion transactions per second or 800 billion TPS, who knows. However, it needs to be seen if the Tangle can keep up with this scalability and iron out its security issues that have not yet been completely resolved.
Nano: 3rd generation blockchain called Block Lattice with high scalability, no fees and instant transactions. Unlike IOTA, Nano only wants to be a payment processor and nothing else, for now at least. With Nano, every user has their own blockchain and has to perform a small amount of computing for each transaction, which makes Nano perform at 300 TPS with no problems and 7,000 TPS have also been tested successfully. Very promising 3rd gen technology and strong focus on only being the fastest currency without trying to be everything.
Decred: As mining operations have grown, Bitcoin’s decision-making process has become more centralized, with the largest mining companies holding large amounts of power over the Bitcoin improvement process. Decred focuses heavily on decentralization with their PoW Pos hybrid governance system to become what Bitcoin was set out to be. They will soon implement the Lightning Network to scale up. While there do not seem to be more differences to Bitcoin besides the novel hybrid consensus algorithm, which Ethereum, Aeternity and Bitcoin Atom are also implementing, the welcoming and positive Decred community and professoinal team add another level of potential to the coin.
Aeternity: We’ve seen recently, that it’s difficult to scale the execution of smart contracts on the blockchain. Crypto Kitties is a great example. Something as simple as creating and trading unique assets on Ethereum bogged the network down when transaction volume soared. Ethereum and Zilliqa address this problem with Sharding. Aeternity focuses on increasing the scalability of smart contracts and dapps by moving smart contracts off-chain. Instead of running on the blockchain, smart contracts on Aeternity run in private state channels between the parties involved in the contracts. State channels are lines of communication between parties in a smart contract. They don’t touch the blockchain unless they need to for adjudication or transfer of value. Because they’re off-chain, state channel contracts can operate much more efficiently. They don’t need to pay the network for every time they compute and can also operate with greater privacy. An important aspect of smart contract and dapp development is access to outside data sources. This could mean checking the weather in London, score of a football game, or price of gold. Oracles provide access to data hosted outside the blockchain. In many blockchain projects, oracles represent a security risk and potential point of failure, since they tend to be singular, centralized data streams. Aeternity proposes decentralizing oracles with their oracle machine. Doing so would make outside data immutable and unchangeable once it reaches Aeternity’s blockchain. Of course, the data source could still be hacked, so Aeternity implements a prediction market where users can bet on the accuracy and honesty of incoming data from various oracles.It also uses prediction markets for various voting and verification purposes within the platform. Aeternity’s network runs on on a hybrid of proof of work and proof of stake. Founded by a long-time crypto-enthusiast and early colleague of Vitalik Buterin, Yanislav Malahov. Promising concept though not product yet
Bitcoin Atom: Atomic Swaps and hybrid consenus. This looks like the only Bitcoin clone that actually is looking to innovate next to Bitcoin Cash.
Dogecoin: Litecoin fork, fantastic community, though lagging behind a bit in technology.
Bitcoin Gold: A bit better security than bitcoin through ASIC resistant algorithm, but that's it. Not that interesting.
Digibyte: Digibyte's PoS blockchain is spread over a 100,000+ servers, phones, computers, and nodes across the globe, aiming for the ultimate level of decentralization. DigiByte rebalances the load between the five mining algorithms by adjusting the difficulty of each so one algorithm doesn’t become dominant. The algorithm's asymmetric difficulty has gained notoriety and been deployed in many other blockchains.DigiByte’s adoption over the past four years has been slow. It’s still a relatively obscure currency compared its competitors. The DigiByte website offers a lot of great marketing copy and buzzwords. However, there’s not much technical information about what they have planned for the future. You could say Digibyte is like Bitcoin, but with shorter blocktimes and a multi-algorithm. However, that's not really a difference big enough to truly set themselves apart from Bitcoin, since these technologies could be implemented by any blockchain without much difficulty. Their decentralization is probably their strongest asset, however, this also change quickly if the currency takes off and big miners decide to go into Digibyte.
