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Groestlcoin 6th Anniversary Release

Introduction

Dear Groestlers, it goes without saying that 2020 has been a difficult time for millions of people worldwide. The groestlcoin team would like to take this opportunity to wish everyone our best to everyone coping with the direct and indirect effects of COVID-19. Let it bring out the best in us all and show that collectively, we can conquer anything.
The centralised banks and our national governments are facing unprecedented times with interest rates worldwide dropping to record lows in places. Rest assured that this can only strengthen the fundamentals of all decentralised cryptocurrencies and the vision that was seeded with Satoshi's Bitcoin whitepaper over 10 years ago. Despite everything that has been thrown at us this year, the show must go on and the team will still progress and advance to continue the momentum that we have developed over the past 6 years.
In addition to this, we'd like to remind you all that this is Groestlcoin's 6th Birthday release! In terms of price there have been some crazy highs and lows over the years (with highs of around $2.60 and lows of $0.000077!), but in terms of value– Groestlcoin just keeps getting more valuable! In these uncertain times, one thing remains clear – Groestlcoin will keep going and keep innovating regardless. On with what has been worked on and completed over the past few months.

UPDATED - Groestlcoin Core 2.18.2

This is a major release of Groestlcoin Core with many protocol level improvements and code optimizations, featuring the technical equivalent of Bitcoin v0.18.2 but with Groestlcoin-specific patches. On a general level, most of what is new is a new 'Groestlcoin-wallet' tool which is now distributed alongside Groestlcoin Core's other executables.
NOTE: The 'Account' API has been removed from this version which was typically used in some tip bots. Please ensure you check the release notes from 2.17.2 for details on replacing this functionality.

How to Upgrade?

Windows
If you are running an older version, shut it down. Wait until it has completely shut down (which might take a few minutes for older versions), then run the installer.
OSX
If you are running an older version, shut it down. Wait until it has completely shut down (which might take a few minutes for older versions), run the dmg and drag Groestlcoin Core to Applications.
Ubuntu
http://groestlcoin.org/forum/index.php?topic=441.0

Other Linux

http://groestlcoin.org/forum/index.php?topic=97.0

Download

Download the Windows Installer (64 bit) here
Download the Windows Installer (32 bit) here
Download the Windows binaries (64 bit) here
Download the Windows binaries (32 bit) here
Download the OSX Installer here
Download the OSX binaries here
Download the Linux binaries (64 bit) here
Download the Linux binaries (32 bit) here
Download the ARM Linux binaries (64 bit) here
Download the ARM Linux binaries (32 bit) here

Source

ALL NEW - Groestlcoin Moonshine iOS/Android Wallet

Built with React Native, Moonshine utilizes Electrum-GRS's JSON-RPC methods to interact with the Groestlcoin network.
GRS Moonshine's intended use is as a hot wallet. Meaning, your keys are only as safe as the device you install this wallet on. As with any hot wallet, please ensure that you keep only a small, responsible amount of Groestlcoin on it at any given time.

Features

Download

iOS
Android

Source

ALL NEW! – HODL GRS Android Wallet

HODL GRS connects directly to the Groestlcoin network using SPV mode and doesn't rely on servers that can be hacked or disabled.
HODL GRS utilizes AES hardware encryption, app sandboxing, and the latest security features to protect users from malware, browser security holes, and even physical theft. Private keys are stored only in the secure enclave of the user's phone, inaccessible to anyone other than the user.
Simplicity and ease-of-use is the core design principle of HODL GRS. A simple recovery phrase (which we call a Backup Recovery Key) is all that is needed to restore the user's wallet if they ever lose or replace their device. HODL GRS is deterministic, which means the user's balance and transaction history can be recovered just from the backup recovery key.

Features

Download

Main Release (Main Net)
Testnet Release

Source

ALL NEW! – GroestlcoinSeed Savior

Groestlcoin Seed Savior is a tool for recovering BIP39 seed phrases.
This tool is meant to help users with recovering a slightly incorrect Groestlcoin mnemonic phrase (AKA backup or seed). You can enter an existing BIP39 mnemonic and get derived addresses in various formats.
To find out if one of the suggested addresses is the right one, you can click on the suggested address to check the address' transaction history on a block explorer.

Features

Live Version (Not Recommended)

https://www.groestlcoin.org/recovery/

Download

https://github.com/Groestlcoin/mnemonic-recovery/archive/master.zip

Source

ALL NEW! – Vanity Search Vanity Address Generator

NOTE: NVidia GPU or any CPU only. AMD graphics cards will not work with this address generator.
VanitySearch is a command-line Segwit-capable vanity Groestlcoin address generator. Add unique flair when you tell people to send Groestlcoin. Alternatively, VanitySearch can be used to generate random addresses offline.
If you're tired of the random, cryptic addresses generated by regular groestlcoin clients, then VanitySearch is the right choice for you to create a more personalized address.
VanitySearch is a groestlcoin address prefix finder. If you want to generate safe private keys, use the -s option to enter your passphrase which will be used for generating a base key as for BIP38 standard (VanitySearch.exe -s "My PassPhrase" FXPref). You can also use VanitySearch.exe -ps "My PassPhrase" which will add a crypto secure seed to your passphrase.
VanitySearch may not compute a good grid size for your GPU, so try different values using -g option in order to get the best performances. If you want to use GPUs and CPUs together, you may have best performances by keeping one CPU core for handling GPU(s)/CPU exchanges (use -t option to set the number of CPU threads).

Features

Usage

https://github.com/Groestlcoin/VanitySearch#usage

Download

Source

ALL NEW! – Groestlcoin EasyVanity 2020

Groestlcoin EasyVanity 2020 is a windows app built from the ground-up and makes it easier than ever before to create your very own bespoke bech32 address(es) when whilst not connected to the internet.
If you're tired of the random, cryptic bech32 addresses generated by regular Groestlcoin clients, then Groestlcoin EasyVanity2020 is the right choice for you to create a more personalised bech32 address. This 2020 version uses the new VanitySearch to generate not only legacy addresses (F prefix) but also Bech32 addresses (grs1 prefix).

Features

Download

Source

Remastered! – Groestlcoin WPF Desktop Wallet (v2.19.0.18)

Groestlcoin WPF is an alternative full node client with optional lightweight 'thin-client' mode based on WPF. Windows Presentation Foundation (WPF) is one of Microsoft's latest approaches to a GUI framework, used with the .NET framework. Its main advantages over the original Groestlcoin client include support for exporting blockchain.dat and including a lite wallet mode.
This wallet was previously deprecated but has been brought back to life with modern standards.

Features

Remastered Improvements

Download

Source

ALL NEW! – BIP39 Key Tool

Groestlcoin BIP39 Key Tool is a GUI interface for generating Groestlcoin public and private keys. It is a standalone tool which can be used offline.

