https://preview.redd.it/al1gy9t9v9q51.png?width=424&format=png&auto=webp&s=b29a60402d30576a4fd95f592b392fae202026ca Hopefully any questions you have will be answered by the resources below, but if you have additional questions feel free to ask them in the comments. If you're quite technically-minded, the Zano whitepaper gives a thorough overview of Zano's design and its main features. So, what is Zano? In brief, Zano is a project started by the original developers of CryptoNote. Coins with market caps totalling well over a billion dollars (Monero, Haven, Loki and countless others) run upon the codebase they created. Zano is a continuation of their efforts to create the "perfect money", and brings a wealth of enhancements to their original CryptoNote code. Development happens at a lightning pace, as the Github activity shows, but Zano is still very much a work-in-progress. Let's cut right to it: Here's why you should pay attention to Zano over the next 12-18 months. Quoting from a recent update:
Anton Sokolov has recently joined the Zano team. ... For the last months Anton has been working on theoretical work dedicated to log-size ring signatures. These signatures theoretically allows for a logarithmic relationship between the number of decoys and the size/performance of transactions. This means that we can set mixins at a level from up to 1000, keeping the reasonable size and processing speed of transactions. This will take Zano’s privacy to a whole new level, and we believe this technology will turn out to be groundbreaking!
If successful, this scheme will make Zano the most private, powerful and performant CryptoNote implementation on the planet. Bar none. A quantum leap in privacy with a minimal increase in resource usage. And if there's one team capable of pulling it off, it's this one.
What else makes Zano special?
You mean aside from having "the Godfather of CryptoNote" as the project lead? ;) Actually, the calibre of the developers/researchers at Zano probably is the project's single greatest strength. Drawing on years of experience, they've made careful design choices, optimizing performance with an asynchronous core architecture, and flexibility and extensibility with a modular code structure. This means that the developers are able to build and iterate fast, refining features and adding new ones at a rate that makes bigger and better-funded teams look sluggish at best. Zano also has some unique features that set it apart from similar projects: Privacy Firstly, if you're familiar with CryptoNote you won't be surprised that Zano transactions are private. The perfect money is fungible, and therefore must be untraceable. Bitcoin, for the most part, does little to hide your transaction data from unscrupulous observers. With Zano, privacy is the default. The untraceability and unlinkability of Zano transactions come from its use of ring signatures and stealth addresses. What this means is that no outside observer is able to tell if two transactions were sent to the same address, and for each transaction there is a set of possible senders that make it impossible to determine who the real sender is. Hybrid PoW-PoS consensus mechanism Zano achieves an optimal level of security by utilizing both Proof of Work and Proof of Stake for consensus. By combining the two systems, it mitigates their individual vulnerabilities (see 51% attack and "nothing at stake" problem). For an attack on Zano to have even a remote chance of success the attacker would have to obtain not only a majority of hashing power, but also a majority of the coins involved in staking. The system and its design considerations are discussed at length in the whitepaper. Aliases Here's a stealth address: ZxDdULdxC7NRFYhCGdxkcTZoEGQoqvbZqcDHj5a7Gad8Y8wZKAGZZmVCUf9AvSPNMK68L8r8JfAfxP4z1GcFQVCS2Jb9wVzoe. I have a hard enough time remembering my phone number. Fortunately, Zano has an alias system that lets you register an address to a human-readable name. (@orsonj if you want to anonymously buy me a coffee) Multisig Multisignature (multisig) refers to requiring multiple keys to authorize a Zano transaction. It has a number of applications, such as dividing up responsibility for a single Zano wallet among multiple parties, or creating backups where loss of a single seed doesn't lead to loss of the wallet. Multisig and escrow are key components of the planned Decentralized Marketplace (see below), so consideration was given to each of them from the design stages. Thus Zano's multisig, rather than being tagged on at the wallet-level as an afterthought, is part of its its core architecture being incorporated at the protocol level. This base-layer integration means months won't be spent in the future on complicated refactoring efforts in order to integrate multisig into a codebase that wasn't designed for it. Plus, it makes it far easier for third-party developers to include multisig (implemented correctly) in any Zano wallets and applications they create in the future. (Double Deposit MAD) Escrow With Zano's escrow service you can create fully customizable p2p contracts that are designed to, once signed by participants, enforce adherence to their conditions in such a way that no trusted third-party escrow agent is required. https://preview.redd.it/jp4oghyhv9q51.png?width=1762&format=png&auto=webp&s=12a1e76f76f902ed328886283050e416db3838a5 The Particl project, aside from a couple of minor differences, uses an escrow scheme that works the same way, so I've borrowed the term they coined ("Double Deposit MAD Escrow") as I think it describes the scheme perfectly. The system requires participants to make additional deposits, which they will forfeit if there is any attempt to act in a way that breaches the terms of the contract. Full details can be found in the Escrow section of the whitepaper. The usefulness of multisig and the escrow system may not seem obvious at first, but as mentioned before they'll form the backbone of Zano's Decentralized Marketplace service (described in the next section).
What does the future hold for Zano?
The planned upgrade to Zano's privacy, mentioned at the start, is obviously one of the most exciting things the team is working on, but it's not the only thing. Zano Roadmap Decentralized Marketplace From the beginning, the Zano team's goal has been to create the perfect money. And money can't just be some vehicle for speculative investment, money must be used. To that end, the team have created a set of tools to make it as simple as possible for Zano to be integrated into eCommerce platforms. Zano's API’s and plugins are easy to use, allowing even those with very little coding experience to use them in their E-commerce-related ventures. The culmination of this effort will be a full Decentralized Anonymous Marketplace built on top of the Zano blockchain. Rather than being accessed via the wallet, it will act more as a service - Marketplace as a Service (MAAS) - for anyone who wishes to use it. The inclusion of a simple "snippet" of code into a website is all that's needed to become part a global decentralized, trustless and private E-commerce network. Atomic Swaps Just as Zano's marketplace will allow you to transact without needing to trust your counterparty, atomic swaps will let you to easily convert between Zano and other cyryptocurrencies without having to trust a third-party service such as a centralized exchange. On top of that, it will also lead to the way to Zano's inclusion in the many decentralized exchange (DEX) services that have emerged in recent years.
Where can I buy Zano?
Zano's currently listed on the following exchanges: https://coinmarketcap.com/currencies/zano/markets/ It goes without saying, neither I nor the Zano team work for any of the exchanges or can vouch for their reliability. Use at your own risk and never leave coins on a centralized exchange for longer than necessary. Your keys, your coins! If you have any old graphics cards lying around(both AMD & NVIDIA), then Zano is also mineable through its unique ProgPowZ algorithm. Here's a guide on how to get started. Once you have some Zano, you can safely store it in one of the desktop or mobile wallets (available for all major platforms).
How can I support Zano?
Zano has no marketing department, which is why this post has been written by some guy and not the "Chief Growth Engineer @ Zano Enterprises". The hard part is already done: there's a team of world class developers and researchers gathered here. But, at least at the current prices, the team's funds are enough to cover the cost of development and little more. So the job of publicizing the project falls to the community. If you have any experience in community building/growth hacking at another cryptocurrency or open source project, or if you're a Zano holder who would like to ensure the project's long-term success by helping to spread the word, then send me a pm. We need to get organized. Researchers and developers are also very welcome. Working at the cutting edge of mathematics and cryptography means Zano provides challenging and rewarding work for anyone in those fields. Please contact the project's Community Manager u/Jed_T if you're interested in joining the team. Social Links: Twitter Discord Server Telegram Group Medium blog I'll do my best to keep this post accurate and up to date. Message me please with any suggested improvements and leave any questions you have below. Welcome to the Zano community and the new decentralizedprivateeconomy!
Google and NASA have reached quantum supremacy in a year collaboration. What does it mean for future blockchain security?
As can be read in this article. Although quantum supremacy simply means that at least 1 specific problem has been proven to be solved by a quantum computer that can't be solved (in a realistic timeframe) by any existing classical computer, it is a very important milestone. Many have been skeptical on crossing this milestone at all. Supremacy does not mean that current cryptography is at risk tomorrow. It does however prove quantum computing is real, and has advantage over classical computers in certain tasks as has always been thought. For blockchain this means that in the future, Shor's algorithm could be used to break ECDSA, the signature scheme that is used in most blockchain. This signature scheme can be upgraded to a quantum resistant signature scheme. It does come with specific challenges though. As opposed to banks, websites, government systems, email services etc, blockchain is decentralized. That makes the following challenges exclusive blockchain challenges:
QR crypto will influence performance of current blockchains
There is no drop in replacement.
Consensus will be needed. However consensus on the result (quantum resistance) will be a given, the consensus on how to reach this and when to implement is not going to be a smooth process due to the fact different schemes and ways of implementation are possible.
User migration. All users need to migrate their coins to new QR addresses. If this is not done by the full 100% of all users, a certain % of the circulating supply will stay vulnerable to hacks. Such a hack will influence the value of all coins, including the ones on QR addresses.
Lost addresses. These are addresses nobody has access to. Like the Satoshi addresses (which have full published public keys) and all addresses of which people have lost their private keys. These will stay vulnerable for ever.
Consider the full analysis on this subject here Blockchains that implement quantum resistance from the very beginning, from genesis block, will not face these challenges. See for example QRL which has launched over a year ago.
