With the second largest market cap in the cryptocurrency world, Ethereum has drawn a lot of attention from investors and crypto enthusiasts alike.
Ethereum not only presents a significant change to the status quo, it also allows for the quick development and deployment of new applications presenting niche solutions for various industries.
While Ethereum’s utility is obvious to programmers and the tech world at large, many people who are less tech-savvy have trouble understanding it. We’ve designed this guide to appeal to both crowds and expose anyone from complete crypto beginners and intermediates to this potentially world-changing cryptocurrency.
Ethereum vs. Bitcoin
If you’re interested in Ethereum, chances are you have some sort of foundational knowledge of Bitcoin.
All cryptocurrencies inevitably get compared to Bitcoin, and it frankly makes understanding them much easier.
Bitcoin launched in 2009 as the world’s first cryptocurrency, with the single goal of creating a decentralized universal currency. This currency would not require any intermediary financial institutions, but would still ensure safe and valid transactions. This was made possible by a revolutionary technology called the “blockchain.”
The blockchain is a digital ledger, continuously recording and verifying records. It’s used to track and verify Bitcoin transactions. Since the global network of communicating nodes maintains the blockchain, it’s pretty much incorruptible. As new blocks are added to the network, they are constantly validated.
Similar to Bitcoin, Ethereum is a distributed public blockchain network. While both Ethereum and Bitcoin are cryptocurrencies that can be traded among users, there are many substantial differences between the two.
Bitcoin, for example, utilizes blockchain to track ownership of the digital currency, making it an extremely effective peer to peer electronic cash system. Ethereum, on the other hand, focuses on running the programming code of an application. Application developers largely use it to pay for services and transaction fees on the Ethereum network.
Both Bitcoin and Ethereum are “decentralized,” meaning they have no central control or issuing authority. Respective miners run each network by validating transactions to earn either bitcoin (for Bitcoin) or ether (for Ethereum).
Ethereum is simply the application of blockchain technology for a completely different purpose.
What is Ethereum?
Simply put, Ethereum is a blockchain-based decentralized platform on which decentralized applications (Dapps) can be built.
- Remember, blockchain isa database with no central server that keeps track of every transaction and exchange. The vast majority of cryptocurrencies and decentralized projects run on some application of blockchain.
- We’ll jump into decentralized apps—referred to as dapps–in greater detail later, but just know they are applications that serve a specific purpose to a user. Fasten your seatbelts, some of these dapps are amazing.
Ethereum’s appeal is that it’s built in a way that enables developers to create smart contracts. Smart contracts are scripts that automatically execute tasks when certain conditions are met. For example, a smart contract could technically say, “pay Jane $10 if she submits a 1000 word article on goats by September 15, 2018,” and it would pay Jane once the conditions are met.
These smart contracts are executed by the Turing-complete Ethereum Virtual Machine (EVM), run by an international public network of nodes.
The cryptocurrency of the Ethereum network is called ether. Ether serves two different functions:
- Compensate the mining full nodes that power its network. This keeps things running smoothly at an administrative level.
- Pay people under smart contract conditions. This is what motivates users to work on the Ethereum platform.
If you’re still a little confused, don’t worry. The underlying technology is complicated even at a surface level.
By the end of this guide, you’ll have a better understanding of Ethereum than 99.999% of people out there… and that’s a pretty good start!
We’ll go over things such as how Ethereum functions, Ethereum’s history, and some of the exciting dapps running on the Ethereum platform.
Welcome to a Wild Ride: Ethereum
In 2011, a 17-year-old Russian-Canadian boy named Vitalik Buterin learned about Bitcoin from his father. Buterin became a co-founder of Bitcoin Magazine and a leading writer for the publication. Buterin currently serves on the Editorial Board of Ledger. As a peer-reviewed scholarly journal, Ledger publishes original research articles on cryptocurrency and blockchain technology. The publication shows interest in any topics relating blockchain to mathematics, computer science, engineering, law, and economics.
In 2013, after visiting developers across the world who shared an enthusiasm for programming, Buterin published a white-paper proposing Ethereum.
In 2014, Buterin dropped out of the University of Waterloo after receiving the Thiel Fellowship of $100,000 to work on Ethereum full-time.
In 2015, the Ethereum system went live.
In 2017, Ethereum hit a cap rate of $36 billion dollars.
Whether you’re looking at this from an investment standpoint, tech perspective, or witness to history; Ethereum is extremely exciting.
Buterin’s goal was to bring the same decentralization from Bitcoin to more than just currency. This could be accomplished by building a fully-fledged Turing-complete programming language into the Ethereum blockchain.
