Author: Bitcoin Magazine Pro Team
Bitcoin's rising value makes mining it more difficult. In fact, the Bitcoin network automatically adjusts the mining difficulty approximately every two weeks to ensure that, on average, one block is mined every ten minutes. As more miners join the network and contribute their computational power, the mining difficulty increases, making it more challenging to mine Bitcoin. This increase in difficulty impacts how long it takes to mine Bitcoin. As a potential miner, you want to find out how long it takes to mine Bitcoin so you can understand the current profitability and bitcoin supply and demand.
This article will answer the question, how long does it take to mine 1 Bitcoin? and explain the factors that determine mining time and how to improve your efficiency. One way to improve your efficiency is by using Bitcoin Magazine Pro's Bitcoin analysis tool. This valuable resource will help you understand the factors that determine mining time and how to optimize the process for better profitability and efficiency.
Bitcoin mining is the process used to validate transactions on the network and introduce new Bitcoin into circulation. As of July 2024, around 19.5 million Bitcoin were in circulation. However, BTC is programmed to have a total supply of 21 million coins, with the remaining 1.5 million Bitcoin yet to enter into circulation. Users known as miners use powerful computers to solve complex mathematical problems and mine new Bitcoin in a process called Bitcoin mining.
When someone transacts on the Bitcoin network, their transaction is placed in a block. Once the block is full, it must be validated before being added to the blockchain. The process is similar to filling up a cart at a store and having a cashier check and validate your items at the checkout.
You can fill up your cart freely, but once it is full, the store needs to check every item to ensure you’re not stealing. Bitcoin mining is like a digital treasure hunt. Equipped with powerful computers, miners search for a 64-digit hexadecimal code known as a hash, which represents a block of transactions.
Miners find this code through a process called hashing. Hashing requires computer hardware to search through trillions of hashes (strings of numbers and letters) to find one that matches a block’s difficulty (called the target hash). Once miners find a block’s target hash, they can verify and confirm its transactions.
This process releases more Bitcoin into the network. It’s similar to playing a game where the rewards are locked away, creating a sense of value. Only those with the skill and know-how to unlock them can earn rewards. Finding the target hash can take a long time. The amount of time varies based on many factors, such as the current Bitcoin mining difficulty.
A difficulty adjustment or change occurs every 2,016 blocks and raises or lowers based on the number of miners contributing to the network. More miners mean a higher difficulty, while fewer miners mean a lower difficulty. It’s like searching for a treasure: it gets harder and harder as more people try to find it, keeping it scarce and adding inherent value.
Bitcoin’s creator, Satoshi Nakamoto, programmed the network to halve every 210,000 blocks (around every four years) to create digital scarcity. At this rate, Bitcoin won’t hit its 21 million cap until 2140. At this point, miners will still earn Bitcoin block rewards through transaction fees but will no longer release new Bitcoin into the network.
Miners mine Bitcoin using a mining rig, which can be anything from a normal PC to a dedicated machine, as long as it can follow SHA-256 — Bitcoin’s mining algorithm. SHA-256 is an encryption method that makes data hard to read without the proper tools. It scrambles data, such as a password, and outputs a really long code to represent it. That code means nothing to those without the tools to decrypt it, making it fully secure.
Even with the proper tools, decrypting this algorithm takes time. Miners mine a new block every 10 minutes, and the network distributes Bitcoin to miners for their efforts. This release of Bitcoin is called a block reward. Miners also receive transaction fees based on the block’s size. Before the Bitcoin halving in April 2024, the block reward was 6.25 BTC per block.
The Bitcoin halving event reduced this reward to 3.125 BTC. Bitcoin’s creator, Satoshi Nakamoto, programmed the halving into Bitcoin’s code, designed to create digital scarcity and maintain the value of Bitcoin, dramatically affecting Bitcoin mining profitability. With each halving, it becomes harder for miners to earn as much as they did before, which increases the scarcity and, ideally, the value of Bitcoin.
Blockchain mining is the computational work that network nodes undertake to validate the information contained in blocks. So, in reality, miners are essentially getting paid for their work as auditors. They are conducting the first verification of Bitcoin (BTC) transactions, opening a new block, and being rewarded for their work.
One of the primary reasons people invest time and money in mining is the reward of Bitcoins, which have become very valuable over time. For example, on March 8, 2024, Bitcoin's price topped $70,000 for the first time, closing at $68,285. The reward at the time was 6.25 Bitcoin. At the close of trading that day, that reward was worth $426,781.25. The rewards for Bitcoin mining are cut in half every four years.
When first mined in 2009, one block would earn you 50 BTC. In 2012, this was halved to 25 BTC. By 2016, this was halved again to 12.5 BTC. On May 11, 2020, the reward was halved again to 6.25 BTC. The reward halved again in April 2024 to 3.125 BTC. Due to the halving process and increasing prices, miners want to receive as many Bitcoins as possible because the supply of new coins is slowly dwindling.
Sometime around 2140, no more new Bitcoins will be created. The competitive incentive to mine will disappear, with only the transaction fees remaining as a reason to participate in Bitcoin's network. Some miners might still participate as a way to participate in a decentralized currency, but it's likely that without the reward, most people will not want to mine. That is, unless the fees increase enough to make it worth their while.