05-24 00:54 - 'Topic: [Quantum computing] Reason: [SHA-256 encryption breaking]' (self.Bitcoin) by /u/Xyopsi removed from /r/Bitcoin within 42-52min
''' After the years of successful advancements of quantum computing, I have been worrying about Bitcoin and it's future. I've done research about quantum computing and it's capabilities and it's not looking too good for our beloved cryptocurrency because it might have a security flaw. With quantum computing the SHA-256 (that secures Bitcoin) algorithm can be broken later in the future with the advancements with quantum computing. I'm not saying it's going to happen tomorrow but there is a chance that cryptography protocols are going to have to change to ensure the integrity of bitcoin and it's future. This is hypothetical though, not to fear monger or troll but this needs to be a discussion on which people can share opinions about this topic and come up solutions to prevent keys to be solved by in which the government or tech companies like Google, Amazon, etc can crack. I feel that this is important to discuss about and I care about the future of bitcoin and other cryptocurrencies and it's contributers and holders. Sources used: [link]1 [link]2 [link]3 [link]4 [link]5 Edit: Thanks u/jenny82ishere for fact checking me. The SHA-256 algorithm is not encryption. ''' Topic: [Quantum computing] Reason: [SHA-256 encryption breaking] Go1dfish undelete link unreddit undelete link Author: Xyopsi 1: b*oc**hainhub.net/bl**/*lo*/cryptogra*hy-**ockc**in-b*tc**n/ 2: www.sci***edai*y.com/news/*a**er*energy/qu*ntum_co****i*g/ 3: www.*oogle.**m/a*p/s/ww*.science*ews.org/ar**cl*/n**-***nt****om*u*ers-can-*pe*ate**ig**r-temperatures/amp 4: en.m.wik*ped**.or*/wiki/**A-* 5: en.bitco*n**t*wi*i/Wall*t_en*ryp*io* Unknown links are censored to prevent spreading illicit content.
Quantum Processing Units (QPU) grow increasingly, it won't take long anymore until classical cryptography is in danger. What are the consequences? Your encrypted communication with the internet in the current state will belong to history. Anybody will potentially be able to fake signatures and therefore impersonate you. And one last example, our beloved Bitcoin and Ethereum coins are in danger if the account holding them has one outgoing transaction or if anybody catches your not yet executed transaction. Annealing quantum processors (create multi-dimensional energy term and collapse into lowest energy) from D-Wave have already up to 5000 Qubits, 2030 Qubit QPUs are already publicly available in the "Leap" Cloud from D-Wave. Circuit-based Quantum processors (QPUs with their own quantum instruction set) have already up to 72 Qubits, 15 Qubits QPUs are already publicly accessible in IBMs QPU cloud "IBM Q Network". The end of classical public key cryptography is already visible in an unpleasantly close distance. Various post-quantum cryptographic algorithms already exist, which are currently being evaluated by NIST. One signature scheme is called "Winternitz one-time signature" (WOTS) and it allows to securely create one signature. In combination with a merkle tree, many signatures can be created. This scheme is called XMSS.
A year ago I have created a clean python project during university, which contains a WOTS abstract base class and WOTS/WOTS+ implementations based on this class. It is completly configurable and easy to use (example down below). It was created using the official RFC 8391 (at that time). It is also fully documented (including the basic math) and tested. I hope that one day it can be seen as the default python WOTS/XMSS library, but for that I need your help. If you are interested, I'd love to see you join the project and make it great. You can browse the issues to get an anchor point where to start or you can suggest new issues and work on them (after approval). The repository can be found at: https://github.com/sea212/winternitz-one-time-signature . The documentation can be found at: https://winternitz-one-time-signature.readthedocs.io/en/latest/introduction.html If you are looking for a security/cryptography project (for example for an university course), you can browse the issue to get some ideas.
Creating and verifying a signature is easy as that:
import winternitz.signatures # Create signature and verify it with the same object wots = winternitz.signatures.WOTS() message = "My message in bytes format".encode("utf-8") sig = wots.sign(message) success = wots.verify(message=message, signature=sig["signature"]) print("Verification success: " + str(success)) # Output: Verification success: True
Retrieve the public key:
import winternitz.signatures # Create signature and verify it with the same object wots = winternitz.signatures.WOTS() key = wots.pubkey
Remotely verifing signatures is also simple. To simplify this example, the whole sig dictionary is transmitted and I assume that the hashalgorithm is already imported with that name (see documentation for a clean example). The communication partner can import the data and verify your signature in the following way:
import winternitz.signatures # Create signature and verify it with the same object wots_other = winternitz.signatures.WOTS(w=sig["w"], sig["hashalgo"], digestsize=sig["digestsize"], pubkey=key) success = wots_other.verify(message=message, signature=sig["signature"]) print("Verification success: " + str(success)) # Output: Verification success: True
"Do you need a Blockchain?" - this paper is fantastic, everyone should read this before evaluating a coin and if requires a block chain to solve a solution the coin is promising to solve. (136 points, 41 comments)
Do any of you foresee a crypto being widely adopted as a general purpose payment coin? nano, btc, btccash etc (take your pick). I think it won't happen for reasons in this post. What do you think? (59 points, 54 comments)
Noticed the huge rise of EOS lately what does it have over NEO and ethereum and to a lesser extent Cardano? I tried researching it, but wasn't sold. (54 points, 55 comments)
Hard Problems in Cryptocurrency: Five Years Later ~Vitalik (46 points, 1 comment)
I had a Q&A with Bruno head architect / CEO of oyster, thought you guys might like it. (45 points, 2 comments)
A good article that explains in simple terms how Eth2 works, how it will be rolled out and migrated from eth1 (42 points, 4 comments)
DAI the stablecoin can now be transferred GAS free (article explaining how it works via new MCD DAI contract). This holds alot of promise for the so called "Web3" (40 points, 8 comments)
Veriblock is consuming 27% of bitcoins block space - what does this mean for bitcoins future? (39 points, 16 comments)
Vitalik: Alternative proposal for early eth1 <-> eth2 merge (38 points, 3 comments)
Is launching a PoW permissionless blockchain still possible today? or would it be too susceptible to a 51% attack? (37 points, 37 comments)
Technical comparison of LIGHTNING vs TANGLE vs HASHGRAPH vs NANO (133 points, 37 comments)
Addressing Nano's weaknesses (bandwidth usage and disk IO). Nano voting traffic to be reduced by 99.9% by implementing vote by hash, lazy bootstrapping, and reduced vote rebroadcasting (x-post CryptoCurrency) (78 points, 8 comments)
Emergent centralization due to economies of scale (PoW vs DPoS) – Colin LeMahieu (52 points, 37 comments)
Nano community member developing a distributed "mining" service to pay people to do PoW for third-parties (e.g. exchanges, light wallet services, etc) (32 points, 20 comments)
What do you think about OpenCAP, the cryptocurrency alias protocol that mirrors traditional email addresses? (15 points, 12 comments)
Bitcoin would be a calamity, not an economy (11 points, 52 comments)
Part 5. I'm writing a series about blockchain tech and possible future security risks. This is the fifth part of the series talking about an advanced vulnerability of BTC. (43 points, 43 comments)
I'm writing a series about blockchain tech and possible future security risks. This is the third part of the series introducing Quantum resistant blockchains. (36 points, 4 comments)
Part 4B. I’m writing a series about blockchain tech and possible future security risks. This is the fourth part of the series explaining the special quality of going quantum resistant from genesis block. (25 points, 21 comments)
Part 6. (Last part) I'm writing a series about blockchain tech and possible future security risks. Failing shortcuts in an attempt to accomplish Quantum Resistance (24 points, 38 comments)
I'm writing a series about blockchain tech and possible future security risks. This is the first part of the series introducing the basic concept of blockchain and what makes it reliable. (23 points, 10 comments)
I'm writing a series about blockchain tech and possible future security risks. This is the fourth part of the series explaining the special quality of going quantum resistant from genesis block. (7 points, 1 comment)
Part 2. I'm writing a series about blockchain tech and possible future security risks. This is the second part of the series: An accessible description of hashing and signature schemes. (5 points, 0 comments)
Everytime I try to investigate the technology behind Cardano(Ada), I come across the words "scientific" and "peer-reviewed" over and over but almost no actual details. Can someone fill how this coin actually works and where they are in development? (126 points, 49 comments)
"Do you need a Blockchain?" - this paper is fantastic, everyone should read this before evaluating a coin and if requires a block chain to solve a solution the coin is promising to solve. by Neophyte- (136 points, 41 comments)
Technical comparison of LIGHTNING vs TANGLE vs HASHGRAPH vs NANO by Qwahzi (133 points, 37 comments)
Everytime I try to investigate the technology behind Cardano(Ada), I come across the words "scientific" and "peer-reviewed" over and over but almost no actual details. Can someone fill how this coin actually works and where they are in development? by RufusTheFirefly (126 points, 49 comments)
160 points: holomntn's comment in ELI5: Why did it take so long for blockchain technology to be created?
121 points: KnifeOfPi2's comment in How do we change the culture around cryptocurrency?
105 points: theglitteringone's comment in Outside of currency and voting, blockchain is awful and shouldnt be used. Can anyone explain where blockchain is worth the cost?
102 points: benthecarman's comment in If crypto now is like 'the Internet' of the past, where are we?
96 points: pegasuspect93's comment in If crypto now is like 'the Internet' of the past, where are we?
95 points: bannercoin's comment in Realistically, why would anybody expect the startup crypto platforms to beat out the corporate giants who are developing their own Blockchain as a Service (BaaS) solutions? Ex. IBM, SAP, JP Morgan...
83 points: AlexCoventry's comment in Ethereum private key with all zeroes leads to an account with 5000$ on it
82 points: deleted's comment in Is blockchain really useful ?
Exchanges The best way to support XRP is to buy/sell XRP directly with your local currency, not with USDT, ETH, LTC, or BTC. Available XRP pairs - AUD, BRL, CAD, CNY, EUR, GBP, IDR, INR, JPY, KRW, MXN, PHP, RUB, THB, TRY, UAH, USD, ZAR. You can find the complete list of XRP exchanges and supported XRP/fiat pairs Here.
In the past weeks I heard a lot pros and cons about IOTA, many of them I believe were not true (I'll explain better). I would like to start a serious discussion about IOTA and help people to get into it. Before that I'll contribute with what I know, most things that I will say will have a source link providing some base content.