Features

Download

Windows
Linux :
 pip3 install -r requirements.txt python3 bip39\_gui.py 

Source

ALL NEW! – Electrum Personal Server

Groestlcoin Electrum Personal Server aims to make using Electrum Groestlcoin wallet more secure and more private. It makes it easy to connect your Electrum-GRS wallet to your own full node.
It is an implementation of the Electrum-grs server protocol which fulfils the specific need of using the Electrum-grs wallet backed by a full node, but without the heavyweight server backend, for a single user. It allows the user to benefit from all Groestlcoin Core's resource-saving features like pruning, blocks only and disabled txindex. All Electrum-GRS's feature-richness like hardware wallet integration, multi-signature wallets, offline signing, seed recovery phrases, coin control and so on can still be used, but connected only to the user's own full node.
Full node wallets are important in Groestlcoin because they are a big part of what makes the system be trust-less. No longer do people have to trust a financial institution like a bank or PayPal, they can run software on their own computers. If Groestlcoin is digital gold, then a full node wallet is your own personal goldsmith who checks for you that received payments are genuine.
Full node wallets are also important for privacy. Using Electrum-GRS under default configuration requires it to send (hashes of) all your Groestlcoin addresses to some server. That server can then easily spy on your transactions. Full node wallets like Groestlcoin Electrum Personal Server would download the entire blockchain and scan it for the user's own addresses, and therefore don't reveal to anyone else which Groestlcoin addresses they are interested in.
Groestlcoin Electrum Personal Server can also broadcast transactions through Tor which improves privacy by resisting traffic analysis for broadcasted transactions which can link the IP address of the user to the transaction. If enabled this would happen transparently whenever the user simply clicks "Send" on a transaction in Electrum-grs wallet.
Note: Currently Groestlcoin Electrum Personal Server can only accept one connection at a time.

Features

Download

Windows
Linux / OSX (Instructions)

Source

UPDATED – Android Wallet 7.38.1 - Main Net + Test Net

The app allows you to send and receive Groestlcoin on your device using QR codes and URI links.
When using this app, please back up your wallet and email them to yourself! This will save your wallet in a password protected file. Then your coins can be retrieved even if you lose your phone.

Changes

Download

Main Net
Main Net (FDroid)
Test Net

Source

UPDATED – Groestlcoin Sentinel 3.5.06 (Android)

Groestlcoin Sentinel is a great solution for anyone who wants the convenience and utility of a hot wallet for receiving payments directly into their cold storage (or hardware wallets).
Sentinel accepts XPUB's, YPUB'S, ZPUB's and individual Groestlcoin address. Once added you will be able to view balances, view transactions, and (in the case of XPUB's, YPUB's and ZPUB's) deterministically generate addresses for that wallet.
Groestlcoin Sentinel is a fork of Groestlcoin Samourai Wallet with all spending and transaction building code removed.

Changes

Download

Source

UPDATED – P2Pool Test Net

Changes

Download

Pre-Hosted Testnet P2Pool is available via http://testp2pool.groestlcoin.org:21330/static/

Source

submitted by Yokomoko_Saleen to groestlcoin [link] [comments]

My growing collection of info about NEO Vol. 2

It can be very time consuming to keep up to date on a single blockchain. If you just heard about NEO a few weeks ago it would be impossible catch up on past occurrences. I’m going to try and simplify the past, present and future as much as I can into one well thought-out post.
 
I made the first Volume around 6 weeks ago
https://www.reddit.com/CryptoCurrency/comments/75mul5/my_growing_collection_of_info_about_neo/
 
I felt it was time for an update since so much has happened.
If you want the up to date version in between Vol updates visit NEO and its located on the #3 top post of all time.
[Note: This Post is at max characters (40,000), some information will be left out]
 
https://imgur.com/a/NBI7S (img for mobile backround)
 

NEO dApps / Partnerships / ICO's

https://neo.org/dapps
 
Red Pulse $RPX (ICO Completed)
A next generation intelligence and content ecosystem for China markets
https://coin.red-pulse.com/
 
Neon Exchange $NEX (Upcoming ICO on NEO) (strategic collaboration with NEO)
NEX is a platform for complex decentralized cryptographic trade and payment service creation
https://twitter.com/neonexchange
https://neonexchange.org/
https://neonexchange.org/pdfs/whitepaper_v1.1.pdf
 
Elastos $ELA (strategic collaboration with NEO)
Blockchain Driven Internet
NEO will make itself compatible with Elastos, and Elastos will also support NEOVM, and allow the writing of smart contracts with established languages, such as C# and Java. Elastos will be an OS for the Blockchain, and NEO can help developers quickly create Blockchain applications. The combination of the two could connect different developers from around the world, forming a strong ecosystem for application development―all to better serve a Smart Economy.
http://www.elastos.org/
https://twitter.com/ElastosI
https://www.reddit.com/NEO/comments/6r1a6f/neo_and_elastos_reaching_strategic_collaboration/
 
Ontology $ONT (Partnership with NEO)
Ontology Network (ONT) is a blockchain/distributed ledger network which combines distributed identity verification, data exchange, data collaboration, procedure protocols, communities, attestation, and various industry-specific modules. Together this builds the infrastructure for a peer-to-peer trust network which is cross-chain, cross-system, cross-industry, cross-application, and cross-device.
 
NEO will be the primary digital assets service provider for clearing and settlement on Ontology. There is no contract between Ontology and NEO now, though Ontology and NEO already have an established partnership. One thing on the roadmap is that in the future business scenarios on Ontology want to hold ICOs they will be able to on NEO.
https://ont.io/#/home
https://www.reddit.com/NEO/comments/7f8bvb/ontology_network_ama_answers/
https://www.youtube.com/watch?v=lPWwcgpc3P0
https://twitter.com/OntologyNetwork?lang=en
https://imgur.com/a/Emo4Q
 
The Key $TKY (Upcoming ICO ) (strategic cooperation with NEO)
THEKEY is a Decentralized Ecosystem of Identity Verification Tool Using National Big-data and Blockchain. THEKEY team is now developing second generation on-line identify verification technology. NEO Smart Economy = Digital Asset + Smart Contract + Digital Identity, while digital identity is an indispensable element. With NEO technical support, the strategic corporation between THEKEY and NEO will provide better protection to your digital asset.
https://www.thekey.vip/
https://www.reddit.com/NEO/comments/7areac/ama_on_9th_nov_thekey_a_decentralized_ecosystem/
 
Qlink $QLC (Partnership with NEO) (Multi-chain) (Upcoming ICO on NEO)
World’s First Decentralized Mobile Network
Qlink, a decentralized mobile network, is dedicated to constructing an open-source telecom infrastructure on blockchain.
https://twitter.com/QlinkMobi
https://www.qlink.mobi/f/qlink
https://neonewstoday.com/general/qlink-partner-with-neo/
 
PeerAtlas $ATLAS (Upcoming ICO on NEO)
ATLAS: A Digital Token Supporting an Open-Source Medical Encyclopedia
http://www.peeratlas.com/
http://www.peeratlas.com/whitepaper.pdf
https://neonewstoday.com/interviews/peeratlas-q-a-colin-closse
 
