Ethereum foundation roadmap 2019

Ethereum Meta addresses a major weakness in Ethereum: the lack of privacy. Ethereum Meta enables smart contracts where no friend, family, nor foe can see what you bought or for how much. Ethereum Meta transactions exist alongside normal non-anonymous transactions. Each user can convert non-anonymous coins Ethers into anonymous coins, which we call Ethereum Meta. Users can then send Ethereum Meta to other users, and split or merge Ethereum Meta they own in any way that preserves the total value. Users can also convert Ethereum Meta back into normal Ether, obfuscating any possible traceability.



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WATCH RELATED VIDEO: Ethereum Core Devs Meeting #63 [2019-06-21]

Developers Rally Around Ethereum 1x, A New Roadmap for Faster Scaling


He also discusses the benefits of decentralization, the steps that will need to be taken to get there, and the challenges we'll need to overcome on the way. The Ethereum ecosystem has achieved a lot over the past year with respect to core development, adoption, defi, and improving scalability. Dive into the immersive world of Devcon content by selecting topics most relevant to your interest. The sixth edition of Devcon was originally planned for October in Bogota, Colombia to keep in-line with the annual tradition.

However, due the global pandemic the event has been postponed until further notice. In the meantime, be sure to join us on the Road to Devcon initiatives with local events, quests, and much more.

Ethereum's CTO Dr. Nick Szabo takes the stage to present on the history of blockchain technology and his work on the Ethereum tech stack. He is also the founder of Protocol Labs. We will explore the basics of the Solidity contract language using examples. This presentation focuses on how Zcash uses zero-knowledge proofs to add private transactions to a public blockchain, and how Zcash and Ethereum will grow together.

Zcash posts that private information to the blockchain in encrypted form, and uses zero-knowledge proofs to cryptographically guarantee the validity of transactions without exposing the private information. Zcash is developed by a VC-funded, highly skilled development team and a widespread and active open source community.

The Zcash team is actively contributing to all three paths. Programmable Zcash — add Ethereum-style programmability to the Zcash blockchain 2. Private Ethereum — add Zcash-style privacy to the Ethereum blockchain 3. Project Alchemy — interoperation between the Ethereum and Zcash.

The process of developing the Dai Stablecoin System has matured significantly over the course of the last year. We innovated in the Ethereum community by being the first project to release a well-defined reference implementation, written in Haskell, for our proposed system.

It is becoming more and more likely that Maker will be the first non-trivial decentralized application to be formally verified before launch. In this proposed presentation, I would like to talk about the usefulness of rigorous specification and external reference implementations for the benefit of other Ethereum projects.

What have we learned from using this technology on mission critical infrastructure where lives can be lost if decimals are out of place? Vitalik gives a quick overview behind Cryptoeconomics. The current Ethereum 2. However, as an active observer of the Ethereum 2.

In this talk, I will present an alternative, more conservative view of how to approach the Ethereum 2. Some of the topics covered will include: - Radical vs Conservative technological upgrade paths. We should test Proof of Stake on shards before using it on the beacon chain. The Ethereum developer ecosystem is in constant change. Undoubtedly, teams have started to leave the development of Smart Contracts in the background to focus on the development of decentralized applications, and on how to eliminate friction points between users that might not know anything about Blockchain but still need to interact with it.

But developer tools are still important and they have to be simple and secure to use. In this talk we will explore how the Gas Station Network is implemented to redefine the interaction between users and DApps in a way that they don't need to have any knowledge on mnemonics, private keys, transactions or gas costs. Moreover, we will go through a set of tools that the OpenZeppelin team developed to make this transition from regular DApps to gasless DApps in a super easy and fast way.

A review of short term interest rates of tokens in the Ethereum Defi space, why they exist and how to interact with those smart contracts. This a review of the current interest rate economics in the Ethereum space.

A quick look at loanscan. We are here to review why they exist and show on a practical level how to interact with these smart contracts. Most use cases will be earning a high-interest rate or getting a loan of a cryptocurrency. We will go through a practical example of taking USD and entering the crypto world, interacting with a smart contract and earning interest. The hope is to teach anyone to do this in 10 minutes. Depending on the license terms, others may then download, modify, and publish their version fork back to the community.

Arguably, the more than 80 license types scare developers away. A trustless Ethereum mixer using zero-knowledge signalling. Since Ethereum transactions are fully visible on-chain, it is possible to trace value transfers and surveil users' financial activity. This state of affairs deprives users of privacy beyond mere pseudonymity.

Some workarounds, like using a centralised exchange wallet or a custodial mixing service, however, introduce a high degree of counterparty risk. The Ethereum ecosystem needs a noncustodial mixer which works through strong cryptography, rather than blind trust. To solve this, we present a trustless mixer for Ether and ERC20 tokens.

