Entries by Anshika Bhalla

What is Bitcoin farm and what are the ways to mine it? [UPDATED]


Ever wondered how cryptocurrencies are made? Is there any special place for it? Yes, cryptocurrencies are mined in a specific location, usually having ample space with high-tech computers with an air conditioning system. Bitcoin is the most popular cryptocurrency in Blockchain Technology, and people are actively investing in it. However, Bitcoin miners who tend to crack the code and build the bitcoins are rewarded with some amount of cryptocurrency for the work they do. As A lot of energy is consumed in developing or mining a single Bitcoin, a lot of computers are needed. So to reduce the cost of computers, mining pools are considered. This means coordinating with the group of miners in a single space consisting of several computers where they can efficiently work on their hash code together for mining the Bitcoin. This type of place where miners can contribute together is known to be a Mining Farm.  We will be discussing more about the Bitcoin farms in this article. 

There are many advantages of being a Bitcoin miner as you can gain Bitcoin without spending actual money. You can get rewarded quite a good amount of Bitcoin from mining. You can also sell & buy Bitcoin with paybis after the mining.  To start your career as a Bitcoin miner,  you can have Bitcoin Certifications and become a Certified Bitcoin Expert. There are a lot of online courses and certifications available at the Blockchain Council, which you can explore.

What is Bitcoin Farming? 

As discussed above, for mining cryptocurrency, a large amount of investment is required for high-quality computers. So to overcome this situation, mining farms are developed. Bitcoin farm is a large space more like a warehouse or a repository where computer equipment is stored with central cooling or air conditioning systems, preventing the computers from overheating and getting damaged.  

Farming is a process that extracts the core value from Bitcoin. Hence, the production of these farms is going to be the next big thing. This farm is where the farmers, also known as miners, do their programs to harvest the digital coins. These farmers who process these coins are the backbone of the Bitcoin network. Without farmers, the network would fail and ultimately be out of all value. These farmers secure the network and help to process every transaction accordingly. Farmers of Bitcoin farm complete their task by solving the computational problems. Therefore the farmers who corporate and help in solving the computed win newly made coins and transaction fees. To understand this Blockchain, you must educate one with the method of how to mine it.

How does Bitcoin Farming Work? 

Do you know where bitcoins come from? Digital currency, not physical money, got prominence in the digital world. Bitcoin doesn’t have a central government because it is autonomous.

The farmers of this network who mine use software to solve the fundamental problems. They are issued with these digital coins for their services from this perspective. This has become a platform to earn more incentives and currency smartly.

All transactions are the new currency exchange model, and when it gets bundled, the Blockchain gets the name “blocks.”The Blockchain is an important ledger where pieces of information and details are freely shared and updated without any interference from an outside entity.

This farming is the efficient way of adding transaction records to Bitcoin’s ledger of the previous transactions that came up in the Blockchain. This ledger shows the previous or past transactions get the name “Blockchain” due to the formation of a chain over the blocks.

These nodes help to distinguish the needed Bitcoin transactions from attempts to take back the already spent coins.

Ways to Mine Bitcoin

As discussed earlier, at its core, Bitcoin mining is a process of verifying transactions on the Blockchain network. The Blockchain is a decentralized public ledger that records all Bitcoin transactions. When a new transaction is made, it is broadcast to the network of nodes, which then verify the transaction and add it to the Blockchain. The job of miners is to validate these transactions by solving complex mathematical equations that require significant computational power.

The first step in mining Bitcoin is to obtain the necessary hardware and software. As the mining process has become more complex over time, specialized equipment has been developed specifically for this purpose. These machines, known as ASICs (Application-Specific Integrated Circuits), are designed to perform the calculations required for Bitcoin mining much more efficiently than general-purpose computers.

In addition to ASICs, you will also need mining software that connects your computer to the Bitcoin network and enables you to participate in the mining process. There are several popular mining software options available, including CGMiner, BFGMiner, and EasyMiner.

Once you have your hardware and software set up, you will need to join a mining pool if you don’t have the resources to mine on your own. Mining pools are groups of miners who combine their resources to solve equations and split the rewards. By pooling your resources, you can increase your chances of successfully mining Bitcoin and earning a reward.

Mining pools typically charge a fee for their services, which can range from 1% to 4%. While this may seem like a significant cost, it can be more cost-effective than mining on your own, as the rewards are split among the pool members.

When you join a mining pool, you will be given a share of the computational power of the pool, which is proportional to the amount of work you contribute. As the pool solves equations and validates transactions, you will earn a share of the rewards based on your contribution.

