What is #Halving in Crypto ?
#Halving in cryptocurrency refers to a programmed reduction in the amount of new coins or tokens that are created as a reward for mining blocks on a blockchain network. This event occurs at regular intervals, and it is a critical part of the #protocol of many cryptocurrencies, including #Bitcoin and #Litecoin.
During halving, the #reward for mining new blocks is reduced by #half, which decreases the rate at which new coins are introduced into the #network. This is designed to control #inflation and maintain the #scarcity of the cryptocurrency. The process is mathematically predetermined, and it reduces the reward given to #miners in exchange for maintaining the network and validating transactions.
Halving typically results in a reduction in the supply of the cryptocurrency, which can lead to an increase in its #value due to the increased scarcity. This has been observed in the past during the halving events of #Bitcoin and other cryptocurrencies. Halving is an important event in the cryptocurrency #ecosystem and is closely followed by #traders, #investors, and other #stakeholders.
The Most Recent and Famous Example for #Halving occurred in the #Bitcoin network on May 11th, 2020. This was the third halving event in the history of Bitcoin. The block reward for mining a new block was reduced from 12.5 BTC to 6.25 BTC per block. This meant that miners received half of the reward for their work in validating #transactions and securing the network compared to before the halving.
This Most Upcoming Example of Halving will be #Litecoin, Check it Out Here.
#Halving in cryptocurrency refers to a programmed reduction in the amount of new coins or tokens that are created as a reward for mining blocks on a blockchain network. This event occurs at regular intervals, and it is a critical part of the #protocol of many cryptocurrencies, including #Bitcoin and #Litecoin.
During halving, the #reward for mining new blocks is reduced by #half, which decreases the rate at which new coins are introduced into the #network. This is designed to control #inflation and maintain the #scarcity of the cryptocurrency. The process is mathematically predetermined, and it reduces the reward given to #miners in exchange for maintaining the network and validating transactions.
Halving typically results in a reduction in the supply of the cryptocurrency, which can lead to an increase in its #value due to the increased scarcity. This has been observed in the past during the halving events of #Bitcoin and other cryptocurrencies. Halving is an important event in the cryptocurrency #ecosystem and is closely followed by #traders, #investors, and other #stakeholders.
The Most Recent and Famous Example for #Halving occurred in the #Bitcoin network on May 11th, 2020. This was the third halving event in the history of Bitcoin. The block reward for mining a new block was reduced from 12.5 BTC to 6.25 BTC per block. This meant that miners received half of the reward for their work in validating #transactions and securing the network compared to before the halving.
This Most Upcoming Example of Halving will be #Litecoin, Check it Out Here.
What is PoW (Proof of Work) ?
#Proof of Work (#PoW) is a consensus #mechanism used by many #blockchain networks to validate transactions and add new blocks to the #chain. In a PoW system, nodes on the #network compete to solve complex mathematical problems, with the first node to #solve the problem being rewarded with a block of #transactions that is added to the blockchain.
The process of solving the #mathematical problem requires significant #computational power, which is provided by the #nodes on the network. Nodes that participate in the PoW process are called #miners, and they use specialized hardware and software to perform the calculations necessary to #solve the problem.
Once a miner successfully solves the problem, they #broadcast the solution to the network, along with a list of valid transactions. Other nodes on the network then validate the solution and the transactions, and if everything is correct, the new #block is added to the blockchain.
PoW systems are designed to be #secure and resistant to attacks. However, PoW can be resource-intensive and require a significant amount of #energy to operate.
Some well-known #cryptocurrencies that use PoW include #Bitcoin, #Ethereum, and #Litecoin. These networks rely on PoW to maintain the integrity of the blockchain and ensure that transactions are processed in a secure and #decentralized manner.
#Proof of Work (#PoW) is a consensus #mechanism used by many #blockchain networks to validate transactions and add new blocks to the #chain. In a PoW system, nodes on the #network compete to solve complex mathematical problems, with the first node to #solve the problem being rewarded with a block of #transactions that is added to the blockchain.
The process of solving the #mathematical problem requires significant #computational power, which is provided by the #nodes on the network. Nodes that participate in the PoW process are called #miners, and they use specialized hardware and software to perform the calculations necessary to #solve the problem.