High Performance Blockchain $HPB (ICO Completed)
HPB is a new blockchain architecture, positioned as an easy-to-use, highperformance blockchain platform. It aims to extend the performance of distributed applications to meet real world business needs. This is achieved by creating an architecture similar to an API operating system. The software architecture provides accounts, identity and authorization management, policy management, databases, and asynchronous communication on thousands of CPUs, FPGAs or clustered program schedulers. This blockchain is a new architecture that can support millions of transactions per second and support authorizations within seconds.
http://www.gxn.io/en.html
http://www.gxn.io/files/hpb_white_paper_en.pdf
https://www.allcoin.com/markets/HPB-BTC/0/
 
Aphelion $APH (ICO In Progress)
A Revolutionary Decentralized P2P Exchange Solution
https://aphelion.org/
https://aphelion.org/wp.html
https://github.com/Aphelion
 
Zeepin $ZPT (Crowd sale will start Jan 18, 2018) (Upcoming ICO on NEO)
The Distributed Creative New Economy.
Zeepin, a decentralized innovation community, is dedicated to promoting highly efficient circulation of innovation assets.
https://www.zeepin.io/
https://www.zeepin.io/Whitepaper_En_v1.0.pdf
https://github.com/zeepin
https://www.reddit.com/NEO/comments/7f94vs/ama_from_today_nov_24th_zeepin_the_distributed/
 
Stokit (Upcoming ICO on NEO)
Decentralized cloud storage
https://stokit.io/
Whitepaper release: 30th of November 2017
 
Universal Health Coin (Upcoming ICO on NEO )
http://www.universalhealthcoin.com/
 
AdEx (dApp built on NEO)
http://adex.network/
https://twitter.com/AdEx_Network/status/897529249661423616
 
 
Alphacat
More Information to come soon after Video is released from the Meetup
https://www.meetup.com/de-DE/Onchains-Blockchain-Project-Launch-NEO-Ecosystem-Sharing/events/245101761/
 
DeepBrain
More Information to come soon after Video is released from the Meetup
https://www.meetup.com/de-DE/Onchains-Blockchain-Project-Launch-NEO-Ecosystem-Sharing/events/245101761/
 
 

City of Zion (CoZ)

https://cityofzion.io/
https://medium.com/@cityofzion
https://medium.com/proof-of-working
https://steemit.com/@canesin
 
City of Zion (CoZ) is an independent group of open source developers, designers and translators formed to support the NEO BlockChain core and ecosystem.
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:
  1. Join the channel #develop.
  2. Fork or create a project.
  3. Publish as open source.
  4. After a couple of contributions a CoZ council member will invite you to the proper channel for your contributions.
  5. 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.
Deadline was the 16 of November 11:59 EST.
http://cityofzion.io/dapps/1 (Check out page to view websites / Githubs)
1st: NEO Smart IoT
2nd: imusify
3rd: Chain Line
4th: BlockAuth
5th: Phantasma
6th: NeoTrade
7th: Turing Complete Smart Contract
8th: KRYPTON
9th: Switcheo
10th: TripShares
https://drive.google.com/drive/folders/0B4wu5lNlukwybEstaEJMZ19kbjQ
 

NEO and Microsoft China Dev Competition

 

Competition Rules

  1. The competition will open on November 20, 2017 and close at 11:59 PM Beijing time (GMT+8), March 10, 2018. Please sign up and submit your work before the deadline.
  2. Participants are required to develop on the NEO blockchain. Please refer to github.com/neo-project and docs.neo.org for relevant codes and technical documents.
  3. During the competition, developers are free to collaborate and to submit their work as a team.
  4. Teams or individuals who fail to submit their work before 11:59 PM Beijing time (GMT+8), March 10, 2018 will not be eligible for prizes.
  5. Your submission must contain executable programs and codes.
 
$150,000 First prize(1 team)
$50,000 Second prize(2 teams)
$30,000 Third prize(3 teams)
$15,000 Award of merit(10 teams)
 
A judging panel made up of NEO founder Da Hongfei,NEO Founder & Core Developer Erik Zhang, CoZ founder Fabio, Elastos founder Chen Rong,ONT Founder Li Jun and experts from Microsoft China will select 16 winners out of all the contestants for a bounty pool worth a total of USD 490,000.
 
Total sign-ups :194 Data collected as of 2017/11/28
 
Country Sign-ups
China 48
USA 31
India 12
Norway 7
France 6
Other 90
 
https://neo.org/competition.html
 
 

ICO Firm

 
Projectico
A service that helps others launch a token sale if it is right for their cause and will be using NEO in most instances going forward. We have created a foundation that is bringing compliance and trust to the marketplace for ICOs and allowing international people to still participate.
https://www.projectico.io/
https://www.reddit.com/NEO/comments/7dd3s0/ama_on_20_nov_projectico_a_us_based_turnkey_token/
 
 

Key notes from the White Paper

http://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.
 
Digital Identity
Digital identity refers to the identity information of individuals, organizations, and other entities that exist in electronic form.
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.
 

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 9.3 average American homes for 1 day.
https://digiconomist.net/bitcoin-energy-consumption#assumptions
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.
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.
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. 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
 

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
 
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
 
28th October, 2017
NEO meetup in Seoul, Korea:
 
28th October, 2017
NEO Blockchain Programming Day - Beijing Railway Station:
 
November 12th, 2017
NEO JOY in Hangzhou: Considerations on Basic Service Facilities in Blockchains:
 
November 18th - 19th, 2017
NEO attending China open source conference 2017:
 
November 21st, 2017
NEO attending swissnex China in Shanghai:
 
November 27th, 2017
ONCHAIN meetup NYC, Onchain's Blockchain Project Launch + NEO Ecosystem Sharing Session
 
November 27th, 2017
China&USA NEO blockchain meetup in Manhattan NYC
 
November 30th, 2017
Meetup San Francisco: The Future Of Blockchain With The Founders of NEO, Elastos, & Stellar
 
December 4th, 2017
NEO attending Blockchain World Conference in Bangkok:
 
December 7th, 2017
NEO meetup Singapore:
 
December 13th, 2017
NEO meetup at Cambridge:
 

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).
 
Conclusion on Network Performance
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

 
Response to baseless FUD
https://medium.com/@MalcolmLerideresponse-to-baseless-fud-9b7e5e2eeeea
 
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#"
https://www.reddit.com/NEO/comments/6puffo/we_are_da_hongfei_and_erik_zhang_founders_of_neo/dksm5ga/
 
"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"
https://www.youtube.com/watch?v=qpUdTIQdjVE&feature=youtu.be&t=1m16s
 
“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 – Network optimizations to ensure fast block generation after decentralization.
▪ Voting Algorithm Optimization – Adjustments in voting algorithm to prevent identified attack vectors.
▪ Candidate List Website – Published list of candidates so that voters know who they are voting for.
▪ NEO Council Consensus Node < 2/3 – NEO Council shall operate less than two thirds of consensus nodes by the end of quarter 1, 2018.
 
