What is the Bitcoin Blockchain? A Guide To The Technology Behind BTC

The Bitcoin blockchain is a combination of Bitcoin ( BTC ) and a blockchain. A person or group of people known as Satoshi Nakamoto created the Bitcoin protocol in 2008 to decentralize control of money when centralized entities were failing around the world. A publication called the Bitcoin White Paper outlines a set of computational rules that define a new type of distributed database: blockchains. The network was launched in January 2009.

The most famous cryptocurrency, Bitcoin, is the blockchain technology created. Like the US dollar, a cryptocurrency is a digital medium of exchange that uses cryptographic techniques to oversee the establishment of currencies and verify financial transfers.

The Bitcoin blockchain refers to data stored in “blocks” of information that are then linked together in a permanent “chain”. A block is a collection of Bitcoin transactions from a specific period. Stacks of blocks are stacked, with each new block building on the previous ones. As a result, a chain of blocks is formed, creating the word “blockchain”.

Every time a new block is added, it makes the previous blocks immutable. This ensures that each block gets more secure over time, and it is an example of how Bitcoin technology is changing the way banking and financial transactions are done.

However, the bitcoin blockchain is more than cryptocurrency: It is the technology on which most cryptocurrencies are built, including Bitcoin. The Bitcoin blockchain is unique because it ensures that all transactions are correct. Every action in the blockchain is recorded and nothing is left out of the network. Once an action is recorded and stored in one of the information blocks, it is time-stamped and secured, and the entire record is available to anyone in the system.

The Bitcoin blockchain is also decentralized, which means it is not stored in a main computer or controlled by a company. It is distributed on many computers in the network.

In the Bitcoin blockchain, there are codes called hashes. A hash is unique for each block in the blockchain. Hashing allows every network user to identify each block and the direction they move in the chain because each block has its own hash and the hash of the previous block.

With a second thought, the important parts of the blockchain include records, blocks, hashes, and chains. Block record and transaction record are two types of records in the blockchain. A block containing the most recent Bitcoin transactions that have not been recorded in any previous block. Transaction records including asset, pricing and ownership data are recorded, approved and settled on all nodes in seconds.

In essence, a hash is a fixed length string that is generated after converting any length of input data in a blockchain network, a block similar to a page in a ledger or ledger, and a string refers to the interconnected blocks in a network.In essence, a hash is a fixed length string that is generated after converting any length of input data in a blockchain network, a block similar to a page in a ledger or ledger, and a string refers to the interconnected blocks in a network.
Bitcoin blockchain short story

The idea of ​​blockchain technology was introduced in 1991 by Stuart Haber and W. Scott Stornetta in their paper “How to timestamp a digital document”. In this article, they explain the use of a continuous timestamp string to securely record information.The idea of ​​blockchain technology was introduced in 1991 by Stuart Haber and W. Scott Stornetta in their paper “How to timestamp a digital document”. In this article, they explain the use of a continuous timestamp string to securely record information.
Bitcoin was created largely to facilitate the exchange of the Bitcoin cryptocurrency. However, early adopters and inventors quickly discovered that it had much greater potential. With this in mind, they designed Bitcoin's blockchain to store more than just token movement data.
Bitcoin technology uses peer-to-peer (P2P) transactions, making it possible to operate without any banks or third parties managing each financial movement. It allows online payments to be sent directly from one party to another without going through any financial institution.
The term peer-to-peer means that the computers that are part of the network are equal to each other, there is no "special" node, and all nodes share the burden of providing network services. It is made up of thousands of Bitcoin nodes running the protocol. The protocol is responsible for establishing and securing the blockchain.
Forming a peer-to-peer network is possible because users' data is relevant to the individual or organization they are interacting with, and they are responsible for keeping the distributed network up and running. Information regarding the individual or organization is then transferred from their Bitcoin wallet to their location and IP address, representing a peer-to-peer Bitcoin interaction.

What is needed to make the Bitcoin blockchain work?What is needed to make the Bitcoin blockchain work?Bitcoin represents a “trustless, digital currency” along with the movement to decentralize financial services. Before Bitcoin, there was a need for a trusted third party to keep the ledger – a system for storing financial data of a company or individual – to record who owned how much. Everyone has a copy of this ledger with the Bitcoin network, so no need for a third party.
Every Bitcoin transaction occurs within the Bitcoin blockchain network, which is the digital space where Bitcoin mining and hashing energy is generated. Hash power is the processing power used by your computer or hardware to implement and solve various hashing algorithms. These algorithms are used to create new cryptocurrencies and allow them to trade with each other. This process is called mining.
Typically, Bitcoin holders purchase their crypto supply through a cryptocurrency exchange, a platform that facilitates transactions in Bitcoin and other cryptocurrencies. The decentralized ledger is what makes up the blockchain network. The latter suggests that Bitcoin is a piece of software, a set of processes in which the participants perform various tasks.
Blockchain is a digital ledger of duplicate transactions distributed across a network of blockchain computers. Each block on the chain contains a number of transactions, and whenever a new transaction occurs on the blockchain, a record of that transaction is added to each participant's ledger.