The Ethereum white paper goes into detail for some of the potential use cases, all of which could be built through decentralized apps on the Ethereum network. The list goes on and on:
- Token Systems
- Financial Derivatives
- Identity and Reputation Systems
- File Storage
- Centralized Autonomous Organizations
- Data Feeds
- Cloud Computing
- Prediction Markets
By building these apps on the Ethereum network, these dapps can utilize Ethereum’s blockchain instead of having to create their own.
Ethereum’s Founding Team
The core Ethereum founding team in 2014 consisted of Vitalik Buterin, Mihai Alisie, Anthony Di Iorio, and Charles Hoskinson, additionally attracting the attention of Joseph Lubin to join the team. Lubin moved on to found the now near 1,000-employee Brooklyn-based “venture production studio” ConsenSys.
Rumored to be one of the top buyers in the Ethereum crowdsale, Lubin, who had been funding ConsenSys with his stash of Bitcoins, says he began selling some of his Ethers last year to fund the firm’s development.
The Ethereum Virtual Machine
Early blockchain applications like Bitcoin only allowed users a set of predefined operations. For example, Bitcoin was created exclusively to operate as a cryptocurrency.
Unlike these early blockchain projects, Ethereum allows users to create their own operations. The Ethereum Virtual Machine (EVM) makes this possible. As Ethereum’s runtime environment, the EVM executes smart contracts. Since every Ethereum node runs the EVM, applications built on it reap the benefits of being decentralized without having to build their own blockchain.
Smart contracts are strings of computer code capable of automatically executing when certain predetermined conditions are met.
Instead of requiring a single central authority to say “yay” or “nay,” these contracts are self-operated. This not only makes the entire process more effective, it also makes it more fair and objective.
For example, a simple smart contract use case would be:
- Jim wants to bet Sarah 100 Ether (ETH) that the price of ETH will be above $1000 on August 30th, 2018.
- They agree on a data feed to be used to determine the ETH price.
- They each escrow 100 ETH to a smart contract, with the winner taking the full 200 ETH.
- On August 30th, 2018 the data feed is queried and the contract immediately executes sending money to the winner.
Using the smart contract, there’s no need for Jim and Sarah to trust each other. They just have to trust the data feed.
Keep in mind that this is only a very simple example. Many smart contracts are extremely complex and can work wonders.
The takeaway: Smart contracts can automate a variety of tasks, without requiring intermediaries. All a smart contract needs is the arbitrary rules written into it.
Ethereum’s Challenges and Initiatives
Handling financial transactions alone presents hugely complex problems in terms of reliability and security. And since the Ethereum network comprises a general purpose blockchain that handles assets other than money, more complex challenges arise beyond mere financial transactions. Moving into the future, Ethereum confronts issues of scalability, energy consumption, security, privacy, and decentralization.
As a general purpose blockchain, Ethereum needs a mechanism to represent assets other than money. The ERC-721 standard has been created to transact unique items of value. The ERC acronym stands for Ethereum Request for Comment and provides a formal process for the Ethereum Foundation to improve its product. The ERC-721 standard originally drove the development of the highly successful CryptoKitties collectibles, but it allows for the representation of any digital asset.
Casper The Friendly Finality Gadget
Any blockchain relies on a trustworthy, fair, secure, and reliable consensus protocol for placing transactions onto the system. Like Bitcoin, Ethereum uses a Proof of Work (PoW) approach, but the Ethereum blockchain plans to implement a Proof of Stake (PoS) algorithm.
The Casper PoS protocol utilized game theory incentives to maintain the integrity of the system. It also provides benefits of greater security and reduces the massive energy consumption required by PoW mining.
Scaling the Heights
Scaling presents a great challenge for Ethereum, as it does for other blockchains. Scaling defines a system’s ability to handle a large and growing workload without showing strain or stress to the system. Think of this both as a system’s power and efficiency to complete tasks and also as a user experience challenge. If a user waits too long for a response after clicking a button, frustration results, and users give up on the system.
The web confronted this problem in the early days as well. In the first web applications, every action a user took on a web page resulted in the entire page having to be reloaded from the server and rendered again on the client’s browser. Web 2.0 came along, introduced the ability to refresh only the relevant part of the page, and responsive user interfaces became the norm on the internet.
Vitalik Buterin on Scaling
Vitalik Buterin identifies scaling as a primary concern that needs to be addressed in blockchain technology. He made the following comments in September 2017 in an interview with Naval Ravikant at the Disrupt SF 2017 conference.