Our original plan was to start decentralize in Q1 2018. We are however growing faster than expected and cannot accept the risk with being as centralized as we currently are. The conclusion is that we re-prioritize and start the process of decentralizing today. We believe that NEO community groups and exchanges will be suitable to run consensus nodes; community groups already know the technology, and exchanges are already running full nodes with high uptime and monitoring. We welcome interested parties to reach out to us on [email protected]. A NEP to encourage voting will be presented in the coming weeks.
https://neo.org/blog/Details/3016
 
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
 

NEO Github

https://github.com/neo-project
 
NEO Smart Economy https://github.com/neo-project/neo
1.2k Stars
383 Forks
327 commits
17 contributors
 
neo-gui https://github.com/neo-project/neo-gui
 
examples-csharp https://github.com/neo-project/examples-csharp
 
proposals https://github.com/neo-project/proposals
 
 

CityOfZion Github

https://github.com/CityOfZion
 
awesome-neo https://github.com/CityOfZion/awesome-neo
A curated list of awesome NEO libraries, applications and resources.
14 contributors
 
neon-wallet https://github.com/CityOfZion/neon-wallet
380 Stars
118 Forks
392 commits
29 contributors
 

DNAProject Github

https://github.com/DNAProject/DNA
 
NEO/GAS Donations welcome: ASdNxSa3E8bsxCE9KFKBMm3NA43sYJU9qZ
submitted by NEOcryptotrader to CryptoCurrency [link] [comments]

My growing collection of info about NEO

It can be very time consuming to keep up to date on a single blockchain. If you just heard about NEO a few weeks ago it would be impossible catch up on past occurrences. I’m going to try and simplify the past, present and future as much as I can into one well thought-out post.
[Note: This Post is at max characters (40,000), some information will be left out]
 
https://imgur.com/a/NBI7S (img for mobile backround)
 

NEO dApps / Partnerships / ICO's

https://neo.org/dapps
 
Red Pulse $RPX (ICO Completed)
A next generation intelligence and content ecosystem for China markets
https://coin.red-pulse.com/
 
Neon Exchange $NEX (Upcoming ICO on NEO) (strategic collaboration with NEO)
NEX is a platform for complex decentralized cryptographic trade and payment service creation
https://twitter.com/neonexchange
https://neonexchange.org/
https://neonexchange.org/pdfs/whitepaper_v1.1.pdf
 
Elastos $ELA (strategic collaboration with NEO)
Blockchain Driven Internet
NEO will make itself compatible with Elastos, and Elastos will also support NEOVM, and allow the writing of smart contracts with established languages, such as C# and Java. Elastos will be an OS for the Blockchain, and NEO can help developers quickly create Blockchain applications. The combination of the two could connect different developers from around the world, forming a strong ecosystem for application development―all to better serve a Smart Economy.
http://www.elastos.org/
https://twitter.com/ElastosI
https://www.reddit.com/NEO/comments/6r1a6f/neo_and_elastos_reaching_strategic_collaboration/
 
Ontology $ONT (Partnership with NEO)
Ontology Network (ONT) is a blockchain/distributed ledger network which combines distributed identity verification, data exchange, data collaboration, procedure protocols, communities, attestation, and various industry-specific modules. Together this builds the infrastructure for a peer-to-peer trust network which is cross-chain, cross-system, cross-industry, cross-application, and cross-device.
 
NEO will be the primary digital assets service provider for clearing and settlement on Ontology. There is no contract between Ontology and NEO now, though Ontology and NEO already have an established partnership. One thing on the roadmap is that in the future business scenarios on Ontology want to hold ICOs they will be able to on NEO.
https://ont.io/#/home
https://www.reddit.com/NEO/comments/7f8bvb/ontology_network_ama_answers/
https://www.youtube.com/watch?v=lPWwcgpc3P0
https://twitter.com/OntologyNetwork?lang=en
https://imgur.com/a/Emo4Q
 
The Key $TKY (Upcoming ICO ) (strategic cooperation with NEO)
THEKEY is a Decentralized Ecosystem of Identity Verification Tool Using National Big-data and Blockchain. THEKEY team is now developing second generation on-line identify verification technology. NEO Smart Economy = Digital Asset + Smart Contract + Digital Identity, while digital identity is an indispensable element. With NEO technical support, the strategic corporation between THEKEY and NEO will provide better protection to your digital asset.
https://www.thekey.vip/
https://www.reddit.com/NEO/comments/7areac/ama_on_9th_nov_thekey_a_decentralized_ecosystem/
 
Qlink $QLC (Partnership with NEO) (Multi-chain) (Upcoming ICO on NEO)
World’s First Decentralized Mobile Network
Qlink, a decentralized mobile network, is dedicated to constructing an open-source telecom infrastructure on blockchain.
https://twitter.com/QlinkMobi
https://www.qlink.mobi/f/qlink
https://neonewstoday.com/general/qlink-partner-with-neo/
 
PeerAtlas $ATLAS (Upcoming ICO on NEO)
ATLAS: A Digital Token Supporting an Open-Source Medical Encyclopedia
http://www.peeratlas.com/
http://www.peeratlas.com/whitepaper.pdf
https://neonewstoday.com/interviews/peeratlas-q-a-colin-closse
 
High Performance Blockchain $HPB (ICO Completed)
HPB is a new blockchain architecture, positioned as an easy-to-use, highperformance blockchain platform. It aims to extend the performance of distributed applications to meet real world business needs. This is achieved by creating an architecture similar to an API operating system. The software architecture provides accounts, identity and authorization management, policy management, databases, and asynchronous communication on thousands of CPUs, FPGAs or clustered program schedulers. This blockchain is a new architecture that can support millions of transactions per second and support authorizations within seconds.
http://www.gxn.io/en.html
http://www.gxn.io/files/hpb_white_paper_en.pdf
https://www.allcoin.com/markets/HPB-BTC/0/
 
Aphelion $APH (ICO In Progress)
A Revolutionary Decentralized P2P Exchange Solution
https://aphelion.org/
https://aphelion.org/wp.html
https://github.com/Aphelion
 
Zeepin $ZPT (Crowd sale will start Jan 18, 2018) (Upcoming ICO on NEO)
The Distributed Creative New Economy.
Zeepin, a decentralized innovation community, is dedicated to promoting highly efficient circulation of innovation assets.
https://www.zeepin.io/
https://www.zeepin.io/Whitepaper_En_v1.0.pdf
https://github.com/zeepin
https://www.reddit.com/NEO/comments/7f94vs/ama_from_today_nov_24th_zeepin_the_distributed/
 
Stokit (Upcoming ICO on NEO)
Decentralized cloud storage
https://stokit.io/
Whitepaper release: 30th of November 2017
 
Universal Health Coin (Upcoming ICO on NEO )
http://www.universalhealthcoin.com/
 
AdEx (dApp built on NEO)
http://adex.network/
https://twitter.com/AdEx_Network/status/897529249661423616
 