One of the biggest challenges of Bitcoin mining is the amount of electricity it requires. As the computational power required for mining has increased, so too has the energy consumption. According to the Cambridge Bitcoin Electricity Consumption Index, the annual energy consumption of the Bitcoin network is estimated to be around 124 TWh, which is more than the entire country of Argentina.

To reduce the environmental impact of Bitcoin mining, there are several initiatives underway to develop more sustainable mining practices. One approach is to use renewable energy sources, such as solar or wind power, to power mining operations. Another approach is to use excess energy from other industries, such as oil or gas production, to power mining facilities


Solo Mining Vs Pool Mining

Solo Mining Vs Pool Mining

Mining Efficiency

Solo mining can be less efficient than pool mining because the success rate of mining a block is low due to the high computational difficulty of the Bitcoin network. This means that solo miners may end up spending a lot of resources on mining with little to no rewards.

In contrast, pool mining combines the computational power of multiple miners to increase the efficiency and chances of mining a block. The pool distributes the computational load, making it more likely that the pool will solve the mathematical problem, and when they do, the rewards are distributed proportionally among the pool members.

Payout Consistency

Pool mining provides a more consistent payout compared to solo mining. In a mining pool, rewards are distributed among all the pool members, reducing the variance in payouts. This means that even if an individual miner does not successfully mine a block, they can still receive a regular payout from the pool.

In solo mining, rewards are only received when a block is successfully mined, which can be unpredictable and sporadic. This means that solo miners may go long periods without receiving any rewards, and then suddenly receive a large payout.

Technical Expertise

Solo mining requires advanced technical knowledge and skills to configure and run the mining software, set up the hardware, and optimize the mining process. Solo miners must be proficient in setting up and managing their mining rigs, including configuring hardware settings, setting up a mining node, and optimizing power usage.

Pool mining, on the other hand, is simpler and more accessible to beginners as the pool operator manages the technical aspects. All that is required to join a pool is a computer with an internet connection, a mining client, and a small fee to join the pool.

Resources Required

Solo mining requires significant resources, including specialized hardware, electricity, and cooling, which can be costly. Solo miners must invest in high-performance hardware such as ASICs (Application-Specific Integrated Circuits) or GPUs (Graphics Processing Units) to compete with other miners.

In contrast, pool mining only requires a computer with an internet connection and a small fee to join the pool. Pool mining allows miners to benefit from the shared resources of the pool, reducing the upfront cost of mining and making it accessible to a wider range of individuals.

Risk and Reward

Solo mining offers a higher risk and reward potential compared to pool mining. While the chances of successfully mining a block and receiving a reward are low, the reward can be significant. Solo mining allows miners to keep the entire block reward for themselves, rather than sharing it with the pool.

In contrast, pool mining offers a lower risk and reward potential as the rewards are distributed among all the pool members based on their contribution to the mining process. While pool mining provides a more consistent payout, the rewards are typically smaller than those received through solo mining.

Top 5 Bitcoin farms in the world 

Crypto mining is a huge part of Blockchain technology, and so are the Bitcoin farms. Here you can have a look at the world’s top 5 Bitcoin farms. 

  • Russia

Located near the Bratsk aluminum plant in Siberia, Bitriver is the largest data center in the former Soviet Union. It has quickly become a popular destination for clients from around the world who are interested in mining Bitcoin and other cryptocurrencies. The three-story racks of application-specific integrated circuit (ASIC) devices and power units that line the walls of the 100 megawatt mining facility are managed by a team of on-site engineers who work 24/7 to monitor and perform routine diagnostics on the equipment.

The cold Siberian climate, with its long and frigid winters, is perfect for the data center’s needs. Low temperatures are ideal for cooling the machines, which require a lot of energy to farm cryptocurrencies. The Bratskaya hydropower plant on the Angara River provides up to 100 megawatts of power to Bitriver per year, making it an ideal location for crypto mining. The hydropower-generated electricity in the region is some of the cheapest in the world, and En+ Group Plc and its unit United Co. Rusal, which the sanctioned billionaire Oleg Deripaska used to control, own the Bratsk hydropower and aluminum plants.

While Russian law does not recognize crypto mining, Bitriver is not engaged in mining itself, and it only provides equipment and technical services at the data center. This means that its business is entirely legal. All of the technicians who work at the facility are trained and certified by Chinese mining hardware giant Bitmain and Innosilicon. Bitriver currently hosts over 20,000 mining devices, with room for up to 67,000 units.