“Bitcoin is currently processing a bit less than three transactions a second; and if it goes close to four, it’s already at peak capacity. Ethereum over the last few days, it’s been doing five a second. And if it goes above six, then it’s also at peak capacity. On the other hand, Uber on average — 12 rides a second, PayPal — several hundred, Visa — several thousand, major stock exchanges — tens of thousands. And if you want to go up to IoT, then you’re talking hundreds of thousands…”
The New Blood of Plasma Bringing Fresh Life To the Network
What the Lightning Network brings to Bitcoin, Plasma brings to Ethereum. Joseph Poon (the creator of the Lightning Network protocol) and Vitalik Buterin jointly design and architect Plasma.
Efforts like Lightning and Plasma ease stress on the network by taking work offline to a side chain. Users engage in multiple transactions over time on a channel on the side chain without utilizing the main blockchain at this point. After a number of transactions complete, the final state of these transactions moves over to the main blockchain as a single transaction with a single fee. Multiple interactions to process thereby reduce to a single action on the blockchain, consequently reducing strain on resources and improving scalability.
Swimming With the Shards
Computer science boils down to the art of putting something somewhere, then retrieving it when you want it. Storing only what you require in a manner that makes retrieval simple and elegant, and retrieving only what you need, and doing it all as quickly as possible defines efficiency. Sharding presents a technique for storing data in an efficient manner to improve retrieval. And efficiency determines scalability.
Sharding basically defines ways to break data into separate pieces and store them separately. Consequently, you only have to deal with the small piece containing the data you are interested in and not wade through every piece of data contained in the entire system. Database technology has long utilized sharding to increase scalability, and now the Ethereum Foundation researches how sharding can improve blockchain technology.
Raiden of the Lost Ark
Similarly, Raiden also presents side chain capability similar to Lighting and Plasma. Raiden is not a project of the Ethereum Foundation but a product of an independent company.
Decentralized Apps (Dapps)
Most of us have a pretty good understanding of what an application (app) is. An application is formally defined as a program or piece of software designed and written to fulfill a particular purpose of the user. We use apps every day: Apps allow us to check our bank balance, scroll through a live feed of pictures, or even launch a Flappy Bird into oblivion.
Now take this definition and ~*~decentralize~*~ it. Dapps serve similar functions, but run on an entire network of nodes rather than a central source. The fact that they are decentralized gives dapps an enormous advantage over traditional apps.
You know when Instagram is down because the server is down? This doesn’t happen with dapps. How about when Zomato got hacked and exposed the information of 17 million people? This doesn’t happen either.
Moreover, Dapps are:
- Open Source – Dapps allow users to view the app code on both the frontend and backend. No sketchy “allow us to use your location” nonsense unless otherwise stated.
- Autonomous – Dapps automatically act by the rules encoded into them. No room for outside corruption.
- Secure – Data and protocols are stored on the blockchain cryptographically. No hacks.
- 100% Uptime – The blockchain is always running, meaning zero downtime for dapps. No crashes.
- Easier to Implement – Developers wanting to take advantage of blockchain technology do not need to create a new blockchain. The framework is there, saving dapp creators a ton of time and effort spent creating a potentially subpar framework. In order to run on this decentralized network, dapps just pay transaction fees.
Will the Real Killer App Please Stand Up
While Bitcoin provides a network for financial transactions, Ethereum aspires to provide a platform for decentralized application development. Ultimately, a programming platform requires good applications built on it to be taken seriously. CryptoKitties gained popularity for a while, but we continue to wait and see how well Ethereum serves as a foundation for application development.
Quartz asked Vitalik Buterin “What decentralized apps do you find interesting? on September 14, 2017. He answered as follows:
“There are a few categories that are flourishing already. Some of them are various financial applications, financial contracts, derivatives, things like Maker. Games are another one. In the non-financial space, identity verification is getting to be a big one. With prediction markets, Augur and Gnosis are going to be fairly successful. Also in the not-quite financial space there’s an interesting thing called Akasha. It’s an Ethereum-based forum that uses ether-based cryptocurrency mechanisms to manage things like upvote and downvote and spam prevention.”
Ethereum vs Bitcoin: Continued
Now that you have a decent understanding of what Ethereum is and how it functions, it’s useful to revisit how it compares to Bitcoin at a technical level.
While the two cryptocurrencies serve different purposes, Ethereum provides a number of benefits over Bitcoin:
- Shorter Block Times – On Ethereum, blocks are mined roughly every 15 seconds compared to Bitcoin’s 10-minutes rate. This shorter time allows the blockchain to more quickly start confirming transaction data, although it also means more orphaned blocks.