 
Alphacat
More Information to come soon after Video is released from the Meetup
https://www.meetup.com/de-DE/Onchains-Blockchain-Project-Launch-NEO-Ecosystem-Sharing/events/245101761/
 
DeepBrain
More Information to come soon after Video is released from the Meetup
https://www.meetup.com/de-DE/Onchains-Blockchain-Project-Launch-NEO-Ecosystem-Sharing/events/245101761/
 
 

City of Zion (CoZ)

https://cityofzion.io/
https://medium.com/@cityofzion
https://medium.com/proof-of-working
https://steemit.com/@canesin
 
City of Zion (CoZ) is an independent group of open source developers, designers and translators formed to support the NEO BlockChain core and ecosystem.
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:
  1. Join the channel #develop.
  2. Fork or create a project.
  3. Publish as open source.
  4. After a couple of contributions a CoZ council member will invite you to the proper channel for your contributions.
  5. 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.
Deadline was the 16 of November 11:59 EST.
http://cityofzion.io/dapps/1 (Check out page to view websites / Githubs)
1st: NEO Smart IoT
2nd: imusify
3rd: Chain Line
4th: BlockAuth
5th: Phantasma
6th: NeoTrade
7th: Turing Complete Smart Contract
8th: KRYPTON
9th: Switcheo
10th: TripShares
https://drive.google.com/drive/folders/0B4wu5lNlukwybEstaEJMZ19kbjQ
 

NEO and Microsoft China Dev Competition

 

Competition Rules

  1. The competition will open on November 20, 2017 and close at 11:59 PM Beijing time (GMT+8), March 10, 2018. Please sign up and submit your work before the deadline.
  2. Participants are required to develop on the NEO blockchain. Please refer to github.com/neo-project and docs.neo.org for relevant codes and technical documents.
  3. During the competition, developers are free to collaborate and to submit their work as a team.
  4. Teams or individuals who fail to submit their work before 11:59 PM Beijing time (GMT+8), March 10, 2018 will not be eligible for prizes.
  5. Your submission must contain executable programs and codes.
 
$150,000 First prize(1 team)
$50,000 Second prize(2 teams)
$30,000 Third prize(3 teams)
$15,000 Award of merit(10 teams)
 
A judging panel made up of NEO founder Da Hongfei,NEO Founder & Core Developer Erik Zhang, CoZ founder Fabio, Elastos founder Chen Rong,ONT Founder Li Jun and experts from Microsoft China will select 16 winners out of all the contestants for a bounty pool worth a total of USD 490,000.
 
Total sign-ups :194 Data collected as of 2017/11/28
 
Country sign-ups
China 48
USA 31
India 12
Norway 7
France 6
Other 90
 
https://neo.org/competition.html
 
 

ICO Firm

 
Projectico
A service that helps others launch a token sale if it is right for their cause and will be using NEO in most instances going forward. We have created a foundation that is bringing compliance and trust to the marketplace for ICOs and allowing international people to still participate.
https://www.projectico.io/
https://www.reddit.com/NEO/comments/7dd3s0/ama_on_20_nov_projectico_a_us_based_turnkey_token/
 
 

Key notes from the White Paper

http://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.
 
Digital Identity
Digital identity refers to the identity information of individuals, organizations, and other entities that exist in electronic form.
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.
 

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 9.3 average American homes for 1 day.
https://digiconomist.net/bitcoin-energy-consumption#assumptions
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.
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.
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. 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
 

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
 
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
 
28th October, 2017
NEO meetup in Seoul, Korea:
 
28th October, 2017
NEO Blockchain Programming Day - Beijing Railway Station:
 
November 12th, 2017
NEO JOY in Hangzhou: Considerations on Basic Service Facilities in Blockchains:
 
November 18th - 19th, 2017
NEO attending China open source conference 2017:
 
November 21st, 2017
NEO attending swissnex China in Shanghai:
 
November 27th, 2017
ONCHAIN meetup NYC, Onchain's Blockchain Project Launch + NEO Ecosystem Sharing Session
 
November 27th, 2017
China&USA NEO blockchain meetup in Manhattan NYC
 
November 30th, 2017
Meetup San Francisco: The Future Of Blockchain With The Founders of NEO, Elastos, & Stellar
 
December 4th, 2017
NEO attending Blockchain World Conference in Bangkok:
 
December 7th, 2017
NEO meetup Singapore:
 
December 13th, 2017
NEO meetup at Cambridge:
 

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).
 
Conclusion on Network Performance
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

 
Response to baseless FUD
https://medium.com/@MalcolmLerideresponse-to-baseless-fud-9b7e5e2eeeea
 
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#"
https://www.reddit.com/NEO/comments/6puffo/we_are_da_hongfei_and_erik_zhang_founders_of_neo/dksm5ga/
 
"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"
https://www.youtube.com/watch?v=qpUdTIQdjVE&feature=youtu.be&t=1m16s
 
“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 – Network optimizations to ensure fast block generation after decentralization.
▪ Voting Algorithm Optimization – Adjustments in voting algorithm to prevent identified attack vectors.
▪ Candidate List Website – Published list of candidates so that voters know who they are voting for.
▪ NEO Council Consensus Node < 2/3 – NEO Council shall operate less than two thirds of consensus nodes by the end of quarter 1, 2018.
 
Our original plan was to start decentralize in Q1 2018. We are however growing faster than expected and cannot accept the risk with being as centralized as we currently are. The conclusion is that we re-prioritize and start the process of decentralizing today. We believe that NEO community groups and exchanges will be suitable to run consensus nodes; community groups already know the technology, and exchanges are already running full nodes with high uptime and monitoring. We welcome interested parties to reach out to us on [email protected]. A NEP to encourage voting will be presented in the coming weeks.
https://neo.org/blog/Details/3016
 
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
 

NEO Github

https://github.com/neo-project
 
NEO Smart Economy https://github.com/neo-project/neo
1.2k Stars
383 Forks
327 commits
17 contributors
 
neo-gui https://github.com/neo-project/neo-gui
 
examples-csharp https://github.com/neo-project/examples-csharp
 
proposals https://github.com/neo-project/proposals
 
 

CityOfZion Github

https://github.com/CityOfZion
 
awesome-neo https://github.com/CityOfZion/awesome-neo
A curated list of awesome NEO libraries, applications and resources.
14 contributors
 
neon-wallet https://github.com/CityOfZion/neon-wallet
380 Stars
118 Forks
392 commits
29 contributors
 

DNAProject Github

https://github.com/DNAProject/DNA
 
NEO/GAS Donations welcome: ASdNxSa3E8bsxCE9KFKBMm3NA43sYJU9qZ
submitted by NEOcryptotrader to NEO [link] [comments]

Mimblewimble in IoT—Implementing privacy and anonymity in INT Transactions

Mimblewimble in IoT—Implementing privacy and anonymity in INT Transactions

https://preview.redd.it/kyigcq4j5p331.png?width=1280&format=png&auto=webp&s=0584cd96378f51ead05b447397dcb0489995af4e

https://preview.redd.it/rfc3cw7q5p331.png?width=800&format=png&auto=webp&s=2b10b33defa0b354e0144745dd20c2f257812f29