The pros and cons that I heard a lot is listed below, I'll discuss the items marked with *. Pros
Many users claim that the network infinitely scales, that with more transactions on the network the faster it gets. This is not entirely true, that's why we are seeing the network getting congested (pending transactions) at the moment (12/2017). The network is composed by full-nodes (stores all transactions), each full-node is capable of sending transactions direct to the tangle. An arbitrary user can set a light-node (do not store all transactions, therefore a reduced size), but as it does not stores all transactions and can't decide if there are conflicting transactions (and other stuff) it needs to connect to a full-node (bitifinex node for example) and then request for the full-node to send a transaction to the tangle. The full-node acts like a bridge for a light-node user, the quantity of transactions at the same time that a full-node can push to the tangle is limited by its brandwidth. What happens at the moment is that there are few full-nodes, but more important than that is: the majority of users are connected to the same full-node basically. The full-node which is being used can't handle all the requested transactions by the light-nodes because of its brandwidth. If you are a light-node user and is experiencing slow transactions you need to manually select other node to get a better performance. Also, you need to verify that the minimum weight magnitude (difficulty of the Hashcash Proof of Work) is set to 14 at least. The network seems to be fine and it scales, but the steps an user has to make/know are not friendly-user at all. It's necessary to understand that the technology envolved is relative new and still in early development. Do not buy iota if you haven't read about the technology, there is a high chance of you losing your tokens because of various reasons and it will be your own fault. You can learn more about how IOTA works here. There are some upcoming solutions that will bring the user-experience to a new level, The UCL Wallet (expected to be released at this month, will talk about that soon and how it will help the network) and the Nelson CarrIOTA (this week) besides the official implementations to come in december.
We all know that currently (2017) IOTA depends on the coordinator because the network is still in its infancy and because of that it is considered centralized by the majority of users. The coordinator are several full-nodes scattered across the world run by the IOTA foundation. It creates periodic Milestones (zero value transactions which reference valid transactions) which are validated by the entire network. The coordinator sets the general direction for the tangle growth. Every node verifies that the coordinator is not breaking consensus rules by creating iotas out of thin air or approving double-spendings, nodes only tells other nodes about transactions that are valid, if the Coordinator starts issuing bad Milestones, nodes will reject them. The coordinator is optional since summer 2017, you can choose not implement it in your full-node, any talented programmer could replace Coo logic in IRI with Random Walk Monte Carlo logic and go without its milestones right now. A new kind of distributed coordinator is about to come and then, for the last, its completely removal. You can read more about the coordinator here and here.
These are blockchain-based cryptocurrencies (Bitcoin) that has miners to guarantee its security. Satoshi Nakamoto states several times in the Bitcoin whitepaper that "The system is secure as long as honest nodes collectively control more CPU power than any cooperating group of attacker nodes". We can see in Blockchain.info that nowadays half of the total hashpower in Bitcoin is controlled by 3 companies (maybe only 1 in the future?). Users must trust that these companies will behave honestly and will not use its 50%> hashpower to attack the network eventually. With all that said it's reasonable to consider the IOTA network more decentralized (even with the coordinator) than any mining-blockchain-based cryptocurrency You can see a comparison between DAG cryptocurrencies here
Some partnerships of IOTA foundation with big companies were well known even when they were not officialy published. Some few examples of confirmed partnerships are listed below, others cofirmed partnerships can be seem in the link Partnerships with big companies at the pros section.
So what's up with all alarming in social media about IOTA Foundation faking partnerships with big companies like Microsoft and Cisco? At Nov. 28th IOTA Foundation announced the Data Marketplace with 30+ companies participating. Basically it's a place for any entity sell data (huge applications, therefore many companies interested), at time of writing (11/12/2017) there is no API for common users, only companies in touch with IOTA Foundation can test it. A quote from Omkar Naik (Microsoft worker) depicted on the Data Marketplace blog post gave an idea that Microsoft was in a direct partnership with IOTA. Several news websites started writing headlines "Microsoft and IOTA launches" (The same news site claimed latter that IOTA lied about partnership with Microsoft) when instead Microsoft was just one of the many participants of the Data Marketplace. Even though it's not a direct partnership, IOTA and Microsoft are in close touch as seen in IOTA Microsoft and Bosch meetup december 12th, Microsoft IOTA meetup in Paris 14th and Microsoft Azure adds 5 new Blockchain partners (may 2016). If you join the IOTA Slack channel you'll find out that there are many others big companies in close touch with IOTA like BMW, Tesla and other companies. This means that right now there are devs of IOTA working directly with scientists of these companies to help them integrate IOTA on their developments even though there is no direct partnership published, I'll talk more about the use cases soon.
We are excited to partner with IOTA foundation and proud to be associated with its new data marketplace initiative... - Omkar Naik
IOTA's use cases
Every cryptocurrency is capable of being a way to exchange goods, you pay for something using the coin token and receive the product. Some of them are more popular or have faster transactions or anonymity while others offers better scalablity or user-friendness. But none of them (except IOTA) are capable of transactioning information with no costs (fee-less transactions), in an securely form (MAM) and being sure that the network will not be harmed when it gets more adopted (scales). These characteristics open the gates for several real world applications, you probably might have heard of Big Data and how data is so important nowadays.
Data sets grow rapidly - in part because they are increasingly gathered by cheap and numerous information-sensing Internet of things devices such as mobile devices, aerial (remote sensing), software logs, cameras, microphones, radio-frequency identification (RFID) readers and wireless sensor networks.
It’s just the beginning of the data period. Data is going to be so important for human life in the future. So we are now just starting. We are a big data company, but compared to tomorrow, we are nothing. - Jack Ma (Alibaba)
There are enormous quantities of wasted data, often over 99% is lost to the void, that could potentially contain extremely valuable information if allowed to flow freely in data streams that create an open and decentralized data lake that is accessible to any compensating party. Some of the biggest corporations of the world are purely digital like Google, Facebook and Amazon. Data/information market will be huge in the future and that's why there so many companies interested in what IOTA can offer. There are several real world use cases being developed at the moment, many of them if successful will revolutionize the world. You can check below a list of some of them.
Not having your wallet set up properly (min weight 14, etc.)
Problems that could be easily avoided with a better understand of the network/wallet or with a better wallet that could handle these issues. As I explained before, some problems during the "congestion" of the network could be simply resolved if stuff were more user-friendly, this causes many users storing their iotas on exchanges which is not safe either. The upcoming (dec 2017) UCL Wallet will solve most of these problems. It will switch between nodes automatically and auto-reattach transactions for example (besides other things). You can have full a overview of it here and here. Also, the upcoming Nelson CarrIOTA will help on automatic peer discovery for users setup their nodes more easily.
IOTA Vulnerability issue
On sept 7th 2017 a team from MIT reported a cryptographic issue on the hash function Curl. You can see the full response of IOTA members below.
Funds were never in danger as such scenarios depicted on the Neha's blogpost were not pratically possible and the arguments used on the blogpost had'nt fundamentals, all the history you can check by yourself on the responses. Later it was discovered that the whole Neha Narula's team were envolved in other concurrent cryptocurrency projects Currently IOTA uses the relatively hardware intensive NIST standard SHA-3/Keccak for crucial operations for maximal security. Curl is continuously being audited by more cryptographers and security experts. Recenlty IOTA Foundation hired Cybercrypt, the world leading lightweight cryptography and security company from Denmark to take the Curl cryptography to its next maturation phase.
It took me a couple of days to gather the informations presented, I wanted it to make easier for people who want to get into it. It might probably have some mistakes so please correct me if I said something wrong. Here are some useful links for the community.
This is my IOTA donation address, in case someone wants to donate I will be very thankful. I truly believe in this project's potential. I9YGQVMWDYZBLHGKMTLBTAFBIQHGLYGSAGLJEZIV9OKWZSHIYRDSDPQQLTIEQEUSYZWUGGFHGQJLVYKOBWAYPTTGCX
This is a donation address, if you want to do the same you might pay attention to some important details:
Create a seed for only donation purposes.
Generate a address and publish it for everyone.
If you spend any iota you must attach a new address to the tangle and refresh your donation address published before to everyone.
If someone sends iota to your previous donation address after you have spent from it you will probably lose the funds that were sent to that specific address.
You can visualize how addresses work in IOTA here and here.
This happens because IOTA uses Winternitz one-time signature to become quantum resistent. Every time you spend iota from a address, part of the private key of that specific address is revealed. This makes easier for attackers to steal that address balance. Attackers can search if an address has been reused on the tangle explorer and try to brute force the private key since they already know part of it.
Is Crypto Currency truly at risk due to Quantum Computers, and what can you do about it?
Is Crypto Currency truly at risk due to Quantum Computers, and what can you do about it?
There is no denying that the Quantum revolution is coming. Security protocols for the internet, banking, telecommunications, etc... are all at risk, and your Bitcoins (and alt-cryptos) are next! This article is not really about quantum computers[i], but, rather, how they will affect the future of cryptocurrency, and what steps a smart investor will take. Since this is a complicated subject, my intention is to provide just enough relevant information without being too “techy.”
The Quantum Evolution
In 1982, Nobel winning physicist, Richard Feynman, hypothesized how quantum computers[ii] would be used in modern life. Just one year later, Apple released the “Apple Lisa”[iii] – a home computer with a 7.89MHz processor and a whopping 5MB hard drive, and, if you enjoy nostalgia, it used 5.25in floppy disks. Today, we walk around with portable devices that are thousands of times more powerful, and, yet, our modern day computers still work in a simple manner, with simple math, and simple operators[iv]. They now just do it so fast and efficient that we forget what’s happening behind the scenes. No doubt, the human race is accelerating at a remarkable speed, and we’ve become obsessed with quantifying everything - from the everyday details of life to the entire universe[v]. Not only do we know how to precisely measure elementary particles, we also know how to control their actions! Yet, even with all this advancement, modern computers cannot “crack” cryptocurrencies without the use of a great deal more computing power, and since it’s more than the planet can currently supply, it could take millions, if not billions, of years. However, what current computers can’t do, quantum computers can! So, how can something that was conceptualized in the 1980’s, and, as of yet, has no practical application, compromise cryptocurrencies and take over Bitcoin? To best answer this question, let’s begin by looking at a bitcoin address.