Once a miner successfully solves the problem, they #broadcast the solution to the network, along with a list of valid transactions. Other nodes on the network then validate the solution and the transactions, and if everything is correct, the new #block is added to the blockchain.
PoW systems are designed to be #secure and resistant to attacks. However, PoW can be resource-intensive and require a significant amount of #energy to operate.
Some well-known #cryptocurrencies that use PoW include #Bitcoin, #Ethereum, and #Litecoin. These networks rely on PoW to maintain the integrity of the blockchain and ensure that transactions are processed in a secure and #decentralized manner.
What is PoC (Proof of Capacity) ?
Proof of Capacity (#PoC) is a consensus mechanism used in some blockchain networks to $validate transactions and create new blocks. Unlike other consensus mechanisms such as Proof of Work (#PoW) or Proof of Stake (#PoS),#PoC requires users to allocate a specific amount of #disk space to participate in the #mining process.
In #PoC, #miners create plots, which are essentially pre-computed data sets that contain a specific number of cryptographic hashes. These plots are stored on the miner's hard drive and are used to prove that the miner has the necessary resources to validate transactions and create new blocks. When a new #block is to be created, miners use their plots to find the solution to a #mathematical problem, and the miner who finds the solution first gets to create the next block and receive a #reward in the form of #cryptocurrency. Example of a coin uses #PoC is #BURST Coin
#PoC is considered to be more energy-efficient than #PoW, as it doesn't require miners to perform intensive #computations that consume a lot of electricity. It is also more resistant to centralization than #PoS, as it doesn't give an advantage to those who hold a large amount of #cryptocurrency, and instead rewards those who have invested in storage #capacity.
Limitations
—> PoC is still not under mass usage like proof of work.
—> The drives use for storing data of hashes have a lot of free space. Which makes it hard to detect any malicious computation storage by network intruders.
—> Massive adoption of this approach might lead to competition among high-capacity hard drive sellers.
Proof of Capacity (#PoC) is a consensus mechanism used in some blockchain networks to $validate transactions and create new blocks. Unlike other consensus mechanisms such as Proof of Work (#PoW) or Proof of Stake (#PoS),#PoC requires users to allocate a specific amount of #disk space to participate in the #mining process.
In #PoC, #miners create plots, which are essentially pre-computed data sets that contain a specific number of cryptographic hashes. These plots are stored on the miner's hard drive and are used to prove that the miner has the necessary resources to validate transactions and create new blocks. When a new #block is to be created, miners use their plots to find the solution to a #mathematical problem, and the miner who finds the solution first gets to create the next block and receive a #reward in the form of #cryptocurrency. Example of a coin uses #PoC is #BURST Coin
#PoC is considered to be more energy-efficient than #PoW, as it doesn't require miners to perform intensive #computations that consume a lot of electricity. It is also more resistant to centralization than #PoS, as it doesn't give an advantage to those who hold a large amount of #cryptocurrency, and instead rewards those who have invested in storage #capacity.
Limitations
—> PoC is still not under mass usage like proof of work.
—> The drives use for storing data of hashes have a lot of free space. Which makes it hard to detect any malicious computation storage by network intruders.
—> Massive adoption of this approach might lead to competition among high-capacity hard drive sellers.
What is Proof of Space ?
Proof of Space (#PoS) is a consensus #algorithm used in some cryptocurrencies to validate transactions and add new blocks to the blockchain. It is a type of proof-of-resource consensus #mechanism, similar to Proof of Work (#PoW) and Proof of Stake (#PoS), or Proof of Capacity (PoC), but it uses hard disk space as the resource instead of computing power or #stake.
In #PoS, participants contribute their unused hard disk space to the network, and the space is used to generate #cryptographic hashes. The more space contributed, the #higher the chance of being selected to validate transactions and earn #block rewards. To participate in the consensus process, participants must first allocate a certain amount of disk #space and generate a proof that they have stored a specific set of data on that space. This proof is then validated by the network, and the participant is added to a #pool of eligible validators.