The years of 2017 and ’18 were years focused on the topic of scaling. Coins forked and projects were hyped with this word as their sole mantra. What this debate brought us were solutions and showed us where we are right now satisfying the current need when paired with a plan for the future. What will be the focus of years to come will be anonymity and fungibility in mass adoption.
In the quickly evolving world of connected data, privacy is becoming a topic of immediate importance. As it stands, we trust our privacy to centralized corporations where safety is ensured by the strength of your passwords and how much effort an attacker dedicates to breaking them. As we grow into the new age of the Internet, where all things are connected, trustless and cryptographic privacy must be at the base of all that it rests upon. In this future, what is at risk is not just photographs and credit card numbers, it is everything you interact with and the data it collects.
If the goal is to do this in a decentralized and trustless network, the challenge will be finding solutions that have a range of applicability that equal the diversity of the ecosystem with the ability to match the scales predicted. Understanding this, INT has begun research into implementing two different privacy protocols into their network that conquer two of the major necessities of IoT: scalable private transactions and private smart contracts.

Mimblewimble

One of the privacy protocols INT is looking into is Mimblewimble. Mimblewimble is a fairly new and novel implementation of the same elements of Elliptic-Curve Cryptography that serves as the basis of most cryptocurrencies.

https://preview.redd.it/dsr6s6vt5p331.png?width=800&format=png&auto=webp&s=0249e76907c3c583e565edf19276e2afaa15ae08

In bitcoin-wizards IRC channel in August 2016, an anonymous user posted a Tor link to a whitepaper claiming “an idea for improving privacy in bitcoin.” What followed was a blockchain proposal that uses a transaction construction radically different than anything seen today creating one of the most elegant uses of elliptic curve cryptography seen to date.
While the whitepaper posted was enough to lay out the ideas and reasoning to support the theory, it contained no explicit mathematics or security analysis. Andrew Poelstra, a mathematician and the Director of Research at Blockstream, immediately began analyzing its merits and over the next two months, created a detailed whitepaper [Poel16] outlining the cryptography, fundamental theorems, and protocol involved in creating a standalone blockchain.
What it sets out to do as a protocol is to wholly conceal the values in transactions and eliminate the need for addresses while simultaneously solving the scaling issue.

Confidential Transactions

Let’s say you want to hide the amount that you are sending. One great way to hide information that is well known and quick: hashing! Hashing allows you to deterministically produce a random string of constant length regardless of the size of the input, that is impossible to reverse. We could then hash the amount and send that in the transaction.

X = SHA256(amount)
or
4A44DC15364204A80FE80E9039455CC1608281820FE2B24F1E5233ADE6AF1DD5 = SHA256(10)

But since hashing is deterministic, all someone would have to do would be to catalog all the hashes for all possible amounts and the whole purpose for doing so in the first place would be nullified. So instead of just hashing the amount, lets first multiply this amount by a private blinding factor*.* If kept private, there is no way of knowing the amount inside the hash.

X = SHA256(blinding factor * amount)

This is called a commitment, you are committing to a value without revealing it and in a way that it cannot be changed without changing the resultant value of the commitment.
But how then would a node validate a transaction using this commitment scheme? At the very least, we need to prove that you satisfy two conditions; one, you have enough coins, and two, you are not creating coins in the process. The way most protocols validate this is by consuming a previous input transaction (or multiple) and in the process, creating an output that does not exceed the sum of the inputs. If we hash the values and have no way validate this condition, one could create coins out of thin air.

input(commit(bf,10), Alice) -> output(commit(bf,9), BOB), outputchange(commit(bf,5), Alice)
Or
input(4A44DC15364204A80FE80E9039455CC1608281820FE2B24F1E5233ADE6AF1DD5, Alice) ->
output(19581E27DE7CED00FF1CE50B2047E7A567C76B1CBAEBABE5EF03F7C3017BB5B7, Bob)
output(EF2D127DE37B942BAAD06145E54B0C619A1F22327B2EBBCFBEC78F5564AFE39D, Alice)

As shown above, the later hashed values look just as valid as anything else and result in Alice creating 4 coins and receiving them as change in her transaction. In any transaction, the sum of the inputs must equal the sum of the outputs. We need some way of doing mathematics on these hashed values to be able to prove:

commit(bf1,x) = commit(bf2,y1) + commit(bf3,y2)

which, if it is a valid transaction would be:

commit(bf1,x) - commit(bf2+bf3,y1+y2) = commit(bf1-(bf2+bf3),0)

Or just a commit of the leftover blinding factors.

By the virtue of hashing algorithms, this isn’t possible. To verify this we would have to make all blinding factors and amounts public. But in doing so, nothing is private. How then can we make a valued public that is made with a private-value in such a way that you cannot reverse engineer the private value and still validate it satisfies some condition? It sounds a bit like public and private key cryptography…
What we learned in our primer on Elliptic-Curve Cryptography was that by using an elliptic curve to define our number space, we can use a point on the curve, G, and multiply it by any number, x, and what you get is another valid point, P, on the same curve. This calculation is quick but in taking the resultant point and the publically known generator point G, it is practically impossible to figure out what multiplier was used. This way we can use the point P as the public key and the number x as the private key. Interestingly, they also have the curious property of being additive and communicative.
If you take point P which is xG and add point Q to it which is yG, its resulting point, W = P + Q, is equal to creating a new point with the combined numbers x+y. So:
https://preview.redd.it/yv0knclr6p331.png?width=800&format=png&auto=webp&s=9a3abccdc164e615651147141736356013e4b829
This property, homomorphism, allows us to do math with numbers we do not know.
So if instead of using the raw amount and blinding factor in our commit, we use them each multiplied by a known generator point on an elliptic curve. Our commit can now be defined as:
https://preview.redd.it/aas2wm0u6p331.png?width=800&format=png&auto=webp&s=c3ebb5728f755f30e878ce5f1885397f6667d4f3
This is called a Pedersen Commitment and serves as the core of all Confidential Transactions.
Let’s call the blinding factors r, and the amounts v, and use H and G as generator points on the same elliptic curve (without going deep into Schnorr signatures, we will just accept that we have to use two different points for the blinding factor and value commits for validation purposes**). Applying this to our previous commitments:
https://preview.redd.it/zf246t8z6p331.png?width=800&format=png&auto=webp&s=17e2e155c59002f05f38ccb27082f79a5dd98a1f
and using the communicative properties:
https://preview.redd.it/km4fuf017p331.png?width=800&format=png&auto=webp&s=13541d62ec3f6e5728388b7a8d995c3829364a42
which for a valid transaction, this would equal:
with ri, vi being the values for the input, ro,vo being the values for the output and rco, vco being the values for the change output.