The vast building’s banks of illuminated cryptocurrency mining rigs are a sight to behold. An armed guard regularly patrols the main mining hall, where the mining units require vast amounts of power to perform the complex mathematical calculations needed to harvest the cryptocurrency. On this farm, approximately 600 bitcoins are mined each month. The farm is equipped with the most advanced and powerful computer setups for mining Bitcoin, and its capacity is approximately 45,000 KW/H. The owner of this farm is unknown.

  • Linthal, Switzerland

Nestled in the picturesque Swiss Alps lies a unique innovation in the world of cryptocurrency mining: a Bitcoin farm that harnesses the power of hydropower. This eco-friendly approach to mining has drawn attention from all corners of the world for its groundbreaking use of renewable energy sources.

The Bitcoin farm in Switzerland is located in a remote area with access to a nearby hydroelectric power plant. This allows the farm to utilize the abundant water resources to generate electricity, which in turn powers the computers that mine bitcoins. Unlike traditional mining operations, which rely on fossil fuels to power their energy-intensive activities, this Bitcoin farm uses the natural energy of water to generate electricity, making it one of the most environmentally friendly mining operations in the world.

The farm is equipped with state-of-the-art mining equipment that runs on renewable energy. The computing power of the machines is harnessed to solve complex mathematical equations that are integral to the functioning of the Bitcoin network. In return for solving these equations, the mining operation is rewarded with bitcoins.

The team behind the Bitcoin farm is comprised of experts in the fields of cryptocurrency mining, energy production, and environmental sustainability. Their innovative approach to mining has garnered attention from both the cryptocurrency community and the wider public, as they continue to push the boundaries of what is possible with sustainable energy sources.

The farm’s success has inspired similar projects around the world, as more and more people become aware of the need to reduce our reliance on non-renewable energy sources. This shift towards renewable energy sources not only benefits the environment, but also helps to reduce the cost of electricity, making mining more accessible to a wider range of people.

  • Dalian, China

Dalian, China, is home to one of the largest Bitcoin farms in the world. This mining farm was once producing up to 750 BTC every month before it succumbed to China’s crypto crackdown. Despite this setback, the Dalian Bitcoin farm was unique because the entire mining facility was built inside abandoned shipping containers, using low-cost materials to build a large-scale mining hub.

China is the leader when it comes to mining Bitcoin, and the Dalian Bitcoin farm is no exception. It mines around 750 bitcoins per month, which is a considerable hash rate of 360,000 TH. This Bitcoin farm contributes to up to 3% of the entire Bitcoin network. The reason why China is preferred for mining Bitcoin is because of its reasonable electricity bills.

In 2014, a group of four individuals set up a secretive mining operation that owns six sites, including the one in Dalian. As of their visit, the collective operation generated 4,050 bitcoins a month, equivalent to a monthly gross of $1.5 million. The six mining farms have a computing power of eight peta hashes per second, and their brute force accounts for 3% of the entire Bitcoin network.

Interestingly, the workers at this mining farm live inside the facility itself, only returning home four or five days a month. The facility’s temperatures can reach over 100 degrees Fahrenheit during summer months, and a persistent, deafening buzz is always present due to the dozens of industrial fans required to maintain a steady temperature for the site’s 3,000 ASIC miners, which are custom-built computers specifically designed for mining bitcoins.

The Dalian Bitcoin farm is a valiant example of how low-cost materials can be used to build a large-scale mining hub, and it remains an impressive feat of engineering despite the setback it faced due to China’s crypto crackdown.

  • Reykjavik, Iceland

The popularity of Iceland for cryptocurrency mining is due to its location, abundant and cheap geothermal and hydroelectric plants, and its abundance of volcanoes. The wholesale cost of power is driven down, making it economical for Bitcoin miners to run their computers 24/7, 365 days a year. The country’s location, at the northernmost tip of the Mid-Atlantic Ridge, provides another benefit. The Arctic air reduces the need for expensive air-conditioning for the server rooms, which is crucial since the specialized chips used to mine most cryptocurrencies produce a lot of heat when run at maximum efficiency.

One company based in Reykjavik that can handle the devaluation of Bitcoin is Genesis Mining, which moved to Iceland in 2014 from Germany, when the price of Bitcoin was well under $1,000. The computers work around the clock, seven days a week, and are part of the largest concentration of Bitcoin mining power in the world. By solving and packaging complex “blocks” of encrypted data, the machines help secure and expand the worldwide network of digital currency. In return for their work, they generate vast fortunes for their owners.