Additionally, it employs a burn relay registry which incentivises third parties to pay gas fees on behalf of mixer users. In this presentation, I will show a high-level architectural overview of the mixer, dive into its underlying zero-knowledge circuits, and discuss other applications of zero-knowledge signalling.

Thanks to an Ethereum Foundation grant, the team has taken the idea of an 'accountable watching service' further to help alleviate the online requirement for other off-chain protocols such as Plasma and in general most smart contracts. What do we mean that PISA is usable by most smart contracts?

Ideally, if we consider a smart contract where the user has to be online and watching for an on-chain event, then PISA can be hired to protect them and perform the final step. Our goal is to help improve the UX for most smart contracts as users can simply go off-line and PISA can finish the task in a financially accountable manner.

In this talk, we'll discuss the substantial changes to PISA such that it can be generically used for most smart contracts. We'll discuss the implementation of PISA, the open-source project, and how other projects can use our simple API to sign up to the accountable watching service. It might help to imagine it as a sort of "Wordpress for social networks.

What if we would use this opportunity to integrate the Ethereum ecosystem of dapps and services into a unified user experience accessible to anyone - from meetup organizers to smart contract developers to researchers and beyond? Moreover, how would this play in the bigger picture where any other social network built with the AKASHA framework will have at their fingertips the equivalent of "Wordpress plugins" but in this case in the form of Ethereum services and dapps? We're almost done with the foundational work at the "framework level" and we plan to start in the next couple of months working on ethereum.

This talk offers insights on the Ethereum community from an anthropological perspective. Technology and society mutually constitute one another.

The famous media theorist, Marshall McLuhan, once stated that technologies are extensions of the human; this means that blockchain as a technology, reflects our values, beliefs, and biases. It is thus important to critically reflect on the kinds of narratives and values we prescribe to blockchain and how in turn, actors within the blockchain community and beyond are influenced by them. Topics in this talk range from exploring the relationship between Ethereum protocol design and ideologies, the dangers of techno-utopianism, techno-colonial solutionism, and general recommendations for how Ethereum builders can adopt more socially-minded frameworks in their work to create a more ethical and accessible Ethereum ecosystem.

Smart contracts are immutable programs on the blockchain. They are automatically executed based on pre-defined rules. However, complex and inferencing rules could be extremely difficult to program, test, and validate, using standard programming languages like Solidity. The problem is compounded by the need to frequently change rules based on business requirements.

BREs allow business analysts to write transactional state changing programs in a specialized programming language called formal rules language, which can be generated by graphical user interfaces.

BREs automatically evaluate, re-evaluate, and execute those rules. They have been proven successful in traditional financial services. In this presentation, I will discuss the benefits and use cases of rules language and engine for smart contracts especially in the context of financial services and e-commerce applications.

I will further describe how the rules language extension for Solidity, modeled after Drools, is designed and implemented, including compiler and runtime support. In this talk we will go over the findings done in these experiments that were based on economic theories, on an advancing Web3. An Examination of the Evolution of Staking and Validators. Ethereum 2. Extensive research has been conducted on Proof-of-Stake, along with multiple tests and debates to discuss the economics of how this transition will play out.

However, there are a few real world data points worth observing in order to understand how Ethereum 2. We would love to share how these staking projects evolved along with the stakeholders around them. We can't wait for Devcon 5 and for Ethereum 2. An introduction to privacy and anonymous communication: A hands-on workshop.

This workshop will go over the basics of privacy, starting with anonymity and unlinkability. We'll show that privacy is a 'holistic' systems-level concept, and not just an application of zkSNARKs on-chain. Various types of privacy notions unlinkability, undetectability , and threat models, will be explored, as well as the various levels where privacy leaks happen layer 0 on the network level, layer 1 on the chain, and layer 2 application issues.

The workshop will then invite coders to describe their own privacy problems, and we'll offer advise and hands-on work through with systems like mix-networks Loopix , anonymous credentials Nym , and other systems. DexIndex is a free, open source library for developers working with Ethereum decentralized exchange data.

It launched in February of and has seen spectacular growth since then, with almost half of all new commits coming from outside contributors! In this lightning talk, we'll go over what DexIndex is and how you can use it your applications and APIs with just a few lines of code. In this talk, I'll share a few tips towards the secure development of cryptoeconomic protocols, as well as our research on Casper.

When it comes to building dApps, there is a key part of the process that remains very centralized. The tools we use for version control, like GitHub, are centralized, leaving dApp builders and communities at the mercy of providers and prone to censorship. By building a decentralized backup of GitHub in case of censorship, downtime, or other sudden loss of source code access, dApps can better decentralize access to their codebase.