The time to mine 1 Bitcoin depends on various factors like:
Bitcoin blocks are generated approximately every 10 minutes, but this does not mean individual miners consistently mine 1 Bitcoin in that timeframe. The actual time it can take you to mine Bitcoin depends on several factors, such as:
For an individual miner with just one ASIC, which are special computers built solely to mine Bitcoin with extreme efficiency and speed, mining 1 Bitcoin would realistically take many years. It is almost impossible for an individual to mine 1 Bitcoin on their own due to the high competition and the vast amount of computational power required. The speed at which you mine Bitcoin is directly proportional to your share of the network’s total computing power. The bigger your share of the network’s computing power, the faster you can mine Bitcoin.
The most important factor in determining how long it would take to mine 1 Bitcoin would be your mining operation’s hash rate. The best way to win a lottery is to buy as many tickets as possible; the same is true for Bitcoin mining. The higher the hash rate, the more likely you will mine at least 1 Bitcoin.
For instance, the total hash rate in the Bitcoin network in February of 2024 was about 600 EH/s. A single ASIC called the Antminer S19 Pro has a hash rate of 0.00011 EH/s! As the total computational power competing for block rewards increases, the proportion of the network that any single miner represents decreases, making it much harder to mine Bitcoin individually.
Most mining is done by pools, where miners combine their computational power to have a better chance of solving a block and then share the rewards. The more ASICs a miner can deploy, the more lottery tickets they will accumulate and the higher the chance that they will eventually create a block. Less than 7% of the Bitcoin supply is left to be mined, and competition over it is fierce.
Several factors determine the revenue of a Bitcoin mining operation and the time it takes to mine a single Bitcoin. These factors can provide meaningful estimates for the revenue of a mining operation in Bitcoin terms. Still, given Bitcoin price volatility, energy prices, and Bitcoin’s difficulty, all calculations are dynamic and probabilistic.
It would take a solo miner with a substantial hash rate around 10 minutes to mine 3.125 Bitcoin. Practically for solo miners, it could take months or even years for an individual miner with average hardware to mine a full Bitcoin due to the high competition and network difficulty.
Miners often join mining pools to combine their hash power and receive a portion of the Bitcoin mined, which provides a more steady and predictable income but distributes the rewards among all participants. A mining pool is a group of miners who contribute their hashrate as one entity in hopes of finding a target hash. In doing so, miners earn rewards based on their hashrate contribution. A mining pool operator distributes Bitcoin mining rewards, though often at a fee, and miners can contribute to different types of Bitcoin mining pools.
A proportional mining pool distributes rewards based on a miner’s hashrate contribution. They can also earn additional rewards through transaction fees. The pirate brought hundreds of shovels to an expedition example mentioned earlier.
Pay per last N groups mining pools distribute miners into shifts and pay them out based on their time on “shift.” A shift is a set period in which the miner contributes to the mining pool. This is like pirates working in shifts, with those working longer shifts getting more of the pay.
Pay-per-share pools provide miners with a fixed income, expecting them to contribute a certain amount of their hashrate daily. While this is a stable way to mine Bitcoin, it removes a miner’s ability to earn transaction fees. This is similar to every pirate in the expedition being expected to hit a daily quota. While no one can work overtime, they can expect consistent work and reliable income.
If a miner’s hardware has a hash rate of 100 TH/s (terahashes per second) and the total network hash rate is 150 EH/s (exahashes per second), the miner would have approximately 1/1,500,000 of the network’s total hash power.
Assuming a constant difficulty and network hash rate, this miner would statistically mine one block approximately every 1,500,000 blocks, or about 28.5 years, yielding roughly 0.219 Bitcoin per year (given the current block reward). Joining a mining pool can significantly reduce this time, providing small amounts of Bitcoin more frequently.
The Bitcoin network has a mechanism for ensuring that no matter how much hash rate is produced by all miners, one new block is only created on average every ten minutes. This mechanism is called the difficulty adjustment. The difficulty adjustment renders the absolute hash rate less significant to an operation’s revenue than the miner’s share of hash rate relative to the entire network.
If a mining operation has 10% of the network hash rate, they will mine an average of 10% of all blocks. Since blocks are produced at a constant, if probabilistic, rate, it is possible to calculate the operation’s expected revenue over some time.
The calculation above determines the revenue of a given mining operation in Bitcoin terms. However, most miners pay their costs:
The price of Bitcoin matters a great deal to miners. As it occurred in 2022, when the price of Bitcoin dropped, some miners no longer found it profitable to mine. When they stopped producing hash rate, the difficulty decreased, and remaining miners found blocks easier because they comprised a greater portion of the total hash rate.
When the price rises, more miners join the network, increasing the difficulty. Every existing miner will see their share of the total hash rate decline, leading to a decline in their expected revenue as denominated in Bitcoin. Since the price of Bitcoin is rising, its revenue, which is denominated in fiat, could still rise.