Bitcoin Diamond Asic resistant Bitcoin and Copycat
Market 2 - Platform
Most of the cryptos here have smart contracts and allow dapps (Decentralized apps) to be build on their platform and to use their token as an exchange of value between dapp services.
Ethereum: 2nd generation blockchain that allows the use of smart contracts. Bad scalability currently, though this concern could be alleviated by the soon to be implemented Lightning Network aka Plasma and its Sharding concept.
EOS: Promising technology that wants to be able do everything, from smart contracts like Ethereum, scalability similar to Nano with 1000 tx/second + near instant transactions and zero fees, to also wanting to be a platform for dapps. However, EOS doesn't have a product yet and everything is just promises still. Highly overvalued right now. However, there are lots of red flags, have dumped $500 million Ether over the last 2 months and possibly bought back EOS to increase the size of their ICO, which has been going on for over a year and has raised several billion dollars. All in all, their market cap is way too high for that and not even having a product.
Cardano: Similar to Ethereum/EOS, however, only promises made with no delivery yet, highly overrated right now. Interesting concept though. Market cap way too high for not even having a product. Somewhat promising technology.
VeChain: Singapore-based project that’s building a business enterprise platform and inventory tracking system. Examples are verifying genuine luxury goods and food supply chains. Has one of the strongest communities in the crypto world. Most hyped token of all, with merit though.
Neo: Neo is a platform, similar to Eth, but more extensive, allowing dapps and smart contracts, but with a different smart contract gas system, consensus mechanism (PoS vs. dBfT), governance model, fixed vs unfixed supply, expensive contracts vs nearly free contracts, different ideologies for real world adoption. There are currently only 9 nodes, each of which are being run by a company/entity hand selected by the NEO council (most of which are located in china) and are under contract. This means that although the locations of the nodes may differ, ultimately the neo council can bring them down due to their legal contracts. In fact this has been done in the past when the neo council was moving 50 million neo that had been locked up. Also dbft (or neo's implmentation of it) has failed underload causing network outages during major icos. The first step in decentralization is that the NEO Counsel will select trusted nodes (Universities, business partners, etc.) and slowly become less centralized that way. The final step in decentralization will be allowing NEO holders to vote for new nodes, similar to a DPoS system (ARK/EOS/LISK). NEO has a regulation/government friendly ideology. Finally they are trying to work undewith the Chinese government in regards to regulations. If for some reason they wanted it shut down, they could just shut it down.
Stellar: PoS system, similar goals as Ripple, but more of a platform than only a currency. 80% of Stellar are owned by Stellar.org still, making the currency centralized.
Ethereum classic: Original Ethereum that decided not to fork after a hack. The Ethereum that we know is its fork. Uninteresing, because it has a lot of less resources than Ethereum now and a lot less community support.
Ziliqa: Zilliqa is building a new way of sharding. 2400 tpx already tested, 10,000 tps soon possible by being linearly scalable with the number of nodes. That means, the more nodes, the faster the network gets. They are looking at implementing privacy as well.
QTUM: Enables Smart contracts on the Bitcoin blockchain. Useful.
Icon: Korean ethereum. Decentralized application platform that's building communities in partnership with banks, insurance providers, hospitals, and universities. Focused on ID verification and payments. No big differentiators to the other 20 Ethereums, except that is has a product. That is a plus. Maybe cheap alternative to Ethereum.
LISK: Lisk's difference to other BaaS is that side chains are independent to the main chain and have to have their own nodes. Similar to neo whole allows dapps to deploy their blockchain to. However, Lisk is currently somewhat centralized with a small group of members owning more than 50% of the delegated positions. Lisk plans to change the consensus algorithm for that reason in the near future.
Rchain: Similar to Ethereum with smart contract, though much more scalable at an expected 40,000 TPS and possible 100,000 TPS. Not launched yet. No product launched yet, though promising technology. Not overvalued, probably at the right price right now.
ARDR: Similar to Lisk. Ardor is a public blockchain platform that will allow people to utilize the blockchain technology of Nxt through the use of child chains. A child chain, which is a ‘light’ blockchain that can be customized to a certain extent, is designed to allow easy self-deploy for your own blockchain. Nxt claims that users will "not need to worry" about security, as that part is now handled by the main chain (Ardor). This is the chief innovation of Ardor. Ardor was evolved from NXT by the same company. NEM started as a NXT clone.