Once a participant is selected to validate #transactions and add a new block to the blockchain, they must provide a valid #proof of space for the block to be accepted by the #network. The process of generating a valid proof of space typically requires less energy and computational resources compared to PoW, as it relies primarily on the #storage of data on hard drives.
So, What the Difference between the Proof of Stake and Proof of Space ?
In #PoC, #miners create plots, These plots are stored on the miner's hard drive. When a new #block is to be created, miners use their plots to find the solution to a #mathematical problem, and the miner who finds the solution first gets to create the next #block and receive a #reward in the form of #cryptocurrency BUT in Proof of Stake, It uses #hard disk space as the resource instead of #computing power or #stake.
Proof of Space (#PoS) is a consensus #algorithm used in some cryptocurrencies to validate transactions and add new blocks to the blockchain. It is a type of proof-of-resource consensus #mechanism, similar to Proof of Work (#PoW) and Proof of Stake (#PoS), or Proof of Capacity (PoC), but it uses hard disk space as the resource instead of computing power or #stake.
In #PoS, participants contribute their unused hard disk space to the network, and the space is used to generate #cryptographic hashes. The more space contributed, the #higher the chance of being selected to validate transactions and earn #block rewards. To participate in the consensus process, participants must first allocate a certain amount of disk #space and generate a proof that they have stored a specific set of data on that space. This proof is then validated by the network, and the participant is added to a #pool of eligible validators.
Once a participant is selected to validate #transactions and add a new block to the blockchain, they must provide a valid #proof of space for the block to be accepted by the #network. The process of generating a valid proof of space typically requires less energy and computational resources compared to PoW, as it relies primarily on the #storage of data on hard drives.
So, What the Difference between the Proof of Stake and Proof of Space ?
In #PoC, #miners create plots, These plots are stored on the miner's hard drive. When a new #block is to be created, miners use their plots to find the solution to a #mathematical problem, and the miner who finds the solution first gets to create the next #block and receive a #reward in the form of #cryptocurrency BUT in Proof of Stake, It uses #hard disk space as the resource instead of #computing power or #stake.
The demand for #blockspace in #Bitcoin is currently soaring due to the utilization of BRC-20 tokens, text-based inscriptions, and ordinals. This surge in demand is proving to be highly lucrative for #Miners, as the average fee per block has reached 2.905 #BTC, approaching levels seen during previous bullish periods.
What is #Unlabelled Miners ?
#Unlabeled #miners refer to the anonymous or unidentified participants in a #cryptocurrency network who are mining blocks but have not been publicly associated with any specific mining #pool or entity. In many blockchain networks, miners are typically associated with specific #mining pools or known entities that publicly #disclose their participation in the network.
Unlabeled miners, on the other hand, operate #independently without publicly declaring their identity or #affiliation. Their mining activities can be observed on the #blockchain as they contribute #computational power to validate transactions and secure the network. However, their specific identities or affiliations are not disclosed or #publicly known.
The presence of unlabeled miners adds to the decentralized nature of the network, as it #demonstrates that there are independent miners contributing to the consensus mechanism without necessarily being part of a larger mining pool. These #miners may choose to remain anonymous for various reasons, such as #privacy concerns, #competitive advantage, or #personal preferences.
It's worth noting that the #anonymity of miners can vary across different blockchain #networks. Some networks prioritize #transparency and require miners to publicly disclose their #identities or affiliations, while others allow for greater #anonymity and participation as unlabeled #miners.
#Unlabeled #miners refer to the anonymous or unidentified participants in a #cryptocurrency network who are mining blocks but have not been publicly associated with any specific mining #pool or entity. In many blockchain networks, miners are typically associated with specific #mining pools or known entities that publicly #disclose their participation in the network.
Unlabeled miners, on the other hand, operate #independently without publicly declaring their identity or #affiliation. Their mining activities can be observed on the #blockchain as they contribute #computational power to validate transactions and secure the network. However, their specific identities or affiliations are not disclosed or #publicly known.
The presence of unlabeled miners adds to the decentralized nature of the network, as it #demonstrates that there are independent miners contributing to the consensus mechanism without necessarily being part of a larger mining pool. These #miners may choose to remain anonymous for various reasons, such as #privacy concerns, #competitive advantage, or #personal preferences.