This distributed database is managed by many participants using a technology known as distributed ledger technology (DLT). Blockchain is a type of DLT where transactions are recorded using an immutable cryptographic signature known as a hash. Transactions are then organized into blocks. Each new block consists of a hash of the previous block, effectively chaining them together, which is why distributed ledgers are often referred to as blockchains.

Các bước của một giao dịch chuỗi khối Bitcoin

The blockchain acts as a ledger, tracking every Bitcoin transaction and verifying itself, which means that the entire network of nodes – the different computers participating in the network – will constantly check and secure every movement. . This is where the “miners” come into the game: Their computers do the work of maintaining the chain and, therefore, receive Bitcoins as a reward. These rules are collectively known as the Bitcoin protocol.The blockchain acts as a ledger, tracking every Bitcoin transaction and verifying itself, which means that the entire network of nodes – the different computers participating in the network – will constantly check and secure every movement. . This is where the “miners” come into the game: Their computers do the work of maintaining the chain and, therefore, receive Bitcoins as a reward. These rules are collectively known as the Bitcoin protocol.
Bitcoin miners refer to high-powered computers that solve complex math problems to mint a coin. Miners are specialized machines in the network that verify all transactions and block any malicious actors. Bitcoin miners compile as many transactions as possible into one block, then verify the block and add it to the chain of previous blocks mathematically. To provide their computing power to the network, miners are paid in freshly minted Bitcoin.
How does the Bitcoin blockchain work?Blockchain is a type of database that is a collection of information stored on a computer system in an electronic form. What is stored in a database, information or data is often structured in the form of tables that make it easier to search and filter information. Databases are designed to store large amounts of information that can be accessed, filtered, and edited by many users easily and quickly at any given time.
To do this, extensive databases containing data on servers are created from powerful computers. Those servers can be built using hundreds and hundreds of computers. Why? To have the compute storage capacity and power required for multiple users to access the database concurrently. This is also the difference from a database, say, a storage cloud-like drive.

 

This is how blockchain differs from database. The first difference is how the data is structured. Databases structure data into tables, while blockchain collects information into groups, called blocks, that hold data sets. Each block has a specific amount of storage associated with the previously filled block when it is filled, forming a data chain. That's why it's called a blockchain: Millions of blocks filled with linked data.This is how blockchain differs from database. The first difference is how the data is structured. Databases structure data into tables, while blockchain collects information into groups, called blocks, that hold data sets. Each block has a specific amount of storage associated with the previously filled block when it is filled, forming a data chain. That's why it's called a blockchain: Millions of blocks filled with linked data.
This system means that every blockchain is a more complex database because it creates a chain of data that cannot be changed when deployed in a decentralized system. Once a block is filled, it is immutable and becomes part of the timeline, and so each block on the chain has an exact timestamp of when it was added to the chain.
Thus, the goal of blockchain is to allow digital information to be recorded and distributed, but not edited. That's why it's not a database; no one can change it once it is filled and chained. With the arrival of Bitcoin technology, blockchain had its first practical application.
Risk reductionUsing a blockchain network has a lot of advantages. First, the precision of the chain. Transactions that are part of the blockchain must be approved by thousands upon thousands of computers. This eliminates all human involvement in verification, which means less human error, as well as more accurate recording of information.

But, what if one of the computers in the network makes a calculation error? The error will only occur in one copy of the block chain. For it to spread, at least 51% of the network will make the same mistake, which is very unlikely.But, what if one of the computers in the network makes a calculation error? The error will only occur in one copy of the block chain. For it to spread, at least 51% of the network will make the same mistake, which is very unlikely.
Another advantage is that blockchain eliminates the need for third-party verifiers. Any member of the Bitcoin network can check and verify the blockchain at any time.
Blockchain data is decentralized, meaning it is not stored in a central location but is instead replicated and spread across a vast network of computers. This makes it very difficult for anyone to tamper with the data because, for example, a kicker would need access to all networks to compromise all of the data.
Finally, an important part of blockchain is that, although anyone with an internet connection can view a list of the network's transaction history and access details of transactions, no one can access the information. identifying information about the user performing such transactions. In addition, every time a transaction is recorded, it is confirmed by the network, which means that the thousands of computers composing it confirm that the details of the purchase are correct.
Blockchain vs Bank

Blockchain works very differently from a traditional bank because it is 100% decentralized and it relies on thousands of computers to verify its transactions. This means it runs 24/7, every day of the year. The most significant advantage of all Bitcoin blockchains is its transparency as the blockchain acts as a public ledger for every transaction made in the Bitcoin network.Blockchain works very differently from a traditional bank because it is 100% decentralized and it relies on thousands of computers to verify its transactions. This means it runs 24/7, every day of the year. The most significant advantage of all Bitcoin blockchains is its transparency as the blockchain acts as a public ledger for every transaction made in the Bitcoin network.
Another difference is that the speed of transactions takes only 15 minutes or more than an hour at most, depending on the congestion of the network. While card payments and check deposits can take 24 to 72 hours.
The Bitcoin blockchain has variable fees, which typically range from $0 to $50. Although the fee is unrelated to the amount being transferred, it is determined by the current network circumstances and the data size of the transaction. Translate. Because a block on the Bitcoin blockchain can contain only one megabyte (MB) of data, the number of transactions included in a single block is limited.
Another difference is in the way the transaction is performed. While blockchain allows anyone with an internet connection to make transfers, banks need you to have an account, mobile phone or computer.
All these distinctions make blockchain technology a major player for traditional finance and the banking industry. They are chains established in rock, tamper-proof and decentralized that not only reduce costs but also create a transparent network in which users can feel empowered and safe.