Ontology: Similar to Neo. Interesting coin
Bytom: Bytom is an interactive protocol of multiple byte assets. Heterogeneous byte-assets (indigenous digital currency, digital assets) that operate in different forms on the Bytom Blockchain and atomic assets (warrants, securities, dividends, bonds, intelligence information, forecasting information and other information that exist in the physical world) can be registered, exchanged, gambled and engaged in other more complicated and contract-based interoperations via Bytom.
Nxt: Similar to Lisk
Stratis: Different to LISK, Stratis will allow businesses and organizations to create their own blockchain according to their own needs, but secured on the parent Stratis chain. Stratis’s simple interface will allow organizations to quickly and easily deploy and/or test blockchain functionality of the Ethereum, BitShares, BitCoin, Lisk and Stratis environements.
Status: Status provides access to all of Ethereum’s decentralized applications (dapps) through an app on your smartphone. It opens the door to mass adoption of Ethereum dapps by targeting the fastest growing computer segment in the world – smartphone users.16. Ark: Fork of Lisk that focuses on a smaller feature set. Ark wallets can only vote for one delegate at a time which forces delegates to compete against each other and makes cartel formations incredibly hard, if not impossible.
Neblio: Similar to Neo, but 30x smaller market cap.
NEM: Is similar to Neo No marketing team, very high market cap for little clarilty what they do.
Bancor: Bancor is a Decentralized Liquidity Network that allows you to hold any Ethereum token and convert it to any other token in the network, with no counter party, at an automatically calculated price, using a simple web wallet.
Dragonchain: The Purpose of DragonChain is to help companies quickly and easily incorporate blockchain into their business applications. Many companies might be interested in making this transition because of the benefits associated with serving clients over a blockchain – increased efficiency and security for transactions, a reduction of costs from eliminating potential fraud and scams, etc.
Skycoin: Transactions with zero fees that take apparently two seconds, unlimited transaction rate, no need for miners and block rewards, low power usage, all of the usual cryptocurrency technical vulnerabilities fixed, a consensus mechanism superior to anything that exists, resistant to all conceivable threats (government censorship, community infighting, cybenucleaconventional warfare, etc). Skycoin has their own consensus algorithm known as Obelisk written and published academically by an early developer of Ethereum. Obelisk is a non-energy intensive consensus algorithm based on a concept called ‘web of trust dynamics’ which is completely different to PoW, PoS, and their derivatives. Skywire, the flagship application of Skycoin, has the ambitious goal of decentralizing the internet at the hardware level and is about to begin the testnet in April. However, this is just one of the many facets of the Skycoin ecosystem. Skywire will not only provide decentralized bandwidth but also storage and computation, completing the holy trinity of commodities essential for the new internet. Skycion a smear campaign launched against it, though they seem legit and reliable. Thus, they are probably undervalued.
Market 3 - Ecosystem
The 3rd market with 11 coins is comprised of ecosystem coins, which aim to strengthen the ease of use within the crypto space through decentralized exchanges, open standards for apps and more
Nebulas: Similar to how Google indexes webpages Nebulas will index blockchain projects, smart contracts & data using the Nebulas rank algorithm that sifts & sorts the data. Developers rewarded NAS to develop & deploy on NAS chain. Nebulas calls this developer incentive protocol – basically rewards are issued based on how often dapp/contract etc. is used, the more the better the rewards and Proof of devotion. Works like DPoS except the best, most economically incentivised developers (Bookkeeppers) get the forging spots. Ensuring brains stay with the project (Cross between PoI & PoS). 2,400 TPS+, DAG used to solve the inter-transaction dependencies in the PEE (Parallel Execution Environment) feature, first crypto Wallet that supports the Lightening Network.
Waves: Decentralized exchange and crowdfunding platform. Let’s companies and projects to issue and manage their own digital coin tokens to raise money.
Salt: Leveraging blockchain assets to secure cash loands. Plans to offer cash loans in traditional currencies, backed by your cryptocurrency assets. Allows lenders worldwide to skip credit checks for easier access to affordable loans.