What exactly is a Bitcoin address?
Well, in layman terms, a Bitcoin address is used to send and receive Bitcoins, and looking a bit closer (excuse the pun), it has two parts:[vi] A public key that is openly shared with the world to accept payments. A public key that is derived from the private key. The private key is made up of 256 bits of information in a (hopefully) random order. This 256 bit code is 64 characters long (in the range of 0-9/a-f) and further compressed into a 52 character code (using RIPEMD-160). NOTE: Although many people talk about Bitcoin encryption, Bitcoin does not use Encryption. Instead, Bitcoin uses a hashing algorithm (for more info, please see endnote below[vii]). Now, back to understanding the private key: The Bitcoin address “1EHNa6Q4Jz2uvNExL497mE43ikXhwF6kZm” translates to a private key of “5HpHagT65TZzG1PH3CSu63k8DbpvD8s5ip4nEB3kEsreAnchuDf” which further translates to a 256 bit private key of “0000000000000000000000000000000000000000000000000000000000000001” (this should go without saying, but do not use this address/private key because it was compromised long ago.) Although there are a few more calculations that go behind the scenes, these are the most relevant details. Now, to access a Bitcoin address, you first need the private key, and from this private key, the public key is derived. With current computers, it’s classically impractical to attempt to find a private key based on a public key. Simply put, you need the private key to know the public key. However, it has already been theorized (and technically proven) that due to private key compression, multiple private keys can be used to access the same public key (aka address). This means that your Bitcoin address has multiple private keys associated with it, and, if someone accidentally discovers or “cracks” any one of those private keys, they have access to all the funds in that specific address. There is even a pool of a few dedicated people hunting for these potential overlaps[viii], and they are, in fact, getting very efficient at it. The creator of the pool also has a website listing every possible Bitcoin private key/address in existence[ix], and, as of this writing, the pool averages 204 trillion keys per day! But wait! Before you get scared and start panic selling, the probability of finding a Bitcoin address containing funds (or even being used) is highly unlikely – nevertheless, still possible! However, the more Bitcoin users, the more likely a “collision” (finding overlapping private/public key pairs)! You see, the security of a Bitcoin address is simply based on large numbers! How large? Well, according to my math, 1.157920892373x1077 potential private keys exist (that number represents over 9,500 digits in length! For some perspective, this entire article contains just over 14,000 characters. Therefore, the total number of Bitcoin addresses is so great that the probability of finding an active address with funds is infinitesimal.
So, how do Quantum Computers present a threat?
At this point, you might be thinking, “How can a quantum computer defeat this overwhelming number of possibilities?” Well, to put it simple; Superposition and Entanglement[x]. Superposition allows a quantum bit (qbit) to be in multiple states at the same time. Entanglement allows an observer to know the measurement of a particle in any location in the universe. If you have ever heard Einstein’s quote, “Spooky Action at a Distance,” he was talking about Entanglement! To give you an idea of how this works, imagine how efficient you would be if you could make your coffee, drive your car, and walk your dog all at the same time, while also knowing the temperature of your coffee before drinking, the current maintenance requirements for your car, and even what your dog is thinking! In a nutshell, quantum computers have the ability to process and analyze countless bits of information simultaneously – and so fast, and in such a different way, that no human mind can comprehend! At this stage, it is estimated that the Bitcoin address hash algorithm will be defeated by quantum computers before 2028 (and quite possibly much sooner)! The NSA has even stated that the SHA256 hash algorithm (the same hash algorithm that Bitcoin uses) is no longer considered secure, and, as a result, the NSA has now moved to new hashing techniques, and that was in 2016! Prior to that, in 2014, the NSA also invested a large amount of money in a research program called “Penetrating Hard Targets project”[xi] which was used for further Quantum Computer study and how to break “strong encryption and hashing algorithms.” Does NSA know something they’re not saying or are they just preemptively preparing? Nonetheless, before long, we will be in a post-quantum cryptography world where quantum computers can crack crypto addresses and take all the funds in any wallet.
What are Bitcoin core developers doing about this threat?
Well, as of now, absolutely nothing. Quantum computers are not considered a threat by Bitcoin developers nor by most of the crypto-community. I’m sure when the time comes, Bitcoin core developers will implement a new cryptographic algorithm that all future addresses/transactions will utilize. However, will this happen before post-quantum cryptography[xii]? Moreover, even after new cryptographic implementation, what about all the old addresses? Well, if your address has been actively used on the network (sending funds), it will be in imminent danger of a quantum attack. Therefore, everyone who is holding funds in an old address will need to send their funds to a new address (using a quantum safe crypto-format). If you think network congestion is a problem now, just wait… Additionally, there is the potential that the transition to a new hashing algorithm will require a hard fork (a soft fork may also suffice), and this could result in a serious problem because there should not be multiple copies of the same blockchain/ledger. If one fork gets attacked, the address on the other fork is also compromised. As a side-note, the blockchain Nebulas[xiii] will have the ability to modify the base blockchain software without any forks. This includes adding new and more secure hashing algorithms over time! Nebulas is due to be released in 2018.
Who would want to attack Bitcoin?
Bitcoin and cryptocurrency represent a threat to the controlling financial system of our modern economy. Entire countries have outright banned cryptocurrency[xiv] and even arrested people[xv], and while discrediting it, some countries are copying cryptocurrency to use (and control) in their economy[xvi]! Furthermore, Visa[xvii], Mastercard[xviii], Discover[xix], and most banks act like they want nothing to do with cryptocurrency, all the while seeing the potential of blockchain technology and developing their own[xx]. Just like any disruptive technology, Bitcoin and cryptocurrencies have their fair share of enemies! As of now, quantum computers are being developed by some of the largest companies in the world, as well as private government agencies. No doubt, we will see a post-quantum cryptography world sooner than most realize. By that point, who knows how long “3 letter agencies” will have been using quantum technology - and what they’ll be capable of!
What can we do to protect ourselves today?
Of course, the best option is to start looking at how Bitcoin can implement new cryptographic features immediately, but it will take time, and we have seen how slow the process can be just for scaling[xxi]. The other thing we can do is use a Bitcoin address only once for outgoing transactions. When quantum computers attack Bitcoin (and other crypto currencies), their first target will be addresses that have outgoing transactions on the blockchain that contain funds. This is due to the fact that when computers first attempt to crack a Bitcoin address, the starting point is when a transaction becomes public. In other words, when the transaction is first signed – a signed transaction is a digital signature derived from the private key, and it validates the transaction on the network. Compared to classical computers, quantum computers can exponentially extrapolate this information. Initially, Bitcoin Core Software might provide some level of protection because it only uses an address once, and then sends the remaining balance (if any) to another address in your keypool. However, third party Bitcoin wallets can and do use an address multiple times for outgoing transactions. For instance, this could be a big problem for users that accept donations (if they don’t update their donation address every time they remove funds). The biggest downside to Bitcoin Core Software is the amount of hard-drive space required, as well as diligently retaining an up-to-date copy of the entire blockchain ledger. Nonetheless, as quantum computers evolve, they will inevitably render SHA256 vulnerable, and although this will be one of the first hash algorithms cracked by quantum computers, it won’t be the last!
Are any cryptocurrencies planning for the post-quantum cryptography world?
Yes, indeed, there are! Here is a short list of ones you may want to know more about:
IOTA[xxii] IOTA uses Winternitz one-time signatures[xxiii]. As the name suggests, an address is considered compromised once it signs a transaction on the network, and, therefore, you can only send from an address one time before it’s compromised.
ADA (Cardano)[xxiv] The Cardano roadmap lists quantum resistant signatures using “BLISS.” While BLISS is a strong hashing method, it has an estimated lifespan with classical computers of 6000 signatures (usages)[xxv] but this number could be significantly reduced with quantum tech.
Ethereum[xxvi] The Ethereum network, as well as many more blockchain networks, use the SHA3[xxvii] hash algorithm which is superior to SHA256. Although this is considered by some to be resistant, it is not technically quantum resistant. There is talk of using Lamport Signatures[xxviii] in the future of Ethereum. Although it is not definite at this point, it’s great to see the developers proactive.
QRL (Quantum Resistant Ledger)[xxix] This blockchain concept was conceived in 2016 and is currently in beta testing. Using XMSS (Extended Merkle Signature Scheme) trees combined with Winternitz one-time signatures (but not one time!), it’s fast, salable and truly quantum resistant. If you have not yet checked out this project, I highly suggest you do. To understand why this project is truly post-quantum cryptography ready, do your own due diligence and read the QRL whitepaper.
Although I am in no way associated with any project listed above, I do hold coins in all as well as Bitcoin, Litecoin and many others. The thoughts above are based on my personal research, but I make no claims to being a quantum scientist or cryptographer. So, don’t take my word for anything. Instead, do your own research and draw your own conclusions. I’ve included many references below, but there are many more to explore. In conclusion, the intention of this article is not to create fear or panic, nor any other negative effects. It is simply to educate. If you see an error in any of my statements, please, politely, let me know, and I will do my best to update the error. Thanks for reading!
“We only have public keys in hashed form published. Even quantum computers can't reverse the Hash, so no one can use those public keys to derive the private key. That's why we are quantum resistant.” This is incorrect.
This example has been explained in the previous article. To summarize: Hashed public keys can be used as an address for deposits. Deposits do not need signature authentication. Alternatively, withdrawals do need signature authentication. To authenticate a signature, the public key will always need to be made public in full, original form. As a necessary requirement, the full public key would be needed to spend coins. Therefore the public key will be included in the transaction. The most famous blockchain to use hashed public keys is Bitcoin. Transactions can be hijacked during the period a user sends a transaction from his or her device to the blockchain and the moment a transaction is confirmed. For example: during Bitcoins 10 minute blockchain, the full public keys can be obtained to find private keys and forge transactions. Page 8, point 3 Hashing public keys does have advantages: they are smaller than the original public keys. So it does save space on the blockchain. It doesn't give you Quantum Resistance however. That is a misconception.