- More Sophisticated Fee Structure – Ethereum transaction fees are based off storage needs and network usage. Bitcoin transactions are limited by block size and compete with each other.
- More Sophisticated Mining – Bitcoin mining currently requires ASICs (Application-Specific Integrated Circuits), necessitating a large amount of capital investment to mine. Ethereum’s mining algorithm was designed with ASIC-resistance in mind, thus leveling the playing field and aiding in the decentralization of mining.
Ethereum arguably currently functions better than Bitcoin as a currency. With Ethereum, you can reliably send transactions faster, pay lower transaction fees, and mine at a more profitable rate (although it still has its downfalls for miners).
However, Bitcoin does have a relatively more stable price—and therefore functions as a better value storage option—from a trading and value storage perspective. Ethereum is much younger but has covered a substantial amount of ground in recent years. Although Ethereum certainly shows promise as a currency, its true potential lies in features nonexistent in Bitcoin’s code.
The DAO: Trouble in Paradise
The most famous DAO was simply known as The DAO. The nearly identical name causes a lot of confusion for people and gives DAOs a bad reputation.
The DAO was a decentralized autonomous organization primarily functioning as its own investor-directed venture capital fund. It didn’t have the conventional management structure or board of directors, was not tied to any particular government, and instead ran on open source code. The DAO was set up to give funders the power to vote for which dapps deserved investment through DAO tokens.
Dapps had somewhat of an approval process:
- Get whitelisted by reputable figureheads in the Ethereum community
- Get voted on by those who held DAO tokens
- Get an approval of 20% in the vote in order to receive a share of DAO funds they required to get started.
The DAO is most famous for the largest crowdfunding campaign in history, raising over $150 million in ether from more than 11,000 investors. The DAO is also most infamous for getting hacked for $50 million. This hack inevitably caused a split in the Ethereum community, creating what we now know as Ethereum (ETH) and Ethereum Classic (ETC).
On June 17th 2016, an unknown person or group of people took advantage of a lapse in the Split Function’s security with a simple recursive function. This frustratingly easy hack allowed the hacker(s) to repeat their request to withdraw the same DAO tokens multiple times before the system registered it as $50 million.
The news of this hack created chaos in the Ethereum community. While this hack had nothing to do with the Ethereum platform and everything to do with The DAO platform, many members of the Ethereum community were invested in The DAO. The community as a whole had 28 days to come up with a solution, which ended up being to “fork”—stop the current blockchain entirely and create something new from scratch.
The vast majority of the Ethereum community including the Ethereum founders pivoted along with ETH, with a small minority staying loyal to the original blockchain.
Future Updates to Ethereum: The Long Road of the Future
Software never stops changing until people stop using it. The Ethereum Foundation follows a roadmap of future modifications and enhancements to the system. No system ever runs fast enough, so scaling continues to develop. Privacy remains paramount, and research into zero-knowledge proofs continues. Decentralized systems demand constant attention to security. Many aspects of the future remain unknown. Some new and popular application not yet on the market may well demand new capabilities from the system. As the world changes, Ethereum continues to evolve.
The future for Ethereum is bright, but it is not without its potential uncertainty.
A notable event on the horizon is the Metropolis hard fork that is set to occur in late September. This hard fork indicates some major upgrades for the platform including:
- Increased anonymity with new zero-knowledge proofs, or “zk-SNARKs.” This means users will be able to conduct transactions at much more secure levels of anonymity than ever before.
- Smart contracts and programming will be much easier to work with. Gas is also going to be adjusted for bill setting.
- Masking will increase security on the network. Users will be able to determine the address for which they have a private key, and this will protect them from quantum computer hacking.
- A “difficulty bomb” will be included in the upgraded, meaning mining will become much more difficult. This is a significant step as Ethereum transitions from proof-of-work (PoW) to proof-of-sake (PoS).
We won’t know how this hard fork will affect the price of Ethereum as markets could adjust in a variety of ways. If the upgrades attract more users, the price could rise. However, if mining becomes more difficult and slows, the price could fall.
The next upgrade after Metropolis is referred to as Serenity, which should increase stability and encourage more investment.
While there is a lot of speculative interest around Ethereum, it’s important to note that the Ethereum and dapp communities are very much focused on building a tangible future.
Ethereum is a phenomenal application of the blockchain and has made it possible for hundreds of projects to exist.
The primary goal of Ethereum’s founders isn’t to create a cryptocurrency that makes speculators a ton of money; it’s to change the world. The Ethereum community attracts ideological supporters in the same way Bitcoin and other cryptocurrencies do, but it’s use cases give it life far beyond that of other coins.
Authored by Alex Moskov of CoinCentral.com