CHAINLINK: ChainLink is a decentralized oracle service, the first of its kind. Oracles are defined as an ‘agent’ that finds and verifies real-world occurrences and submits this information to a blockchain to be used in smart contracts.With ChainLink, smart contract users can use the network’s oracles to retrieve data from off-chain application program interfaces (APIs), data pools, and other resources and integrate them into the blockchain and smart contracts. Basically, ChainLink takes information that is external to blockchain applications and puts it on-chain. The difference to Aeternity is that Chainlink deploys the smart contracts on the Ethereum blockchain while Aeternity has its own chain.
WTC: Combines blockchain with IoT to create a management system for supply chains Interesting
Ethos unifyies all cryptos. Ethos is building a multi-cryptocurrency phone wallet. The team is also building an investment diversification tool and a social network
Aion: Aion is the token that pays for services on the Aeternity platform.
USDT: is no cryptocurrency really, but a replacement for dollar for trading After months of asking for proof of dollar backing, still no response from Tether.
Market 4 - Privacy
The 4th market are privacy coins. As you might know, Bitcoin is not anonymous. If the IRS or any other party asks an exchange who is the identity behind a specific Bitcoin address, they know who you are and can track back almost all of the Bitcoin transactions you have ever made and all your account balances. Privacy coins aim to prevent exactly that through address fungability, which changes addresses constantly, IP obfuscation and more. There are 2 types of privacy coins, one with completely privacy and one with optional privacy. Optional Privacy coins like Dash and Nav have the advantage of more user friendliness over completely privacy coins such as Monero and Enigma.
Monero: Currently most popular privacy coin, though with a very high market cap. Since their privacy is all on chain, all prior transactions would be deanonymized if their protocol is ever cracked. This requires a quantum computing attack though. PIVX is better in that regard.
Zcash: A decentralized and open-source cryptocurrency that hide the sender, recipient, and value of transactions. Offers users the option to make transactions public later for auditing. Decent privacy coin, though no default privacy
Verge: Calls itself privacy coin without providing private transactions, multiple problems over the last weeks has a toxic community, and way too much hype for what they have.
Bytecoin: First privacy-focused cryptocurrency with anonymous transactions. Bytecoin’s code was later adapted to create Monero, the more well-known anonymous cryptocurrency. Has several scam accusations, 80% pre-mine, bad devs, bad tech
Bitcoin Private: A merge fork of Bitcoin and Zclassic with Zclassic being a fork of Zcash with the difference of a lack of a founders fee required to mine a valid block. This promotes a fair distribution, preventing centralized coin ownership and control. Bitcoin private offers the optional ability to keep the sender, receiver, and amount private in a given transaction. However, this is already offered by several good privacy coins (Monero, PIVX) and Bitcoin private doesn't offer much more beyond this.
Komodo: The Komodo blockchain platform uses Komodo’s open-source cryptocurrency for doing transparent, anonymous, private, and fungible transactions. They are then made ultra-secure using Bitcoin’s blockchain via a Delayed Proof of Work (dPoW) protocol and decentralized crowdfunding (ICO) platform to remove middlemen from project funding. Offers services for startups to create and manage their own Blockchains.
PIVX: As a fork of Dash, PIVX uses an advanced implementation of the Zerocoin protocol to provide it’s privacy. This is a form of zeroknowledge proofs, which allow users to spend ‘Zerocoins’ that have no link back to them. Unlike Zcash u have denominations in PIVX, so they can’t track users by their payment amount being equal to the amount of ‘minted’ coins, because everyone uses the same denominations. PIVX is also implementing Bulletproofs, just like Monero, and this will take care of arguably the biggest weakness of zeroknowledge protocols: the trusted setup.
Zcoin: PoW cryptocurrency. Private financial transactions, enabled by the Zerocoin Protocol. Zcoin is the first full implementation of the Zerocoin Protocol, which allows users to have complete privacy via Zero-Knowledge cryptographic proofs.
Enigma: Monero is to Bitcoin what enigma is to Ethereum. Enigma is for making the data used in smart contracts private. More of a platform for dapps than a currency like Monero. Very promising.