“Besides having only hashed public keys on the blockchain, we also have instant transactions. So there is no time to hijack a transaction and to obtain the public key fast enough to forge a transaction. That's why we are quantum resistant.” This is incorrect and impossible.
There is no such thing as instant transactions. A zero second blocktime for example is a claim that can’t be made. Period. Furthermore, transactions are collected in pools before they are added to a block that is going to be processed. The time it takes for miners to add them to a new block before processing that block depends on the amount of transactions a blockchain needs to process at a certain moment. When a blockchain operates within its maximum capacity (the maximum amount of transactions that a blockchain can process per second), the adding of transactions from the pool will go quite swiftly, but still not instantaneously. However, when there is high transaction density, transactions can be stuck in the pool for a while. During this period the transactions are published and the full public keys can be obtained. Just as with the previous hijacking example, a transaction can be forged in that period of time. It can be done when the blockchain functions normally, and whenever the maximum capacity is exceeded, the window of opportunity grows for hackers. Besides the risk that rush hours would bring by extending the time to work with the public key and forge transactions, there are network based attacks that could serve the same purpose: slow the confirmation time and create a bigger window to forge transactions. These types are attacks where the attacker targets the network instead of the sender of the transaction: Performing a DDoS attack or BGP routing attack or NSA Quantum Insert attack on a peer-to-peer network would be hard. But when provided with an opportunity to earn billions, hackers would find a way. For example: https://bitcoinmagazine.com/articles/researchers-explore-eclipse-attacks-ethereum-blockchain/ For BTC: https://eprint.iacr.org/2015/263.pdf An eclipse attack is a network-level attack on a blockchain, where an attacker essentially takes control of the peer-to-peer network, obscuring a node’s view of the blockchain. That is exactly the recipe for what you would need to create extra time to find public keys and derive private keys from them. Then you could sign transactions of your own and confirm them before the originals do. This specific example seems to be fixed now, but it most definitely shows there is a risk of other variations to be created. Keep in mind, before this variation of attack was known, the common opinion was that it was impossible. With little incentive to create such an attack, it might take a while until another one is developed. But when the possession of full public keys equals the possibility to forge transactions, all of a sudden billions are at stake.
“Besides only using hashed public keys as addresses, we use the First In First Out (FIFO) mechanism. This solves the forged transaction issue, as they will not be confirmed before the original transactions. That's why we are quantum resistant.” This is incorrect.
There is another period where the public key is openly available: the moment where a transaction is sent from the users device to the nodes on the blockchain network. The sent transaction can be delayed or totally blocked from arriving to the blockchain network. While this happens the attacker can obtain the public key. This is a man-in-the-middle (MITM) attack. A MITM is an attack where the attacker secretly relays and possibly alters the communication between two parties who believe they are directly communicating with each other. No transaction is 100% safe from a MITM attack. This type of attack isn’t commonly known amongst average usergroups due to the fact communication is done either encrypted or by the use of private- public key cryptography. Therefore, at this point of time MITM attacks are not an issue, because the information in transactions is useless for hackers. To emphasize the point made: a MITM attack can be done at this point of time to your transactions. But the information obtained by a hacker is useless because he can not break the cryptography. The encryption and private- public key cryptography is safe at this point of time. ECDSA and RSA can not be broken yet. But in the era of quantum computers the problem is clear: an attacker can obtain the public key and create enough time to forge a transaction which will be sent to the blockchain and arrive there first without the network having any way of knowing the transaction is forged. By doing this before the transaction reaches the blockchain, FIFO will be useless. The original transaction will be delayed or blocked from reaching the blockchain. The forged transaction will be admitted to the network first. And First In First Out will actually help the forged transaction to be confirmed before the original.
“Besides having only hashed public keys, we use small standardized fees. Forged transactions will not be able to use higher fees to get prioritized and confirmed before the original transactions, thus when the forged transaction will try to confirm the address is already empty. This is why we are quantum resistant.” This is incorrect.
The same arguments apply as with the FIFO system. The attack can be done before the original transaction reaches the network. Thus the forged transaction will still be handled first no matter the fee hight.
“Besides the above, we use multicast so all nodes receive the transaction at the same time. That's why we are quantum resistant.” This is incorrect.
Multicast is useless against a MITM attack when the attacker is close enough to the source.
“Besides the above, we number all our transactions and authenticate nodes so the user always knows who he's talking to. That's why we are quantum resistant.” This is incorrect.
Besides the fact that you’re working towards a centralized system if only verified people can become nodes. And besides the fact that also verified nodes can go bad and work with hackers. (Which would be useless if quantum resistant signature schemes would be implemented because a node or a hacker would have no use for quantum resistant public keys and signatures.) There are various ways of impersonating either side of a communication channel. IP-spoofing, ARP-spoofing, DSN-spoofing etc. All a hacker needs is time and position. Time can be created in several ways as explained above. All the information in the transaction an original user sends is valid. When a transaction is hijacked and the communication between the user and the rest of the network is blocked, a hacker can copy that information to his own transaction while using a forged signature. The only real effective defense against MITM attacks can be done on router or server-side by a strong encryption between the client and the server (Which in this case would be quantum resistant encryption, but then again you could just as well use a quantum resistant signature scheme.), or you use server authentication but then you would need that to be quantum resistant too. There is no serious protection against MITM attacks when the encryption of the data and the authentication of a server can be broken by quantum computers. Only quantum resistant signature schemes will secure blockchain to quantum hacks. Every blockchain will need their users to communicate their public key to the blockchain to authenticate signatures and make transactions. There will always be ways to obtain those keys while being communicated and to stretch the period where these keys can be used to forge transactions. Once you have, you can move funds to your own address, a bitcoin mixer, Monero, or some other privacy coin. Conclusion There is only one way to currently achieve Quantum Resistance: by making sure the public key can be made public without any risks, as is done now in the pre-quantum period and as Satoshi has designed blockchain. Thus by the use of quantum resistant signature schemes. The rest is all a patchwork of risk mitigation and delaying strategies; they make it slightly harder to obtain a public key and forge a transaction but not impossible. Addition And then there is quite often this strategy of postponing quantum resistant signature schemes
“Instead of ECDSA with 256 bit keys we will just use 384 bit keys. And after that 521 bit keys, and then RSA 4096 keys, so we will ride it out for a while. No worries we don’t need to think about quantum resistant signature schemes for a long time.” This is highly inefficient, and creates more problems than it solves.
Besides the fact that this doesn’t make a project quantum resistant, it is nothing but postponing the switch to quantum resistant signatures, it is not a solution. Going from 256 bit keys to 384 bit keys would mean a quantum computer with ~ 3484 qubits instead of ~ 2330 qubits could break the signature scheme. That is not even double and postpones the problem either half a year or one year, depending which estimate you take. (Doubling of qubits every year, or every two years). It does however have the same problems as a real solution and is just as much work. (Changing the code, upgrading the blockchain, finding consensus amongst the nodes, upgrading all supporting systems, hoping the exchanges all go along with the new upgrade and migrate their coins, heaving all users migrate their coins.) And then quite soon after that, they'll have to go at it again. What they will do next? Go for 512 bit curves? Same issues. It's just patchworks and just as much hassle, but then over and over again for every “upgrade” from 384 to 521 etc. And every upgrade the signatures get bigger, and closer to the quantum resistant signature sizes and thus the advantage you have over blockchains with quantum resistant signature schemes gets smaller. While the quantum resistant blockchains are just steady going and their users aren’t bothered with all the hassle. At the same time the users of the blockchain that is constantly upgrading to a bigger key size, keep on needing to migrate their coins to the new and upgraded addresses to stay safe.
Evidence Points to Bitcoin being an NSA-engineered Psyop to roll out One-World Digital Currency
Eye I'm going to assume the readers who make it to this article are well informed enough that I don't have to go into the history of the global money changers and their desire for a one world currency. (If you don't yet understand the goal of the globalist banking empire and the coming engineered collapse of the fiat currency system, you're already about 5,000 posts behind the curve.) With that as a starting point, it's now becoming increasingly evident that Bitcoin may be a creation of the NSA and was rolled out as a "normalization" experiment to get the public familiar with digital currency. Once this is established, the world's fiat currencies will be obliterated in an engineered debt collapse (see below for the sequence of events), then replaced with a government approved cryptocurrency with tracking of all transactions and digital wallets by the world's western governments. NSA mathematicians detailed "digital cash" two decades ago What evidence supports this notion? First, take a look at this document entitled, "How to Make a Mint - The Cryptography of Anonymous Electronic Cash." This document, released in 1997 - yes, twenty years ago - detailed the overall structure and function of Bitcoin cryptocurrency. Who authored the document? Try not to be shocked when you learn it was authored by,
"mathematical cryptographers at the National Security Agency's Office of Information Security Research and Technology."
The NSA, in other words, detailed key elements of Bitcoin long before Bitcoin ever came into existence. Much of the Bitcoin protocol is detailed in this document, including signature authentication techniques, eliminating cryptocoin counterfeits through transaction authentication and several features that support anonymity and untraceability of transactions. The document even outlines the heightened risk of money laundering that's easily accomplished with cryptocurrencies. It also describes "secure hashing" to be "both one-way and collision-free." Although Bitcoin adds mining and a shared, peer-to-peer blockchain transaction authentication system to this structure, it's clear that the NSA was researching cryptocurrencies long before everyday users had ever heard of the term. Note, too, that the name of the person credited with founding Bitcoin is Satoshi Nakamoto, who is reputed to have reserved one million Bitcoins for himself. Millions of posts and online threads discuss the possible identity of Satishi Nakamoto, and some posts even claim the NSA has identified Satoshi. However, another likely explanation is that Satoshi Nakamotois the NSA, which means he is either working for the NSA or is a sock puppet character created by the NSA for the purpose of this whole grand experiment. The NSA also wrote the crypto hash used by Bitcoin to secure all transactions On top of the fact that the NSA authored a technical paper on cryptocurrency long before the arrival of Bitcoin, the agency is also the creator of the SHA-256 hash upon which every Bitcoin transaction in the world depends. As The Hacker News (THN) explains.
