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What is cryptocurrency mining? Simply put, mining is the process of adding a block to a blockchain.
Mining tends to be one of the topics of cryptocurrency and blockchain that are over-explained, and over complicated. We believe that by using simple analogies, anyone and everyone can understand mining.
So in this article, we won’t be discussing difficult technical concepts and definitions like hashes, sha256, mathematical proofs, and back-linked lists. Instead, we’re going to take the approach of simplification so you can grasp the meaning and the fundamental concepts. We’re going to be referring mostly to the Bitcoin network when explaining mining, simply because the implementation of mining is the simplest and most well-known.
To explain mining, we’re going to be referring to Bitcoin most often. Bitcoin has commonly been referred to as digital gold for several reasons. Bitcoin has a supply of 21 million Bitcoin, and this supply is fixed, meaning there will never be any more than 21 million Bitcoin. The reason why this finite number is important is that it makes Bitcoin digitally scarce. Comparatively, gold is a scarce and valuable resource.
The next point to raise, is how many of the 21 million Bitcoin is currently in circulation, and how does more Bitcoin make it into circulation? As of the time of writing this article about 18.2 million of the possible 21 million are currently in circulation. New Bitcoin enters circulation through a process called mining. The analogy of digital gold holds up in this instance, as gold is also brought into circulation through a process of mining it from the earth.
We can now introduce the idea of difficulty. Over time, it becomes more and more difficult to mine gold. This is because initially, gold mines were more abundant, and contained rich deposits. So with relatively little effort, we could mine the gold from the earth. Now, the rest of the gold still left un-mined is in places that are difficult to extract, such as deep in the ocean, or beneath many layers of rock. Bitcoin was designed to mimic this principle. Over time, Bitcoin becomes more difficult to mine, and more energy is required to bring locked Bitcoin into circulation.
There are two ways of defining mining concerning Bitcoin, both of which are true:
1. Mining is the process in which new blocks are added to the blockchain
2. Mining is the process in which locked Bitcoin is released into circulation
Let’s explore how this happens.
The creator of Bitcoin, Satoshi Nakamoto, had to figure out how to get a network of anonymous individuals, who don’t trust one another to agree on the state of a shared ledger, the Bitcoin ledger. The solution that Satoshi decided to implement is a process called proof-of-work.
Let’s start at the beginning. When the Bitcoin network began on January 3rd, 2009, Satoshi was running the only computer in the network. There was zero Bitcoin in circulation, and so, there was no Bitcoin to transact with. However, the process of mining can still take place. Bitcoin is designed to publish a difficult problem to solve every single block.
Bitcoin dynamically adjusts this difficult problem so that on average, this problem will take any number of computers an average of 10 minutes to solve. If you’re running a computer that correctly gets the right answer to the problem, then you are rewarded by the network with Bitcoin in the form of Bitcoin. Bitcoin previously locked by the network is deposited into your Bitcoin address. This is the process in which a new Bitcoin enters circulation. The process of solving this problem is what we know as mining. It is also easy for others in the network to check your answer, and prove you’ve done the work to solve the problem. Thus proof-of-work. Once the problem is solved, it triggers the Bitcoin network to solidify the transactions that took place in the last 10 minutes inside of a block. The block is added to the end of the blockchain, and the process repeats.
1. Bitcoin publishes a difficult problem to solve that takes an average of 10 minutes.
2. Miners are competing to be the first to solve the difficult problem.
3. The first miner to find the answer triggers the creation of a new block, which in turn rewards the miner with Bitcoin.
This process is repeated indefinitely.
Different blockchains implement mining in different ways. As discussed earlier, there is only 21 million Bitcoin. If there is a Bitcoin reward for every block, then how is there a finite limit?
Satoshi decided to implement a deflationary mechanism into the Bitcoin network, so less and less Bitcoin is released into circulation as time progresses. If your computer solves a difficult problem for a given block, then you are rewarded with Bitcoin, but how much?
If you were mining in 2009, then the reward was 50 Bitcoin, in 2012, the reward shrunk to 25 Bitcoin, in 2016 the reward became 12.5 Bitcoin, and in May 2020, the reward will become 6.25 Bitcoin. So the amount of new Bitcoin coming into the system is decreasing by half roughly every 210,000 blocks or roughly every 4 years. This deflationary model was also intended to mimic gold, in the sense that it becomes more and more difficult to extract less and less gold from the earth.