Navcoin: Like bitcoin but with added privacy and pos and 1,170 tps, but only because of very short 30 second block times. Though, privacy is optional, but aims to be more user friendly than Monero. However, doesn't really decide if it wants to be a privacy coin or not. Same as Zcash.Strong technology, non-shady team.
Tenx: Raised 80 million, offers cryptocurrency-linked credit cards that let you spend virtual money in real life. Developing a series of payment platforms to make spending cryptocurrency easier. However, the question is if full privacy coins will be hindered in growth through government regulations and optional privacy coins will become more successful through ease of use and no regulatory hindrance.
Market 5 - Currency Exchange Tool
Due to the sheer number of different cryptocurrencies, exchanging one currency for the other it still cumbersome. Further, merchants don’t want to deal with overcluttered options of accepting cryptocurrencies. This is where exchange tool like Req come in, which allow easy and simple exchange of currencies.
Cryptonex: Fiat and currency exchange between various blockchain services, similar to REQ.
QASH: Qash is used to fuel its liquid platform which will be an exchange that will distribute their liquidity pool. Its product, the Worldbook is a multi-exchange order book that matches crypto to crypto, and crypto to fiat and the reverse across all currencies. E.g., someone is selling Bitcoin is USD on exchange1 not owned by Quoine and someone is buying Bitcoin in EURO on exchange 2 not owned by Quoine. If the forex conversions and crypto conversions match then the trade will go through and the Worldbook will match it, it'll make the sale and the purchase on either exchange and each user will get what they wanted, which means exchanges with lower liquidity if they join the Worldbook will be able to fill orders and take trade fees they otherwise would miss out on.They turned it on to test it a few months ago for an hour or so and their exchange was the top exchange in the world by 4x volume for the day because all Worldbook trades ran through it. Binance wants BNB to be used on their one exchange. Qash wants their QASH token embedded in all of their partners. More info here https://www.reddit.com/CryptoCurrency/comments/8a8lnwhich_are_your_top_5_favourite_coins_out_of_the/dwyjcbb/?context=3
Kyber: network Exchange between cryptocurrencies, similar to REQ. Features automatic coin conversions for payments. Also offers payment tools for developers and a cryptocurrency wallet.
Achain: Building a boundless blockchain world like Req .
Req: Exchange between cryptocurrencies.
Bitshares: Exchange between cryptocurrencies. Noteworthy are the 1.5 second average block times and throughput potential of 100,000 transactions per second with currently 2,400 TPS having been proven. However, bitshares had several Scam accusations in the past.
Loopring: A protocol that will enable higher liquidity between exchanges and personal wallets.
ZRX: Open standard for dapps. Open, permissionless protocol allowing for ERC20 tokens to be traded on the Ethereum blockchain. In 0x protocol, orders are transported off-chain, massively reducing gas costs and eliminating blockchain bloat. Relayers help broadcast orders and collect a fee each time they facilitate a trade. Anyone can build a relayer.
Market 6 - Gaming
With an industry size of $108B worldwide, Gaming is one of the largest markets in the world. For sure, cryptocurrencies will want to have a share of that pie.
Storm: Mobile game currency on a platform with 9 million players.
Fun: A platform for casino operators to host trustless, provably-fair gambling through the use of smart contracts, as well as creating their own implementation of state channels for scalability.
Electroneum: Mobile game currency They have lots of technical problems, such as several 51% attacks
Wax: Marketplace to trade in-game items
Market 7 - Misc
There are various markets being tapped right now. They are all summed up under misc.
OMG: Omise is designed to enable financial services for people without bank accounts. It works worldwide and with both traditional money and cryptocurrencies.
Power ledger: Australian blockchain-based cryptocurrency and energy trading platform that allows for decentralized selling and buying of renewable energy. Unique market and rather untapped market in the crypto space.
Populous: A platform that connects business owners and invoice buyers without middlemen. Invoice sellers get cash flow to fund their business and invoice buyers earn interest. Similar to OMG, small market.
Monacoin: The first Japanese cryptocurrency. Focused on micro-transactions and based on a popular internet meme of a type-written cat. This makes it similar to Dogecoin. Very niche, tiny market.