"The integrity of Bitcoin depends on a hash function called **SHA-256**, which was designed by the NSA and published by the *National Institute for Standards and Technology* ([NIST](https://en.wikipedia.org/wiki/National_Institute_of_Standards_and_Technology))."
THN also adds:
"If you assume that the NSA did something to SHA-256, which no outside researcher has detected, what you get is the ability, with credible and detectable action, they would be able to forge transactions. The really scary thing is somebody finds a way to find collisions in SHA-256 really fast without brute-forcing it or using lots of hardware and then they take control of the network."
Cryptography researcher Matthew D. Green of Johns Hopkins University said. In other words, if the SHA-256 hash, which was created by the NSA, actually has a backdoor method for cracking the encryption, it would mean the NSA could steal everybody's Bitcoins whenever it wants (call it "Zero Day.") That same article, written by Mohit Kumar, mysteriously concludes,
"Even today it's too early to come to conclusions about Bitcoin. Possibly it was designed from day one as a tool to help maintain control of the money supplies of the world."
And with that statement, Kumar has indeed stumbled upon the bigger goal in all this:
To seize control over the world money supply as the fiat currency system crumbles and is replaced with a one-world *digital currency controlled by globalists*.
"The attack allows an attacker to extract the secret crypto key from a system by analyzing the pattern of memory utilization or the electromagnetic outputs of the device that are emitted during the decryption process."
Note, importantly, that this is a 1024-bit encryption system. The same technique is also said to be able to crack 2048-bit encryption. In fact, encryption layers are cracked on a daily basis by clever hackers. Some of those encryption layers are powering various cryptocurrencies right now. Unless you are an extremely high-level mathematician, there's no way you can know for sure whether any crypto currency is truly non-hackable. In fact, every cryptocurrency becomes obsolete with the invention of large-scale quantum computing. Once China manages to build a working 256-bit quantum computer, it can effectively steal all the Bitcoins in the world (plus steal most national secrets and commit other global mayhem at will). (Video) Ten steps to crypto-tyranny - The "big plan" by the globalists (and how it involves Bitcoin) In summary, here's one possible plan by the globalists to seize total control over the world's money supply, savings, taxation and financial transactions while enslaving humanity. And it all starts with Bitcoin...
Roll out the NSA-created Bitcoin to get the public excited about a digital currency.
Quietly prepare a globalist-controlled cryptocurrency to take its place. (JP Morgan, anyone...?)
Initiate a massive, global-scale [false flag operation](http://www.bibliotecapleyades.net/sociopolitica/sociopol_falseflag.htm) that crashes the global debt markets and sends fiat currencies down in flames (hoax alien invasion, hoax North Korean EMP attack, mass distributed power grid terrorism network, etc.)
Blame whatever convenient enemy is politically acceptable (North Korea, "the Russians," Little Green Men or whatever it takes…)
Allow the fiat currency debt pyramid to collapse and smolder until the sheeple get desperate.
With great fanfare, announce a government-backed cryptocurrency replacement for all fiat currencies, and position world governments as the SAVIOR of humanity. Allow the desperate public to trade in their fiat currencies for official crypto currencies.
[Outlaw cash](http://www.bibliotecapleyades.net/sociopolitica/sociopol_globalbanking.htm#Cashless_Society) and *criminalize gold and silver ownership by private citizens*. All in the name of "security," of course.
Criminalize all non-official cryptocurrencies such as Bitcoin, crashing their value virtually overnight and funneling everyone into the one world government crypto, where the NSA controls the blockchain. This can easily be achieved by blaming the false flag event (see above) on some nation or group that is said to have been "funded by Bitcoin, the cryptocurrency used by terrorists."
Require [embedded RFID](http://www.bibliotecapleyades.net/ciencia/secret_projects/implants.htm#RFID) or biometric identifiers for all transactions in order to "authenticate" the one-world digital crypto currency activities. *Mark of the Beast* becomes reality. No one is allowed to eat, travel or earn a wage without being marked.
Once absolute control over the new one-world digital currency is achieved, weaponize the government-tracked blockchain to track all transactions, investments and commercial activities. Confiscate a portion of all crypto under the guise of "automated taxation." In an emergency, the government can even announce *negative interest rates* where your holdings automatically decrease each day.
With all this accomplished, globalists can now roll out absolute totalitarian control over every aspect of private lives by enforcing financial "blackouts" for those individuals who criticize the government. They can put in place automatic deductions for traffic violations, vehicle license plate taxes, internet taxes and a thousand other oppressive taxes invented by the bureaucracy. With automatic deductions run by the government, citizens have no means to halt the endless confiscation of their "money" by totalitarian bureaucrats and their deep state lackeys. How do you feel about your Bitcoin now...? Video by Mike Adams December 10, 2017 from NaturalNews Website Source
It can be very time consuming to keep up to date on a single blockchain project let alone multiple ones. If you just heard about NEO a few weeks ago it would be impossible catch up on past occurrences due to high volume of Reddit posts and articles made on the project. I’m going to try and simplify the past, present and future as much as I can into one well thought-out post. I hope I can be helpful to anyone who has been investigating like myself. I will include sources with all of my research. https://imgur.com/a/NBI7S (img for mobile backround) Key notes from the White Paperhttp://docs.neo.org/en-us/ Digital Assets Digital assets are programmable assets that exist in the form of electronic data. With blockchain technology, the digitization of assets can be decentralized, trustful, traceable, highly transparent, and free of intermediaries. On the NEO blockchain, users are able to register, trade, and circulate multiple types of assets. Proving the connection between digital and physical assets is possible through digital identity. Assets registered through a validated digital identity are protected by law. Digital Identity Digital identity refers to the identity information of individuals, organizations, and other entities that exist in electronic form. The more mature digital identity system is based on the PKI (Public Key Infrastructure) X.509 standard. In NEO, we will implement a set of X.509 compatible digital identity standards. This set of digital identity standards, in addition to compatible X.509 level certificate issuance model, will also support Web Of Trust point-to-point certificate issuance model. Our verification of identity when issuing or using digital identities includes the use of facial features, fingerprint, voice, SMS and other multi-factor authentication methods. Smart Contracts The NeoContract smart contract system is the biggest feature of the seamless integration of the existing developer ecosystem. Developers do not need to learn a new programming language but use C#, Java and other mainstream programming languages in their familiar IDE environments (Visual Studio, Eclipse, etc.) for smart contract development, debugging and compilation. NEO's Universal Lightweight Virtual Machine, NeoVM, has the advantages of high certainty, high concurrency, and high scalability. The NeoContract smart contract system will allow millions of developers around the world to quickly carry out the development of smart contracts. Economic Model NEO has two native tokens, NEOand NeoGas NEO represents the right to manage the network. Management rights include voting for bookkeeping, NEO network parameter changes, and so on. The minimum unit of NEO is 1 and tokens cannot be subdivided. GAS is the fuel token for the realization of NEO network resource control. The NEO network charges for the operation and storage of tokens and smart contracts, thereby creating economic incentives for bookkeepers and preventing the abuse of resources. The minimum unit of GAS is 0.00000001. Distribution Mechanism NEO's 100 million tokens are divided into two portions. The first portion is 50 million tokens distributed proportionally to supporters of NEO during the crowdfunding. This portion has been distributed. The second portion is 50 million NEO managed by the NEO Council to support NEO's long-term development, operation and maintenance and ecosystem. The NEO in this portion has a lockout period of 1 year and is unlocked only after October 16, 2017. This portion WILL NOT enter the exchanges and is only for long-term support of NEO projects. The plans for it are as below: ▪ 10 million tokens (10% total) will be used to motivate NEO developers and members of the NEO Council ▪ 10 million tokens (10% total) will be used to motivate developers in the NEO ecosystem ▪ 15 million tokens (15% total) will be used to cross-invest in other block-chain projects, which are owned by the NEO Council and are used only for NEO projects ▪ 15 million (15% total) will be retained as contingency ▪ The annual use of NEO in principle shall NOT exceed 15 million tokens GAS distribution GAS is generated with each new block. The initial total amount of GAS is zero. With the increasing rate of new block generation, the total limit of 100 million GAS will be achieved in about 22 years. The interval between each block is about 15-20 seconds, and 2 million blocks are generated in about one year. According to this release curve, 16% of the GAS will be created in the first year, 52% of the GAS will be created in the first four years, and 80% of the GAS will be created in the first 12 years. GAS will be distributed proportionally in accordance with the NEO holding ratio, recorded in the corresponding addresses. NEO holders can initiate a claim transaction at any time and claim these GAS tokens at their holding addresses. Consensus mechanism: dBFT The dBFT is called the Delegated Byzantine Fault Tolerant, a Byzantine fault-tolerant consensus mechanism that enables large-scale participation in consensus through proxy voting. The holder of the NEO token can, by voting, pick the bookkeeper it supports. The selected group of bookkeepers, through BFT algorithm, reach a consensus and generate new blocks. Voting in the NEO network continues in real time, rather than in accordance with a fixed term. Cross-chain assets exchange agreement NeoX has been extended on existing double-stranded atomic assets exchange protocols to allow multiple participants to exchange assets across different chains and to ensure that all steps in the entire transaction process succeed or fail together. In order to achieve this function, we need to use NeoContract function to create a contract account for each participant. If other blockchains are not compatible with NeoContract, they can be compatible with NeoX as long as they can provide simple smart contract functionality. Cross-chain distributed transaction protocol Cross-chain distributed transactions mean that multiple steps of a transaction are scattered across different blockchains and that the consistency of the entire transaction is ensured. This is an extension of cross-chain assets exchange, extending the behavior of assets exchange into arbitrary behavior. In layman's terms, NeoX makes it possible for cross-chain smart contracts where a smart contract can perform different parts on multiple chains, either succeeding or reverting as a whole. This gives excellent possibilities for cross-chain collaborations and we are exploring cross-chain smart contract application scenarios. Distributed Storage Protocol: NeoFS NeoFS is a distributed storage protocol that utilizes Distributed Hash