It's worth noting that the #anonymity of miners can vary across different blockchain #networks. Some networks prioritize #transparency and require miners to publicly disclose their #identities or affiliations, while others allow for greater #anonymity and participation as unlabeled #miners.
Under the present #market circumstances, Bitcoin miners continue to be profitable, earning a total revenue of $24.1 Million from block subsidies and transaction #fees. With an estimated production cost of $19.1 Million, they achieve a net profit of $5 Million.
With the Previous Data, #Miners Remains Profitable and Kinda Hodling the Coin, Which Eventually, reducing the Fresh Supply in the Market.
With the Previous Data, #Miners Remains Profitable and Kinda Hodling the Coin, Which Eventually, reducing the Fresh Supply in the Market.
Over the past week, there has been a notable movement of #Bitcoin coins from #Miners to Exchanges, with the largest amount reaching $70.8M.
This represents the third largest $inflow in history, falling $30.2M short of the highest recorded inflow of $101M observed during the main bull market of 2021.
This represents the third largest $inflow in history, falling $30.2M short of the highest recorded inflow of $101M observed during the main bull market of 2021.
Shark entities, holding between 100 to 1,000 #BTC, are witnessing a favorable increase in their balance, acquiring a substantial volume that accounts for 36% of the newly mined supply. Conversely, whale entities, holding more than 1,000 #BTC, along with #miners, are net sellers, releasing a #volume that represents 70% of the newly #mined supply from their holdings.
The market seems to be experiencing a phase of steady #accumulation, indicating a hidden demand even amidst recent regulatory challenges.
The market seems to be experiencing a phase of steady #accumulation, indicating a hidden demand even amidst recent regulatory challenges.
What is Mining Pools
#Mining is integral to the security of Proof of Work blockchains. By computing hashes with certain properties, participants are able to secure #cryptocurrency networks without the need for a central authority.
You could be running several high-powered ASICs, and you’d still be just a drop in the #Bitcoin mining ocean. The chances of you actually #mining a block are pretty slim, even though you’ve spent a lot of money on your hardware and the electricity required to run it. You don’t have a guarantee on when you’ll get paid with a block reward, or even if you’ll get paid at all. If consistent revenue is what you’re after, you’ll have much greater luck in a mining pool.
Let’s say that you and nine other participants own 0.1% of the network’s total hashing power each. That means that, on average, you would expect to find one in every thousand blocks. With an estimated 144 blocks mined a day, you’d probably find one block a week. Depending on your cash flow and investment into hardware and electricity, this “solo mining” approach could be a feasible strategy.
What if, if you power is not enough to be profitable? so, However, what if this revenue won’t be enough to turn a profit? Well, you could join forces with the other nine participants we mentioned. If all of you combine your hashing power, you’d have 1% of the network’s hash rate. This means you’d find one in every hundred blocks on average, which works out at one to two blocks a day. Then, you could just split up the reward and share it amongst all the involved #miners.
#Mining is integral to the security of Proof of Work blockchains. By computing hashes with certain properties, participants are able to secure #cryptocurrency networks without the need for a central authority.
You could be running several high-powered ASICs, and you’d still be just a drop in the #Bitcoin mining ocean. The chances of you actually #mining a block are pretty slim, even though you’ve spent a lot of money on your hardware and the electricity required to run it. You don’t have a guarantee on when you’ll get paid with a block reward, or even if you’ll get paid at all. If consistent revenue is what you’re after, you’ll have much greater luck in a mining pool.
Let’s say that you and nine other participants own 0.1% of the network’s total hashing power each. That means that, on average, you would expect to find one in every thousand blocks. With an estimated 144 blocks mined a day, you’d probably find one block a week. Depending on your cash flow and investment into hardware and electricity, this “solo mining” approach could be a feasible strategy.
What if, if you power is not enough to be profitable? so, However, what if this revenue won’t be enough to turn a profit? Well, you could join forces with the other nine participants we mentioned. If all of you combine your hashing power, you’d have 1% of the network’s hash rate. This means you’d find one in every hundred blocks on average, which works out at one to two blocks a day. Then, you could just split up the reward and share it amongst all the involved #miners.