Revain: Legitimizing reviews via the blockchain. Interesting concept, though market not as big.
Augur: Platform to forecast and make wagers on the outcome of real-world events (AKA decentralized predictions). Uses predictions for a “wisdom of the crowd” search engine. Not launched yet.
Substratum: Revolutionzing hosting industry via per request billing as a decentralized internet hosting system. Uses a global network of private computers to create the free and open internet of the future. Participants earn cryptocurrency. Interesting concept.
Veritaseum: Is supposed to be a peer to peer gateway, though it looks like very much like a scam.
TRON: Tronix is looking to capitalize on ownership of internet data to content creators. However, they plagiarized their white paper, which is a no go. They apologized, so it needs to be seen how they will conduct themselves in the future. Extremely high market cap for not having a product, nor proof of concept.
Syscoin: A cryptocurrency with a decentralized marketplace that lets people buy and sell products directly without third parties. Trying to remove middlemen like eBay and Amazon.
Hshare: Most likely scam because of no code changes, most likely pump and dump scheme, dead community.
BAT: An Ethereum-based token that can be exchanged between content creators, users, and advertisers. Decentralized ad-network that pays based on engagement and attention.
Dent: Decentralizeed exchange of mobile data, enabling mobile data to be marketed, purchased or distributed, so that users can quickly buy or sell data from any user to another one.
Ncash: End to end encrypted Identification system for retailers to better serve their customers .
Factom Secure record-keeping system that allows companies to store their data directly on the Blockchain. The goal is to make records more transparent and trustworthy .
Market 8 - Social network
Web 2.0 is still going strong and Web 3.0 is not going to ignore it. There are several gaming tokens already out there and a few with decent traction already, such as Steem, which is Reddit with voting through money is a very interesting one.
Mithril: As users create content via social media, they will be rewarded for their contribution, the better the contribution, the more they will earn
Steem: Like Reddit, but voting with money. Already launched product and Alexa rank 1,000 Thumbs up.
Rdd: Reddcoin makes the process of sending and receiving money fun and rewarding for everyone. Reddcoin is dedicated to one thing – tipping on social networks as a way to bring cryptocurrency awareness and experience to the general public.
Kin: Token for the platform Kik. Kik has a massive user base of 400 million people. Replacing paying with FIAT with paying with KIN might get this token to mass adoption very quickly.
Market 9 - Fee token
Popular exchanges realized that they can make a few billion dollars more by launching their own token. Owning these tokens gives you a reduction of trading fees. Very handy and BNB (Binance Coin) has been one of the most resilient tokens, which have withstood most market drops over the last weeks and was among the very few coins that could show growth.
BNB: Fee token for Binance
Gas: Not a Fee token for an exchange, but it is a dividend paid out on Neo and a currency that can be used to purchase services for dapps.
Kucoin: Fee token for Kucoin
Market 10 - Decentralized Data Storage
Currently, data storage happens with large companies or data centers that are prone to failure or losing data. Decentralized data storage makes loss of data almost impossible by distributing your files to numerous clients that hold tiny pieces of your data. Remember Torrents? Torrents use a peer-to-peer network. It is similar to that. Many users maintain copies of the same file, when someone wants a copy of that file, they send a request to the peer-to-peer network., users who have the file, known as seeds, send fragments of the file to the requester., he requester receives many fragments from many different seeds, and the torrent software recompiles these fragments to form the original file.
Gbyte: Byteball data is stored and ordered using directed acyclic graph (DAG) rather than blockchain. This allows all users to secure each other's data by referencing earlier data units created by other users, and also removes scalability limits common for blockchains, such as blocksize issue.
Siacoin: Siacoin is decentralized storage platform. Distributes encrypted files to thousands of private users who get paid for renting out their disk space. Anybody with siacoins can rent storage from hosts on Sia. This is accomplish via "smart" storage contracts stored on the Sia blockchain. The smart contract provides a payment to the host only after the host has kept the file for a given amount of time. If the host loses the file, the host does not get paid.