Table technology. NeoFS indexes the data through file content (Hash) rather than file path (URI). Large files will be divided into fixed-size data blocks that are distributed and stored in many different nodes Anti-quantum cryptography mechanism: NeoQS The emergence of quantum computers poses a major challenge to RSA and ECC-based cryptographic mechanisms. Quantum computers can solve the large number of decomposition problems (which RSA relies on) and the elliptic curve discrete logarithm (which ECC relies on) in a very short time. NeoQS (Quantum Safe) is a lattice-based cryptographic mechanism. At present, quantum computers do not have the ability to quickly solve the Shortest Vector Problem (SVP) and the Closest Vector Problem (CVP), which is considered to be the most reliable algorithm for resisting quantum computers. Reasons for choosing dBFT over PoW and PoS: With the phenomenal success of Bitcoin and its increasing mainstream adoption, the project’s unbounded appetite for energy grew accordingly. Today, the average Bitcoin transaction costs as much energy as powering 3.67 average American homes, which amounts to about 3000 times more than a comparable Credit Card settlement. This mind boggling amount of energy is not, as it is commonly believed, being wasted. It is put to good use: securing the Bitcoin network and rendering attacks on it infeasible. However, the cost of this security mechanism and its implications for an increasingly warming and resource hungry planet led almost the entire crypto industry to the understanding that an alternative has to be found, at least if we’re interested in seeing blockchain technology gaining overwhelming mainstream adoption. The most popular alternative to PoW, used by most alternative cryptocurrency systems, is called Proof-of-Stake, or PoS. PoS is highly promising in the sense that it doesn’t require blockchain nodes to perform arduous, and otherwise useless, cryptographic tasks in order to render potential attacks costly and infeasible. Hence, this algorithm cuts the power requirements of PoS blockchains down to sane and manageable amounts, allowing them to be more scalable without guzzling up the planet's energy reserves. As the name suggests, instead of requiring proof of cryptographic work, PoS requires blockchain nodes to proof stake in the currency itself. This means that in order for a blockchain node to be eligible for a verification reward, the node has to hold a certain amount of currency in the wallet associated with it. This way, in order to execute an attack, a malevolent node would have to acquire the majority of the existing coin supply, rendering attacks not only costly but also meaningless, since the attackers would primarily harm themselves. PoS, as well as PoW, simply cause the blockchain to fork into two alternative versions if for some reason consensus breaks. In fact, most blockchains fork most of the time, only to converge back to a single source of truth a short while afterwards. By many crypto enthusiasts, this obvious bug is very often regarded as a feature, allowing several versions of the truth to survive and compete for public adoption until a resolution is generated. This sounds nice in theory, but if we want to see blockchain technology seriously disrupt and/or augment the financial sector, this ever lurking possibility of the blockchain splitting into two alternative versions cannot be tolerated. Furthermore, even the fastest PoS blockchains out there can accomodate a few hundred transactions per second, compare that to Visa’s 56,000 tx/s and the need for an alternative becomes clear as day. A blockchain securing global stock markets does not have the privilege to fork into two alternative versions and just sit and wait it out until the market (or what’s left of it) declares a winner. What belongs to whom should be engraved in an immutable record, functioning as a single source of truth with no glitches permitted. After investigating and studying the crypto industry and blockchain technologies for several years, we came to the conclusion that the delegated Byzantine Fault Tolerance alternative (or dBFT) is best suited for such a system. It provides swift transaction verification times, de-incentivises most attack vectors and upholds a single blockchain version with no risk of forks or alternative blockchain records emerging - regardless of how much computing power, or coins an attacker possesses. The term Byzantine Fault Tolerance (BFT) derives its name from the Byzantine Generals problem in Game Theory and Computer Science, describing the problematic nature of achieving consensus in a distributed system with suboptimal communication between agents which do not necessarily trust each other. The BFT algorithm arranges the relationship between blockchain nodes in such a way that the network becomes as good as resilient to the Byzantine Generals problem, and allows the system to remain consensus even if some nodes bare malicious intentions or simply malfunction. To achieve this, Antshare’s version of the delegated BFT (or dBFT) algorithm acknowledges two kinds of players in the blockchain space: professional node operators, called bookkeeping nodes, who run nodes as a source of income, and users who are interested in accessing blockchain advantages. Theoretically, this differentiation does not exist in PoW and most PoS environments, practically, however, most Bitcoin users do not operate miners, which are mostly located in specialized venues run by professionals. At Antshares we understand the importance of this naturally occurring division of labor and use it to provide better security for our blockchain platform. Accordingly, block verification is achieved through a consensus game held between specialized bookkeeping nodes, which are appointed by ordinary nodes through a form of delegated voting process. In every verification round one of the bookkeeping nodes is pseudo-randomly appointed to broadcast its version of the blockchain to the rest of the network. If ⅔ of the remaining nodes agree with this version, consensus is secured and the blockchain marches on. If less than ⅔ of the network agrees, a different node is appointed to broadcast its version of the truth to the rest of the system, and so forth until consensus is established. In this way, successful system attacks are almost impossible to execute unless the overwhelming majority of the network is interested in committing financial suicide. Additionally, the system is fork proof, and at every given moment only one version of the truth exists. Without complicated cryptographic puzzles to solve, nodes operate much faster and are able to compete with centralized transaction methods. https://www.econotimes.com/Blockchain-project-Antshares-explains-reasons-for-choosing-dBFT-over-PoW-and-PoS-659275 OnChain It is important to note the technical difference between Onchain and NEO. Onchain is a private VC-backed company with over 40 employees. NEO is a public platform with different community-led groups contributing to this public project. There exists NEO council comprised of the original NEO creators, employees from Onchain, full time NEO council members and there is also the first Western based group called City of Zion. This confusion is likely the source of the rumour about Antshares and Alibaba having a connection. Onchain and NEO are separate entities who are intimately related via cross-chain communications and similar designs. Onchain, a Shanghai-based blockchain R&D company, first started developing Antshares in February of 2014 which will eventually become the foundation of DNA. Onchain was founded by CEO Da HongFei and CTO Erik Zhang in response to the attention from private companies garnered by the development of Antshares, China’s first public blockchain. In contrast to the weeks-old start-ups launching ICOs that is happening currently in the blockchain world, it took them 22 long months of R&D to even begin providing services to their first customers. Finally, in April 2016, the first whitepaper on consensus protocol from China was born — the dBFT (delegated Byzantine Fault Tolerance) protocol. 2016 was a busy year for Onchain and they really picked up the pace that year. Other than continuing the development of Antshares, brushing shoulders with Fortune 500 companies, Onchain became the first Chinese blockchain company to join Hyperledger — an open source blockchain project started by the Linux Foundation specifically focusing on the development of private and consortium chains for businesses. It is here where the Da HongFei and Erik Zhang, entered the hyperbolic time chamber that is now known as Fabric, a platform by Hyperledger for distributed ledger solutions, and has consequently helped them to develop many aspects underpinning the design of DNA. In June of 2016, during the first of many future partnerships with Microsoft China, Onchain founded Legal Chain specifically targeting the inadequacies of the digital applications within the legal system. In 2005, (Digital Signature Act) was passed into national law which permitted an effective digital signatures to gain the same legal rights as a real signature. In company with Microsoft China, they are also aiming to integrate the technology with Microsoft’s face and voice recognition API function to kick start this digital revolution within the legal system. At the same time, a partnership was formed with FaDaDa, a third-party platform for electronic contracts that has processed over 27 million contracts to date, to provide secure evidence storage with DNA. If that’s not enough, they were also voted as KPMG’s top 50 Fintech Company in China and established a relationship with the Japanese Ministry of Economy, Trade and Industry which led to the recent tour to Japan. Finally, at the end of 2016 they announced a partnership with Alibaba to provide attested email service for Ali Cloud with Legal Chain where it provides a proof-of-existence for a blockchain-powered email evidence repository for enterprise-level use. Fosun Group, China’s largest private conglomerate, have recently invested into Onchain in order to apply DNA across all of its businesses. Currently, Fosun International has a market cap of 102.98 billion dollars on the Hong Kong Stock Exchange and that is only its international branch. The role of Onchain so far is reminiscent of Ethereum’s EEA in addition to a stronger emphasis of governmental cooperation. Onchain has identified the shortcomings of present laser focus of hype on public platforms such as NEO and Ethereum and addressing that with DNA. DNA envisions a future where a network of assorted, specifically designed blockchains serving private enterprises, consortiums, government and the public communicating with each other forming an interconnected blockchain network. This is the goal of DNA — infiltrating every little inefficient niche that had no better alternatives before the invention of blockchain. What is especially critical to remember during this explosive time of hype driven partly by the obscene degree of greed is that not every little niche that blockchain can fill will be holding its own little ICO for you to “go to the moon on your rocket powered lambos”. Some of those efficiencies gained will simply be consumed by companies privately or by public systems such as the legal system. https://hackernoon.com/neo-onchain-and-its-ultimate-plan-dna-4c33e9b6bfaa http://www.onchain.com/ https://github.com/DNAProject/DNA https://siliconangle.com/blog/2016/10/20/onchain-partners-with-alibaba-for-blockchain-powered-email-evidence-repository/ https://www.reuters.com/article/us-fosun-blockchain/chinas-fosun-invests-in-local-version-of-bitcoin-tech-blockchain-idUSKCN1B30KM City of Zion (CoZ) City of Zion (CoZ) is a global community of open source enthusiasts, with the shared goal of helping NEO achieve its full potential. CoZ primarily operates through the community Slack and CoZ Github, central places where the community shares knowledge and contributes to projects. CoZ is neither a corporation, nor a consulting firm or a devshop / for-hire group. Members https://imgur.com/a/Gc9jT CoZ aims to be low barrier of entry, the process is straightforward:
Join the channel #develop.
Fork or create a project.
Publish as open source.