This resultant difference is just a commit to the excess blinding factor, also called a commitment-to-zero:
https://preview.redd.it/tqnwao667p331.png?width=800&format=png&auto=webp&s=9da5ecab5c670024f171a441e0d2477cf8f41a56
You can see that in any case where the blinding factors were selected randomly, the commit-to-zero will be non-zero and in fact, is still a valid point on the elliptic curve with a public key,
https://preview.redd.it/19ry9i297p331.png?width=800&format=png&auto=webp&s=4fb6628a01dc784816e1aea43cc0f5cfb025af52
And private key being the difference of the blinding factors.
So, if the sum of the inputs minus the sum of the outputs produces a valid public key on the curve, you know that the values have balanced to zero and no coins were created. If the resultant difference is not of the form
https://preview.redd.it/71mpdobb7p331.png?width=800&format=png&auto=webp&s=143d28da48d40208d5ef338444b3c7edea1fab9c
for some excess blinding factor, it would not be a valid public key on the curve, and we would know that it is not a balanced transaction. To prove this, the transaction is then signed with this public key to prove the transaction is balanced and that all blinding factors are known, and in the process, no information about the transaction have been revealed (the by step details of the signature process can be read in [Arvan19]).
All the above work assumed the numbers were positive. One could create just as valid of a balanced transaction with negative numbers, allowing users to create new coins with every transaction. Called Range Proofs, each transaction must be accompanied by a zero-knowledge argument of knowledge to prove that a private committed value lies within a predetermined range of values. Mimblewimble, as well as Monero, use BulletProofs which is a new way of calculating the proof which cuts down the size of the transaction by 80–90%.

*Average sizes of transactions seen in current networks or by assuming 2 input 2.5 output average tx size for MW

Up to this point, the protocol described is more-or-less identical between Mimblewimble and Monero. The point of deviation is how transactions are signed.
In Monero, there are two sets of keys/addresses, the spend keys, and the view keys. The spend key is used to generate and sign transactions, while the view key is used to “receive” transactions. Transactions are signed with what is called a Ring Signature which is derived from the output being spent, proving that one key out of the group of keys possesses the spend key. This is done by creating a combined Schnorr signature with your private key and a mix of decoy signers from the public keys of previous transactions. These decoy signers are all mathematically equally valid which results in an inability to determine which one is the real signer. Being that Monero uses Pedersen Commitments shown above, the addresses are never publically visible but are just used for the claiming, signing of transactions and generating blinding factors.
Mimblewimble, on the other hand, does not use addresses of any type. Yes. That’s right, no addresses. This is the true brilliance of the protocol. What Jedusor proved was that the blinding factors within the Pedersen commit and the commit-to-zero can be used as single-use public/private key pairs to create and sign transactions.
All address based protocols using elliptic-curve cryptography generate public-private key pairs in essentially the same way. By multiplying a very large random number (k_priv) by a point (G) on an elliptic curve, the result (K_pub) is another valid point on the same curve.
https://preview.redd.it/pt2xr33i7p331.png?width=800&format=png&auto=webp&s=1785cebcc842cab19b3987d848b2029032ae1195
This serves as the core of all address generation. Does that look familiar?
Remember this commit from above:
https://preview.redd.it/w9ooxudk7p331.png?width=800&format=png&auto=webp&s=d94ad3ac103352aa4c9653934d61cccc25a6bf8f
Each blinding factor multiplied by generator point G (in red) is exactly that! r•G is the public key with private key r! So instead of using addresses, we can use these blinding factors as proof we own the inputs and outputs by using these values to build the signature.
This seemingly minor change removes the linkability of addresses and the need for a scriptSig process to check for signature validity, which greatly simplifies the structure and size of Confidential Transactions. Of course, this means (at this time) that the transaction process requires interaction between parties to create signatures.

CoinJoin

Even though all addresses and amounts are now hidden, there is still some information that can be gathered from the transactions. In the above transaction format, it is still clear which outputs are consumed and what comes out of the transaction. This “transaction graph” can reveal information about the owners of the blinding factors and build a picture of the user based on seen transaction activity. In order to further hide and condense information, Mimblewimble implements an idea from Greg Maxwell called CoinJoin [Max13] which was originally developed for use in Bitcoin. CoinJoin is a trustless method for combining multiple inputs and outputs from multiple transactions, joining them into a single transaction. What this does is a mask that sender paid which recipient. To accomplish this in Bitcoin, users or wallets must interact to join transactions of like amounts so you cannot distinguish one from the other. If you were able to combine signatures without sharing private keys, you could create a combined signature for many transactions (like ring signatures) and not be bound by needing like amounts.

In this CoinJoin tx, 3 addresses have 4 outputs with no way of correlating who sent what
In Mimblewimble, doing the balance calculation for one transaction or many transactions still works out to a valid commit-to-zero. All we would need to do is to create a combined signature for the combined transaction. Mimblewimble is innately enabled to construct these combined signatures with the commit of Schnorr challenge transaction construction. Using “one-way aggregate signatures” (OWAS), nodes can combine transactions, while creating the block, into a single transaction with one aggregate signature. Using this, Mimblewimble joins all transactions at the block level, effectively creating each block as one big transaction of all inputs consumed and all outputs created. This simultaneously blurs the transaction graph and has the power to remove in-between transactions that were spent during the block, cutting down the total size of blocks and the size of the blockchain.

Cut-through

We can take this one step further. To validate this fully “joined” block, the node would sum all of the output commitments together, then subtract all the input commitments and validate that the result is a valid commit-to-zero. What is stopping us from only joining the transactions within a block? We could theoretically combine two blocks, removing any transactions that are created and spent in those blocks, and the result again is a valid transaction of just unspent commitments and nothing else. We could then do this all the way back to the genesis block, reducing the whole blockchain to just a state of unspent commitments. This is called Cut-through. When doing this, we don’t have any need to retain the range proofs of spent outputs, they have been verified and can be discarded. This lends itself to a massive reduction in blockchain growth, reducing growth from O*(number of txs)* to O*(number of unspent outputs)*.
To illustrate the impact of this, let’s imagine if Mimblewimble was implemented in the Bitcoin network from the beginning, with the network at block 576,000, the blockchain is about 210 GB with 413,675,000 total transactions and 55,400,000 total unspent outputs. In Mimblewimble, transaction outputs are about 5 kB (including range proof ~5 kB and Pedersen commit ~33 bytes), transaction inputs are about 32 bytes and transaction proof are about 105 bytes (commit-to-zero and signature), block headers are about 250 bytes (Merkle proof and PoW) and non-confidential transactions are negligible. This sums up to a staggering 5.3 TB for a full sync blockchain of all information, with “only” 279 GB of that being the UTXOs. When we cut-through, we don’t want to lose all the history of transactions, so we retain the proofs for all transactions as well as the UTXO set and all block headers. This reduces the blockchain to 322 GB, a 94% reduction in size. The result is basically a total consensus state of only that which has not been spent with a full proof history, greatly reducing the amount of sync time for new nodes.
If Bulletproofs are implemented, the range proof is reduced from over 5kB to less than 1 kB, dropping the UTXO set in the above example from 279 GB to 57 GB.

*Based on the assumptions and calculations above.