Limitations of blockchainLimitations of blockchainWhile blockchain comes with many benefits, like everything, it also has its downside. The first is that blockchain can slow down when there are too many users on the network. It is also harder to scale due to its consensus working method.
Another limitation is that the data in the blockchain is immutable, you cannot go back and change the previous block when it was written. Some might see it as an imitation that requires self-maintenance, meaning that users must maintain their wallets themselves, or they may lose access.
One major limitation is that blockchain technology is still immature. In addition, it does not provide interoperability with other blockchains and other financial systems, and is difficult to integrate into legacy systems.
Grow up technologyLightning networkLightning Network (LN) allows participants to transfer BTC to each other without any fees using their digital wallets. A second layer is added to the Bitcoin network to allow transactions between parties outside of the blockchain, known as off-chain transactions. The second layer enhances throughput without affecting any of the decentralization or security features of the original blockchain.

Lightning Network creates payment channels between two users in a distributed database so they can transact with each other without all other users getting their information, identifying transactions off-chain .Lightning Network creates payment channels between two users in a distributed database so they can transact with each other without all other users getting their information, identifying transactions off-chain .
It is considered a game changer in the crypto world as it is designed to speed up transaction processing and reduce the associated costs of the Bitcoin blockchain. It was formed in 2015 and is being continuously developed and activated.
However, researchers have warned that as the Lightning Network grows, it will become a more attractive target for attackers. Bitcoins on a growing payment network can be stolen if users are not careful, and it can be difficult to secure future assets.
According to experts from the Hebrew University of Jerusalem, Bitcoin currently locked in the Lightning Network payment channel, currently worth about $9 million in Bitcoin, can be robbed  by attackers. Although the vulnerability is potentially serious, the researchers are optimistic that it can be fixed in the long run.
SegWitSegregated Witness, or SegWit, refers to a process change to how Bitcoin maintains transaction data in the blockchain. Segregate means separation and witness is transaction signature. It was created to innovate the way data is stored on the Bitcoin blockchain. This allows the network to accommodate more transactions in a single block, improving transaction throughput. SegWit went live on Bitcoin in August 2017 after the code for the update was released in 2015.

SegWit increases the block size limit of a blockchain by removing signature data from Bitcoin transactions. When parts of a transaction are deleted, space is freed and thus the ability to add more transactions to the chain.SegWit increases the block size limit of a blockchain by removing signature data from Bitcoin transactions. When parts of a transaction are deleted, space is freed and thus the ability to add more transactions to the chain.
SegWit not only improves Bitcoin's transaction processing speed, but it also addresses a weakness in the protocol that allows nodes to interfere with transaction processing capacity (TXID) issues on the network. By removing what is known as "signature data" or "witness data" from the input field of a block, Segwit increased the number of transactions that could fit into a block and fixed the malleability error. of the transaction.
On the Bitcoin network, the SegWit update was introduced as a soft fork in August 2017. A soft fork is a backward compatible update that allows upgraded nodes to communicate with non-upgraded nodes. A soft fork usually includes a new rule that does not conflict with the existing rules. However, due to the high cost of operating a single node (especially in developing countries), the upgrade was halted on November 8, 2017.
TaprootBitcoin Core developer Greg Maxwell proposed improvements to Taproot in January 2018. The criterion of 90% of blocks mined with support signals from miners was met three years later on June 12. 2021. That means 1,815 of the 2,016 blocks mined over the course of the two-week timeframe have some encrypted data left behind by miners to demonstrate their support for the lift. grant.
Taproot is a soft fork that improves Bitcoin's scripts to enhance privacy and increase anonymity on the network. When the user is not using Taproot, anyone can detect the transactions. Using Taproot, they can “hide” their transactions. Taproot even makes it possible to hide that a Bitcoin script has run. As of October 2020, Taproot is merged with the Bitcoin Core library.
One of the most significant changes to the network is the replacement of Schnorr signatures for Bitcoin's current elliptic curve digital signature (ECDSA) technique. The ECDSA technique generates public keys from randomly generated private keys, which makes it impossible to determine the private key from the Bitcoin address or the public key. Furthermore, Schnorr signatures will free up space and bandwidth on the Bitcoin network by making transactions faster and smaller.
By enabling discrete log contracts (DLCs), Schnorr signatures can help simplify complex smart contracts on the Bitcoin blockchain. The DLCs are a proposal to add a smart contract implementation to Bitcoin, allowing the establishment of simple, secure, and easy-to-use blockchains.
It could also aid in the expansion of two-layer payment channels such as the Lightning Network, allowing instant transactions on the Bitcoin network.

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