After a couple of contributions a CoZ council member will invite you to the proper channel for your contributions.
Receive rewards and back to 3.
Unit testing - Ongoing effort to implement code coverage for the core Integration testing - Tools for automated testing, performance metrics and functionality validation on private test nets Continuous integration - Automated multi-platform testing of all pull requests at GitHub. Deployment pipeline - Automated tools and processes to ensure fast and reliable updates upon code changes New C# implementation (NEO2) - Improve code quality, speed & testability Roadmap https://imgur.com/a/4CDhw dApps competition https://cityofzion.io/dapps/1 10 prizes of 1350 GAS, with 500 GAS to be used for smart contract deployment. Currently 19 dApps registered. Deadline is 16 of November 11:59 EST. https://drive.google.com/drive/folders/0B4wu5lNlukwybEstaEJMZ19kbjQ Traveling August 8th to August 12th: From August 8th to August 12th, 2017, the NEO core team, led by founder & CEO Da Hongfei will travel to Japan to explore the forefront of Japan's Blockchain innovation. This trip represents the first in a series of trips around the world with the goal to foster international cooperation's and to keep up with the fast pace in Blockchain innovation. Starting in Japan, the NEO core team will visit famous local Blockchain research institutions and active communities to engage in bilateral communication. NEO will meet with Japanese tech-celebrities to gain insights about the latest developments in the Japanese Blockchain and digital currency community. Additionally, Japanese local tech media will conduct an interview allowing NEO to present its development status and its latest technological innovations. https://www.reddit.com/NEO/comments/6ry4s9/japan_the_neo_core_team_starts_out_on_an/ https://www.youtube.com/watch?v=SgTQ32CkxlU https://www.reddit.com/NEO/comments/6ssfx1/neo_meetup_in_tokyo_august_10th_2017_2100h/ 19th August, 2017 Blockchain X Series - NEO example applications 20th August, 2017 NEO and Microsoft Azure host a blockchain programming training in Shanghai 23rd August, 2017 INNOxNEO Blockchain Open Nights: 2nd Meeting 24th August, 2017 NEO Meetup in Taipei https://www.reddit.com/NEO/comments/6wbebneo_taipei_meetup_long_post/ 13th September, 2017 INNOxNEO Blockchain Open Nights: 3rd Meeting 14th September, 2017 NEO Shanghai Meetup with NEO team 24th September, 2017 NEO Blockchain Programming Day - Hangzhou Station 27th September, 2017 INNOxNEO Blockchain Open Nights: 4th Meeting 27th September, 2017 First London NEO Developer Meetup! 4th October, 2017 First San Francisco NEO Developer Social! 14th-16th October, 2017 GNOME.Asia Summit 2017, Chongqing, China 21st October, 2017 NEO JOY, Exploring Blockchain application, Nanjing, China 26th October, 2017 Inaugural Global Fintech & Blockchain China Summit 2017 Networks proves itself with the first ICO ICOs, on other platforms such as Ethereum, often resulted in a sluggish network and transaction delays. While NEO’s dBFT consensus algorithm is designed to achieve consensus with higher efficency and greater network throughputt, no amount of theoretical calculations can simulate the reality of real-life conditions. --Key Observations-- Smart Contract Invocations: A total of 13,966 smart contracts invocations were executed on the NEO network over this time period, of which, nearly all called the RPX smart contract method mintTokens. A total of 543,348,500 RPX tokens were successfully minted and transferred to user accounts, totalling 10,097 smart contract executions. Refunded Invocations: A total of 4182 refund events were triggered by the smart contract method mintTokens. (Note: RPX has stated that these refunds will be processed within the next two weeks.) Crowdsale statistics: A successful mintTokens execution used around 1043 VM operations, while an execution that resulted in a refund used 809 VM operations. Within the hour and six minutes that the token sale was active, a total of 12,296,409 VM operations were executed. A total of 9,575 unique addresses participated in the RPX ICO. Half of these, approximately 4,800 unique addresses, participated through CoZ’s Neon wallet. The top 3 blocks with the most transactions were block 1445025 (3,242 transactions), block 1444902 (2,951 transactions), and block 1444903 (1609 transactions). Final Thoughts At the moment, the consensus nodes for the NEO network are operated by the NEO Council in China. By Q1 2018, NEO Council aims to control less than two-thirds of the consensus nodes. We are pleased to note that the NEO network continuted to operate efficiently with minimal network impact, even under extreme network events. Block generation time initially slowed down to 3 minutes to process the largest block, but quickly recovered to approximately 25 seconds. Throughout the entire RPX ICO, consensus nodes were able to achieve consensus and propagate new block transactions to the rest of the network. In closing, while we consider this performance to be excellent, NEO Council and City of Zion areworking closely together on upgrades, that will increase the throughputs of the NEO network. Hyperledger Members and governance of Hyperledger: Early members of the initiative included blockchain ISVs, (Blockchain, ConsenSys, Digital Asset, R3, Onchain), well-known technology platform companies (Cisco, Fujitsu, Hitachi, IBM, Intel, NEC, NTT DATA, Red Hat, VMware), financial services firms (ABN AMRO, ANZ Bank, BNY Mellon, CLS Group, CME Group, the Depository Trust & Clearing Corporation (DTCC), Deutsche Börse Group, J.P. Morgan, State Street, SWIFT, Wells Fargo), Business Software companies like SAP, Systems integrators and others such as: (Accenture, Calastone, Credits, Guardtime, IntellectEU, Nxt Foundation, Symbiont). The governing board of the Hyperledger Project consists of twenty members chaired by Blythe Masters, (CEO of Digital Asset), and a twelve-member Technical Steering Committee chaired by Christopher Ferris, CTO of Open Technology at IBM. http://www.8btc.com/onchain-hyperledger https://en.wikipedia.org/wiki/Hyperledger “As a leading open-source contributor in China’s blockchain community, Onchain shares the same values as the Linux Foundation and the Hyperledger project intrinsically. We believe international collaboration plus local experience are key to the adoption of distributed ledger technology in China; we are also very excited to see other Chinese blockchain startups join Hyperledger and look forward to adding our combined expertise to the project.” Da Hongfei, Founder and CEO of Onchain https://hyperledger.org/testimonials/onchain Important Articles Distribution technology DNA framework went through the national block chain standard test On May 16th, the first China block chain development competition in Hangzhou announced that Onchain, became the first through the national standard test block system. http://www.51cto.com/art/201705/539824.htm?mobile Da Hongfei and OnChain working relationship with Chinese Government https://finance.sina.cn/2017-04-13/detail-ifyeifqx5554606.d.html?from=wap http://www.gz.chinanews.com/content/2017/05-28/73545.shtml The Chinese government is reportedly preparing to allow the resumption of cryptocurrency trading in the country in the coming months, with the required anti-money laundering (AML) systems and licensing programs in place. https://coingeek.com/cryptocurrency-trading-poised-to-make-a-return-in-china-report/ Japanese Ministry of Economy, Trade and Industry - Working with OnChain and NEO http://www.8btc.com/onchain-ribenjingjichanyesheng Notice NEO will be invited to attend the INNO x Austrade China-Australia chain high-end exchange AUSTRADE - The Australian Trade and Investment Commission is the official government, education and investment promotion agency of the Australian Government https://mp.weixin.qq.com/s/LmXnW7MtzOX_fqIo7diU9A Source for NEO/OnChain Microsoft Cooperation: http://www.8btc.com/onchain-microsoft Da Hongfei quotes
"There is no direct cooperation between Alibaba and NEO/Onchain, other than their mailbox service is using Law Chain to provide attested email service. In terms of Microsoft, yes we have cooperation with Microsoft China because NEO is built with C# and .NET Core, and NeoContract is the first in the world to support writing smart contract with C#"
"We have pretty good communication with government, with regulators. They don't have any negative impression with NEO and they like our technology and the way we deal with things. Regulation is not an issue for us"
“Before they started cleaning up the market, I was asked for information and suggestions” “I do not expect the government to call me in the short-term and say, ‘Let’s use NEO as the blockchain technology infrastructure of China.’ But in the medium term? Why not? I think it’s possible.”
https://medium.com/@TheCoinEconomy/neo-founder-da-hongfei-advised-china-on-ico-exchange-ban-says-govt-4631b9f7971 -Upcoming Roadmap- Decentralization of consensus nodes ▪ P2P Network optimization (2017Q4) – Network optimizations to ensure fast block generation after decentralization. ▪ Voting Algorithm Optimization (2017Q4) – Adjustments in voting algorithm to prevent identified attack vectors. ▪ Candidate List Website (2018Q1) – Published list of candidates so that voters know who they are voting for. ▪ NEO Council Consensus Node < 2/3 (2018Q1) – NEO Council shall operate less than two thirds of consensus nodes by the end of quarter 1, 2018. Universal Data Format for Wallet/Node Prog. ▪ NEP2 – Private Key Encryption/Decryption (2017Q4) - Method for encrypting and encoding a passphrase-protected private key. ▪ NEP3 – Universal Data Format (2017Q4) – Standard data format to allow easier wallet and node programming. https://neo.org/en-us/blog/details/65 Promotion/Ecosystem ▪ Globally Legal Token-raising Framework (2017Q4) – Following government interest to regulate ICO’s, NEO will complete a framework to raise tokens legally in all major markets by the end of 2017. ▪ NEO DevCon 1 (2017Q4) – First NEO Development Conference! More details at later date. ▪ CoZ Funding (2017Q4) – Continuous funding plan for CoZ covering next 5 years. ▪ Seed Projects (2017Q4) – First seed projects to be cross-invested with the dedicated NEO pool. https://neo.org/en-us/blog/details/65 https://github.com/neo-project Repositories - 14 People - 5 Contributors- 12 https://github.com/CityOfZion Repositories - 35 People - 14 Contributors- 22 https://github.com/DNAProject/DNA Repositories - 4 Contributors - 17 Donations welcome: ASdNxSa3E8bsxCE9KFKBMm3NA43sYJU9qZ
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