There is also an interesting implication in PoS blockchains with explicit finality. Once finality has been obtained, or at some arbitrary blockchain depth beyond it, there is no longer the need to retain range proofs. Those transactions have been validated, the consensus state has been built upon it and they make up the vast majority of the blockchain size. If we say in this example that finality happens at 100 blocks deep, and assume that 10% of the UTXO set is pre-finality, this would reduce the blockchain size by another 250 GB, resulting in a full sync weight of 73 GB, a 98.6% reduction (even down 65% from its current state). Imagine this. A 73 GB blockchain for 10 years of fully anonymous Bitcoin transactions, and one third the current blockchain size.
It’s important to note that cut-through has no impact on privacy or security. Each node may choose whether or not to store the entire chain without performing any cut-through with the only cost being increased disk storage requirements. Cut-through is purely a scalability feature resulting in Mimblewimble based blockchains being on average three times smaller than Bitcoin and fifteen times smaller than Monero (even with the recent implementation of Bulletproofs).

What does this mean for INT and IoT?

Transactions within an IoT network require speed, scaling to tremendous volumes, adapting to a variety of uses and devices with the ability to keep sensitive information private. Up till now, IoT networks have focused solely on scaling, creating networks that can transact with tremendous volume with varying degrees of decentralization and no focus on privacy. Without privacy, these networks will just make those who use it targets who feed their attackers the ammunition.
Mimblewimble’s revolutionary use of elliptic-curve cryptography brings us a privacy protocol using Pedersen commitments for fully confidential transactions and in the process, removes the dependence on addresses and private keys in the way we are used to them. This transaction framework combined with Bulletproofs brings lightweight privacy and anonymity on par with Monero, in a blockchain that is 15 times smaller, utilizing full cut-through. This provides the solution to private transactions that fit the scalability requirements of the INT network.
The Mimblewimble protocol has been implemented in two different live networks, Grin and Beam. Both are purely transactional networks, focused on the private and anonymous transfer of value. Grin has taken a Bitcoin-like approach with community-funded development, no pre-mine or founders reward while Beam has the mindset of a startup, with VC funding and a large emphasis on a user-friendly experience.
INT, on the other hand, is researching implementing this protocol either on the main chain, creating all INT asset transfer private or as an optional and add-on subchain, allowing users to transfer their INT from non-private chain to the private chain, or vice versa, at will.

Where it falls short?

What makes this protocol revolutionary is the same thing that limits it. Almost all protocols, like Bitcoin, Ethereum, etc., use a basic scripting language with a function calls out in the actual transaction data that tells the verifier what script to use to validate it. In the simplest case, the data provided with the input calls “scriptSig” and provides two pieces of data, the signature that matches the transaction and the public key that proves you own the private key that created it. The output scripts use this provided data with the logic passed with it, to show the validator how to prove they are allowed to spend it. Using the public key provided, the validator then hashes it, checks that it matches the hashed public key in the output, if it does, it then checks to make sure the signature provided matches the input signature.
https://preview.redd.it/5u6m1eiv7p331.png?width=1200&format=png&auto=webp&s=3729eb12037107ae744d15cea9f9bc1e18a3c719
This verification protocol allows some limited scripting ability in being able to tell validators what to do with the data provided. The Bitcoin network can be updated with new functions allowing it to adapt to new processes or data. Using this, the Bitcoin protocol can verify multiple signatures, lock transactions for a defined timespan and do more complex things like lock bitcoin in an account until some outside action is taken.
In order to achieve more widely applicable public smart contracts like those in Ethereum, they need to be provided data in a non-shielded way or create shielded proofs that prove you satisfy the smart contract conditions.
In Mimblewimble, as a consequence of using the blinding factors as the key pairs, greatly simplifying the signature verification process, there are no normal scripting opportunities in the base protocol. What is recorded on the blockchain is just:

https://preview.redd.it/dwhiuc8y7p331.png?width=1200&format=png&auto=webp&s=69ea0a7797bc94a9766a4b31a639666bf9f1ebc4
  • Inputs used — which are old commits consumed
  • New outputs — which are new commits to publish
  • Transaction kernel — which contains the signature for the transaction with excess blinding factor, transaction fee, and lock_height.
And none of these items can be related to one another and contain no useful data to drive action.
There are some proposals for creative solutions to this problem by doing so-called scriptless-scripts†. By utilizing the properties of the Schnorr signatures used, you can achieve multisig transactions and more complex condition-based transactions like atomic cross-chain swaps and maybe even lightning network type state channels. Still, this is not enough complexity to fulfill all the needs of IoT smart contracts.
And on top of it all, implementing cut-through would remove transactions that might be smart contracts or rely on them.
So you can see in this design we can successfully hide values and ownership but only for a single dimensional data point, quantity. Doing anything more complex than transferring ownership of coin is beyond its capabilities. But the proof of ownership and commit-to-zero is really just a specific type of Zero-knowledge (ZK) proof. So, what if, instead of blinding a value we blind a proof?
Part 2 of this series will cover implementing private smart contracts with zkSNARKs.

References and Notes

https://github.com/ignopeverell/grin/blob/mastedoc/intro.md
https://github.com/mimblewimble/grin/blob/mastedoc/pow/pow.md
https://github.com/mimblewimble/grin/wiki/Grin-and-MimbleWimble-vs-ZCash
https://bitcointalk.org/index.php?topic=30579
[poel16] http://diyhpl.us/~bryan/papers2/bitcoin/mimblewimble-andytoshi-INCOMPLETE-DRAFT-2016-10-06-001.pdf
** In order to prove that v=0 and therefore the commit to zero, in fact, has no Hcomponent without revealing r, we must use Schnorr protocol:
prover generates random integer n, computes and sends point 𝑇←n𝐻
verifier generates and sends random integer 𝑖
prover computes and sends integer 𝑠←𝑖𝑏+n modq, where q is the (public) order of the curve
verifier knowing point r𝐻 computes point 𝑖(r𝐻), then point 𝑖(r𝐻)+𝑇; computes point 𝑠𝐻; and ensures 𝑖(r𝐻)+𝑇=𝑠𝐻.
[Arvan19] https://medium.com/@brandonarvanaghi/grin-transactions-explained-step-by-step-fdceb905a853
[Bulletproofs] https://eprint.iacr.org/2017/1066.pdf
[Max13] https://bitcointalk.org/?topic=279249
[MaxCT]https://people.xiph.org/~greg/confidential_values.txt
[Back13]https://bitcointalk.org/index.php?topic=305791.0
http://diyhpl.us/wiki/transcripts/grincon/2019/scriptless-scripts-with-mimblewimble/
https://tlu.tarilabs.com/cryptography/scriptless-scripts/introduction-to-scriptless-scripts.html#list-of-scriptless-scripts
http://diyhpl.us/~bryan/papers2/bitcoin/2017-03-mit-bitcoin-expo-andytoshi-mimblewmble-scriptless-scripts.pdf
submitted by INTCHAIN to INT_Chain [link] [comments]

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