Despite the significant advantages of Iceland’s energy abundance and low cost, the country is not immune to cyberattacks. Recently, five cryptocurrency data centers in Iceland were hit by cybercriminals over two months, with the thieves stealing 550 Bitcoin computers, along with motherboards, graphics cards, and power accessories. The haul was worth $500,000 for the hardware alone, but if the thieves knew how to operate them, they could mine bitcoins, which would churn out a continuous stream of virtual money for the burglars, all of it encrypted and untraceable.

Cryptocurrency mining may be highly profitable, but it is important to consider the environmental impact of this activity. As Bitcoin prices rise, so too does the amount of electricity required to mine them. The energy consumption of the entire network is equivalent to that of the Republic of Ireland. Thus, it is essential to develop sustainable and renewable energy sources for cryptocurrency mining to avoid potential negative environmental impacts.

  • USA

In Rockdale, Texas, lies the largest Bitcoin mining factory in the United States, Whinstone, which was established by Chad Harris, the company’s CEO. The factory boasts over 23,000 computers running simultaneously, all connected to each other, with each computer having two fans. Whinstone has seven warehouses, three of which are under construction. Harris arranges tours of the facility, and in one of the warehouses, an experimental system is installed where computers are submerged into a special oil to reduce their heat production and increase their efficiency. 

The energy consumed by the factory is immense, with Whinstone having a total of 300 megawatts of electrical capacity and growing to 700 megawatts in the future, almost as much as half an atomic reactor. 

Despite the energy consumption, Chad Harris generates bitcoins using the abundant gas available in Texas, which is used to generate electricity. The mining operation started in Rockdale after China’s Bitmain failed to establish the world’s largest Bitcoin mine in the town, leaving 88% of the facility’s 3,000 workers jobless. Harris, a flamboyant serial entrepreneur, had chosen Rockdale for a comeback bid in Bitcoin mining after closing his landscaping business and failing in a comeback bid hosting Bitcoin mining for a Japanese partner in rented New Orleans warehouses.

How to become a Bitcoin Farmer or Miner? 

Becoming a Bitcoin miner or farmer is an exciting concept, isn’t it? You can become a Bitcoin or any other cryptocurrency miner or farmer on your own. You will need some basic knowledge and an expert Bitcoin certification. For farming Bitcoin, special hardware equipment is needed. To be precise Application Specific Integrated Circuit Chips (ASIC) are used in mining Bitcoin. Standard computers can not do the job efficiently and accurately. 

Following are the steps by which you can start becoming a Bitcoin farmer or miner-

  • Get proper knowledge, go for Bitcoin Certification or online courses 
  • Choose an ASIC mining rig. 
  • Have a Bitcoin wallet, and this is where you can be rewarded with the Bitcoin in return for mining. 
  • Join a mining pool or a Bitcoin farm 
  • Get a mining program for your computer
  • Now lastly, start mining


We discussed the Bitcoin farm, how Bitcoin farming works, and the top 5 Bitcoin farms worldwide. Also, the steps which you can follow to be a part of Bitcoin mining. In this digitally transforming world, Blockchain technology is increasing the carrier opportunity. Therefore, to be a part of the Blockchain ecosystem, you can be a certified Bitcoin expert or a Bitcoin financial advisor. For that, check out Blockchain certification at Blockchain council and give a kickstart to your career.


A Bitcoin farm is a facility that is specifically designed to mine bitcoins. It’s a large-scale operation that involves a vast network of computers that work together to verify Bitcoin transactions and create new bitcoins. These farms are typically located in regions with cheap electricity and high-speed internet connections.

Bitcoin mining involves solving complex mathematical algorithms to verify and confirm transactions on the Bitcoin network. Miners use powerful computers to compete with each other to solve the algorithm and earn Bitcoin rewards. The difficulty of mining Bitcoin increases over time, requiring more powerful hardware to mine effectively.

There are two primary ways to mine Bitcoin: solo mining and pool mining. Solo mining involves using your own hardware and software to mine Bitcoin independently, while pool mining involves combining resources with other miners to increase the chances of solving the algorithm and earning rewards. Pool mining is generally considered to be more profitable than solo mining.

To mine Bitcoin effectively, you will need a powerful computer with specialized hardware known as an ASIC (Application-Specific Integrated Circuit). You will also need a reliable internet connection, a Bitcoin wallet to store your earnings, and mining software that is compatible with your ASIC hardware.

The profitability of Bitcoin mining depends on various factors, such as the price of Bitcoin, the cost of electricity, and the difficulty of mining. While it can be profitable, it’s important to note that Bitcoin mining requires a significant upfront investment in hardware and infrastructure. It’s also a highly competitive industry, and profits can fluctuate rapidly.