So when will the last Bitcoin come into circulation? Not until around the year 2144.
Imagine that the Bitcoin network is comprised of 1000 miners. Every miner is attempting to solve the current problem. Each miner is putting in 100% of their effort. For any given block, only a single one of the 1000 miners can solve the problem and claim the reward. In that sense, the other 999 miners wasted whatever energy they spent trying to solve the problem. So it’s not necessarily the fact that the Bitcoin network uses that much energy, it's that it seems like the Bitcoin network is designed to “waste” energy. This is certainly one, perfectly valid way of looking at things. Let’s present other sides of the argument.
Adding more computers to the network increases the difficulty of the problem, and this in turn increases the amount of competition within the network. The more computers that are in the network, the more difficult it is to disrupt the network in what is known as a 51% attack. The idea is that if anyone entity owns 51% of the network, they can convince the other 49% of the network that something that didn’t happen, did happen. So in effect, the more computers in the network, owned by a greater diversity of individuals, the more secure the network becomes. So even though a single miner gets the reward, everyone is participating in the security of the network. Those who see this perspective do not see the electrical input as waste.
The other way to look at this is from a global financial perspective. The question is, how much energy does it take to maintain the USD, the EUR, or CNY. We need to consider the computers running our country’s financial infrastructure, the energy required to run the printing presses, and the thousands of individuals required to secure, and facilitate the maintenance of money. Furthermore, physical cash needs to be replaced as little as every 18 months, creating a recurring need to run those printing presses. An interesting fact about this is how frequently the bill needs to be replaced depends on the denomination of the bill. So $1 bills need to be replaced every 18 months, whereas a $100 bill only needs to be replaced every 9 years. Every country that has its currency needs to have its financial infrastructure, whereas the Bitcoin network is already global by design. Furthermore, every Bitcoin transaction is essentially equal on the network, it doesn’t cost any more to spend $10 than it does $10 million. Moving $10 million in cash is a massive undertaking.
So while the Bitcoin network consumes more electricity than the country of Ireland, this may be the price we pay to experiment with new forms of money. This may just be the cost of building, securing, and distributing a global financial internet.
Not all blockchains require the process of mining. After the genesis of the Bitcoin network, many mathematicians, cryptographers, and economists began examining how Bitcoin functions, and discovered the underlying technical infrastructure. They named the underlying technology Blockchain. They realized that Blockchains in general is made up of a couple of different parts. A simple way to break up the Blockchain is to break it into the part that processes transactions, and the part that allows participants of the network to agree upon what took place. The latter part is called the consensus mechanism. Proof-of-work in the case of Bitcoin.
After the parts were discovered, people started inventing other ways of securing the network. They were creating other consensus mechanisms. The other two most common consensus mechanisms are proof-of-stake (POS), and delegated-proof-of-stake (DPOS). These consensus mechanisms are much more energy-efficient, however, there is much debate as to the security of these other methods. The important thing is that we’re not locked into using proof-of-work for every blockchain. We can pick the best consensus mechanism for the job, based on the use case.
Anyone can participate in the mining process. The question is whether or not it will be profitable for you to do so. You can make a couple of dollars every month with an ordinary computer, but probably not by mining Bitcoin. Instead, you can download a program that allows you to mine on any number of other proof of work-based blockchain networks. The easiest way of participating in mining is by downloading HoneyMiner or MinerGate. These services do all the hard work for you, allowing you to just download the program and turn it on. They then will give you a payout for your mining contributions.
Graphics cards, typically used by gamers to run high-performance video games are also commonly used for cryptocurrency mining. So if you own a couple of graphics cards because you’re a video game hobbyist, then while you sleep, you can turn on a miner on your computer and make a couple of bucks. Beware, this will decrease the life of your graphics cards.
Finally, there is specialized hardware called application-specific integrated circuits or ASICs that can be purchased wherein the only purpose of these machines is to mine Bitcoin. These are for serious miners only. The profitability of mining is entirely dependent on how much you pay for electricity. So if you have access to cheap electricity, then perhaps mining is something that you’d like to explore.
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