Maidsafecoin: MaidSafe stands for Massive Array of Internet Disks, Secure Access for Everyone.Instead of working with data centers and servers that are common today and are vulnerable to data theft and monitoring, SAFE’s network uses advanced P2P technology to bring together the spare computing capacity of all SAFE users and create a global network. You can think of SAFE as a crowd-sourced internet. All data and applications reside in this network. It’s an autonomous network that automatically sets prices and distributes data and rents out hard drive disk space with a Blockchain-based storage solutions.When you upload a file to the network, such as a photo, it will be broken into pieces, hashed, and encrypted. The data is then randomly distributed across the network. Redundant copies of the data are created as well so that if someone storing your file turns off their computer, you will still have access to your data. And don’t worry, even with pieces of your data on other people’s computers, they won’t be able to read them. You can earn MadeSafeCoins by participating in storing data pieces from the network on your computer and thus earning a Proof of Resource.
Storj: Storj aims to become a cloud storage platform that can’t be censored or monitored, or have downtime. Your files are encrypted, shredded into little pieces called 'shards', and stored in a decentralized network of computers around the globe. No one but you has a complete copy of your file, not even in an encrypted form.
Market 11 - Cloud computing
Obviously, renting computing power, one of the biggest emerging markets as of recent years, e.g. AWS and Digital Ocean, is also a service, which can be bought and managed via the blockchain.
Golem: Allows easy use of Supercomputer in exchange for tokens. People worldwide can rent out their computers to the network and get paid for that service with Golem tokens.
Elf: Allows easy use of Cloud computing in exchange for tokens.
Market 12 - Stablecoin
Last but not least, there are 2 stablecoins that have established themselves within the market. A stable coin is a coin that wants to be independent of the volatility of the crypto markets. This has worked out pretty well for Maker and DGD, accomplished through a carefully diversified currency fund and backing each token by 1g or real gold respectively. DO NOT CONFUSE DGD AND MAKER with their STABLE COINS DGX and DAI. DGD and MAKER are volatile, because they are the companies of DGX and DAI. DGX and DAI are the stable coins.
DGD: Platform of the Stablecoin DGX. Every DGX coin is backed by 1g of gold and make use proof of asset consensus.
Maker: Platform of the Stablecoin DAI that doesn't vary much in price through widespread and smart diversification of assets.
EDIT: Added a risk factor from 0 to 10. The baseline is 2 for any crypto. Significant scandals, mishaps, shady practices, questionable technology, increase the risk factor. Not having a product yet automatically means a risk factor of 6. Strong adoption and thus strong scrutiny or positive community lower the risk factor. EDIT2: Added a subjective potential factor from 0 to 10, where its overall potential and a small or big market cap is factored in. Bitcoin with lots of potential only gets a 9, because of its massive market cap, because if Bitcoin goes 10x, smaller coins go 100x, PIVX gets a 10 for being as good as Monero while carrying a 10x smaller market cap, which would make PIVX go 100x if Monero goes 10x.
Xthinner/Blocktorrent development status update -- Jan 12, 2018
Edit: Jan 12, 2019, not 2018. Xthinner is a new block propagation protocol which I have been working on. It takes advantage of LTOR to give about 99.6% compression for blocks, as long as all of the transactions in the block were previously transmitted. That's about 13 bits (1.6 bytes) per transaction. Xthinner is designed to be fault-tolerant, and to handle situations in which the sender and receiver's mempools are not well synchronized with gracefully degrading performance -- missing transactions or other decoding errors can be detected and corrected with one or (rarely) two additional round trips of communication. My expectation is that when it is finished, it will perform about 4x to 6x better than Compact Blocks and Xthin for block propagation. Relative to Graphene, I expect Xthinner to perform similarly under ideal circumstances (better than Graphene v1, slightly worse than Graphene v2), but much better under strenuous conditions (i.e. mempool desynchrony). The current development status of Xthinner is as follows:
Detailed informal writeup of the encoding scheme -- done 2018-09-29
Modify TxMemPool to allow iterating on a view sorted by TxId -- done 2018-11-26
Basic C++ segment encoder -- done 2018-11-26