The above calculations estimated Bitcoin mining revenue. However, Bitcoin mining involves heavy costs, often yielding thin profit margins. The marginal cost of gold mining tends to stay near the price of gold. I think the case will be the same for Bitcoin. Satoshi Nakamoto explaining how the cost of mining will mirror the price of Bitcoin.
Due to Bitcoin’s difficulty adjustment, the marginal cost of mining one Bitcoin will forever approach its value. This means that if the price of Bitcoin is $100,000, the cost of mining one Bitcoin will tend toward $100,000. For many individuals, the costs will greatly exceed $100,000, making it unprofitable to mine.
Bitcoin mining is a business venture. Profits generated from its Bitcoin output depend on the investment made into its inputs. There are three main costs involved in Bitcoin mining:
This is the power that runs your mining systems 24/7. Mining can run up a substantial bill. The process (network-wide) consumes as much electricity as do certain countries. It's also important to consider the costs of cooling the area your mining systems are in. They produce a lot of heat; the more units you have, the more cooling you require. Air conditioning costs further increase the electricity bill.
Contrary to the popular narrative, desktop computers and regular gaming systems can be used to mine by joining a mining pool. The returns are limited because most pools split the rewards based on the amount of work each miner contributes. These systems cannot compete with the ASIC mining machines, but it is possible to come out a few hundred dollars ahead after accounting for the energy used.
If you want to be competitive, you'll need to buy several ASIC miners and join a pool, which can cost between $4,000 and $12,000 per rig. The faster a machine mines, the more it will cost.
Network speeds do not significantly affect the Bitcoin mining process, but latency does. Latency is the time it takes to communicate with the rest of the network. Also, mining farms require multiple internal connections to connect each mining rig to a main router or server with a connection to the internet. If you're using your gaming rig to mine and join a pool, you shouldn't need any extra bandwidth—just low latency to the pool you joined.
The total costs for these three inputs should be less than the output—in this case, Bitcoin's price—for you to generate profits from your venture. Considering the fluctuating—and often rising—price of Bitcoin, minting your own BTC might sound like an attractive proposition.
Between one in 92.67 trillion odds, scaling difficulty levels, and the massive network of users verifying transactions, one block of transactions is verified roughly every 10 minutes. But it’s important to remember that 10 minutes is a goal, not a rule.
The Bitcoin network can currently process between three and six transactions per second, with transactions logged in the blockchain about every 10 minutes. By comparison, Visa claims it can process about 65,000 transactions per second. Second-layer solutions and upgrades to the Bitcoin blockchain have attempted to address speed issues. However, modern banking networks and other blockchains still dwarf the number of transactions the Bitcoin network can handle.
The main issue at the heart of the Bitcoin protocol is scaling—the blockchain's ability to handle more work efficiently. Though Bitcoin miners generally agree that something must be done to address scaling, there is no consensus on how to do it. Bitcoin has been adjusted by introducing upgrades and accepting input from layers that do much of the work off-chain, but it still has issues with scalability.
When making adjustments, blockchain is surrounded by three central concerns: decentralization, security, and scalability. With current technology, one cannot be changed without affecting another. For example, if the Bitcoin blockchain were altered so that it could scale more effectively, it would likely decrease security and increase centralization.
Not surprisingly, in an age where all endeavors should have their environmental impacts evaluated and adjusted, Bitcoin mining's astronomical energy costs have drawn attention and criticism. Bitcoin's competitive proof-of-work mechanic is what causes it to use so much energy. According to some estimates, the blockchain's mining process consumes as much electricity as certain entire countries.
For most of Bitcoin's short history, its mining process has remained energy-intensive. In the decade after it was launched, Bitcoin mining was concentrated in China, a country that relies on fossil fuels like coal to produce a majority of its electricity. But crackdowns in China forced miners to move their operations elsewhere.
According to research done by the University of Cambridge, the majority of Bitcoin mining operations are now centered in the United States. Of the nearly 38% of global Bitcoin mining activity conducted in the U.S., more than 62% is concentrated in four states: Georgia (30.76%), Texas (11.22%), Kentucky (10.93%), and New York (9.77%). This means that four states make up more than 23% of the world's Bitcoin mining energy use and, theoretically, its hashing power.
Hashing power is how fast a computer, miner, or network can generate solutions (hashes) to the problem. For instance, as of September 2024, the Bitcoin network had an average hashrate of more than 622 exa-hashes (quintillion) per second. That's 622 x 1018—or 622 followed by 18 zeros—hashes per second.
As with anything that involves money, Bitcoin and Bitcoin mining attract a lot of bad-faith actors. If you decide to begin mining, you'll need to look out for mining scams before picking the software, tools, or networks. Here are some the more common scams:
These are websites that claim to rent mining power to customers. Not all of these services are scams, but make sure you read reviews, talk to others, and do thorough due diligence before choosing one.
Bitcoin wallets store your private keys. However, thieves can create fake wallets to steal your keys.Make sure you use a reputable wallet provider.
Many instances exist of people being contacted by fake email and social media exchanges, where they are pressured or tricked into depositing funds. There are other types of frauds and scams, but the best way to prevent falling victim is to never give your keys, seed phrases, or passwords to anyone. Don't put your trust in a person you've never met or a service that doesn’t have a well-established reputation.
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