This presentation will outline the architecture behind a decentralized GitHub alternative and demo the proof of concept. The Ethereum community is an open source community. We rely on implementations of an open protocol, open tools built to interface with these implementations, and ultimately open source dApps and contracts that live on top.

Without a healthy ecosystem of open source developers, Ethereum is nothing. That said, contributing to open source can sometimes feel intimidating, and it's not always clear how to get started. Fortunately, it is actually easy in the Ethereum community!



Monetary Policy

Ocean Token pre-launch distribution with Contributors in countries. Test network created Spree. Development and documentation of Ocean network components. Building global community: many events , advisors , and ambassadors. Core functionality of decentralized access control. Beta network deployed Nile.

Loopring is a zkRollup layer2. It allows for high-throughput, low-cost trading and payment on Ethereum. Why Loopring? Secure. Loopring is an open-sourced.

1inch Network

The iExec Marketplace connects resource providers with resource users, allowing anyone to monetize or rent computing power, datasets, and applications. Create your own oracles from scratch, in minutes, and directly from your browser. No specialized blockchain or coding knowledge needed! A innovative market network where everyone can monetize their computing power, datasets, and applications. As a Developer, you can use iExec to overcome blockchain limitations, by executing your computations on a new distributed infrastructure. As a token holder, you can get into the world of crypto-economy by trading your RLC tokens whenever you want. RLC is the native token of the iExec cloud platform. In exchange for RLC tokens, users can utilize the network to rent servers, data and applications.


ethereum foundation employees

ethereum foundation roadmap 2019

Help us translate the latest version. Page last updated : January 26, A timeline of all the major milestones, forks, and updates to the Ethereum blockchain. Changes to the rules of the Ethereum protocol which often include planned technical upgrades.

Terse IBC protocol to accelerate heterogeneous interchain technology with NFT transfers, smart contracts interactions and other cross-chain services enabled. Digitization of assets on blockchains to support efficient and reliable value transferring and distribution.

The Ultimate Guide to the Ethereum Berlin Hard Fork and London Hard Fork

Parity Technologies. Powering the decentralized Web Parity Technologies. The Parity Ethereum codebase and maintenance will be transitioned to a DAO ownership and maintainer model. We hope this new model can provide the basis for cross-organization collaboration to ensure the codebase gets the attention it needs to realize its full potential. When Parity Technologies began back in , it was an overwhelmingly Ethereum-focused development shop.


Open Worlds

The 1inch Network unites decentralized protocols whose synergy enables the most lucrative, fastest and protected operations in the DeFi space. Scroll Down For More. A protocol that facilitates cost-efficient and secure atomic transactions by utilizing a wide range of protocols and performing argument validation and execution verification. A next-generation automated market maker that protects users from front-running attacks and offers capital efficiency to liquidity providers. A decentralized autonomous organization that governs the 1inch Network, enabling 1INCH stakers to vote for key protocol parameters and take part in the network's governance. As a governance and utility token, 1INCH facilitates multiple tokenomics. It enables users to govern protocols and participate in the network's evolution and serves as a connector utility token in the 1inch Liquidity Protocol for high-efficiency routing.

complexity.7 The EVM's design is the foundation for ethereum as a content/uploads//04/Cryptocurrency-Mining-A-Primer-Aprilpdf).

Get the EWASM!

The relationship between society and technology has deteriorated to the point where large entities routinely stretch and overstep their authority. It's a living platform built for change agents to take back control, spark innovation and disrupt the status quo. Kusama is a scalable network of specialized blockchains built using Substrate and nearly the same codebase as Polkadot.


ParaState takes Ethereum chain support to the next level through WasmEdge. Watch a video here. Since Ethereum created the smart contract with business logic, both new and old industries have extrapolated blockchain technology to real world use cases, from decentralized finance to gaming and metaverses. Robust smart contracts written in popular high-level programming languages like Rust and DSL, unifying a broader development community. A natural bridge between Ethereum, Polkadot, and other next-gen blockchains that want to provide Ethereum compatibility. Integration of ParaState universal Substrate VM runtime pallet with Polkadot parachains as a Substrate module, supporting cross-chain services with other parachains.

Ethereum utilises smart contracts, which allow somebody to send money to another person automatically, but only when a certain set of conditions are met. For example, during the process of selling a house, the buyer and seller could enter into a smart contract that transfers ownership to the buyer, and money to the seller automatically once a deal has been reached.

Found insideThe platform of Ethereum allows programmers to script management policies and rewards that activate automatically in response to employees' work. He has also been involved with the hiring process e. The first hackathon theme is Cross-Chain with our trustless, on-chain bridges. Jan 3, Review Source:.

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  1. Kelar

    The deal of reason with metaphysics finally took place