Basic c++ segment decoder -- done 2018-11-26
Checksums for error detection -- done 2018-12-09
Serialization/deserialization -- done 2018-12-09
Prefilled transactions, coinbase handling, and non-mempool transactions -- done 2018-12-25
Missing/extra transactions, re-requests, and handling mempool desynchrony for segment decoding -- done 2019-01-12
Block transmission coupling the block header with one or more Xthinner segments -- 50% done 2019-01-12
Missing/extra transactions, re-requests, and handling mempool desynchrony for block decoding -- done 2019-01-12
Integration with Bitcoin ABC networking code
Networking testing on regtest/testnet/mainnet with real blocks
Write BIP/BUIP and formal spec
Bitcoin ABC pull request and begin of code review
Unit tests, performance tests, benchmarks -- started
Bitcoin Unlimited pull request and begin of code review
Alpha release of binaries for testing or low-security block relay networks
Merging code into ABC/BU, disabled-by-default
Complete security review
Enable by default in ABC and/or BU
(Optional) parallelize encoding/decoding of blocks
Following is the debugging output from a test run done with coherent senderecipient mempools with a 1.25 million tx block, edited for readability:
Testing Xthinner on a block with 1250003 transactions with sender mempool size 2500000 and recipient mempool size 2500000 Tx/Block creation took 262 sec, 104853 ns/tx (mempool) CTOR block sorting took 2467 ms, 987 ns/tx (mempool) Encoding is 1444761 pushBytes, 2889520 1-bit commands, 103770 checksum bytes total 1910345 bytes, 12.23 bits/tx Single-threaded encoding took 2924 ms, 1169 ns/tx (mempool) Serialization/deserialization took 1089 ms, 435 ns/tx (mempool) Single-threaded decoding took 1912314 usec, 764 ns/tx (mempool) Filling missing slots and handling checksum errors took 0 rounds and 12 usec, 0 ns/tx (mempool) Blocks match! *** No errors detected
If each transaction were 400 bytes on average, this block would be 500 MB, and it was encoded in 1.9 MB of data, a 99.618% reduction in size. Real-world performance is likely to be somewhat worse than this, as it's not likely that 100% of the block's transactions will always be in the recipient's mempool, but the performance reduction from mempool desychrony is smooth and predictable. If the recipient is missing 10% of the sender's transactions, and has another 10% that the sender does not have, the transaction list is still able to be successfully transmitted and decoded, although in that case it usually takes 2.5 round trips to do so, and the overall compression ratio ends up being around 71% instead of 99.6%. Anybody who wishes can view the WIP Xthinner code here. Once Xthinner is finished, I intend to start working on Blocktorrent. Blocktorrent is a method for breaking a block into small independently verifiable chunks for transmission, where each chunk is about one IP packet (a bit less than 1500 bytes) in size. In the same way that Bittorrent was faster than Napster, Blocktorrent should be faster than Xthinner. Currently, one of the big limitations on block propagation performance is that a node cannot forward the first byte of a block until the last byte of the block has been received and completely validated. Blocktorrent will change that, and allow nodes to forward each IP packet shortly after that packet was received, regardless of whether any other packets have also been received and regardless of the order in which the packets are received. This should dramatically improve the bandwidth utilization efficiency of nodes during block propagation, and should reduce the block propagation latency for reaching the full network quite a lot -- my current estimate is about 10x improvement over Xthinner. Blocktorrent achieves this partial validation of small chunks by taking advantage of Bitcoin blocks' Merkle tree structure. Chunks of transactions are transmitted in a packet along with enough data from the rest of the Merkle tree's internal nodes to allow for that chunk of transactions to be validated back to the Merkle root, the block header, and the mining PoW, thereby ensuring that packet being forwarded is not invalid spam data used solely for a DoS attack. (Forwarding DoS attacks to other nodes is bad.) Each chunk will contain an Xthinner segment to encode TXIDs My performance target with Blocktorrent is to be able to propagate a 1 GB block in about 5-10 seconds to all nodes in the network that have 100 Mbps connectivity and quad core CPUs. Blocktorrent will probably perform a bit worse than FIBRE at small block sizes, but better at very large blocksizes, all without the trust and centralized infrastructure that FIBRE uses.
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