Understanding The Blockchain Technology
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Descrizione
The real world is too restricted with drawbacks of the existing system and with constant research; people try to move on to find a better one. Back in 2009, the...
mostra di piùSavannah is horse-person, and she loves to go out and watch horse races. Now that she is interested in betting, she strongly believes that the horse she is betting on will win the race for sure. She wants to place a bet for a certain amount with her dearest friend Ann and that too with a big amount. The bet is on and she won it comfortably. Now that, Savannah has won the bet, she is asking for the betting amount to Ann and Ann refuses to give it. She says that she never even made such a bet with Savannah. At last a third person comes in and tries to settle down it by asking an equal amount of money from the two and promises that the money goes for the winner after a small interaction.
Savannah waits for the winning money and the third person never even showed up. Guess what, they both lost the money. The same scenario might happen in the real world.
With proper ledger and contracts, these fraudulent activities can be minimized and make it into immutable records with high transparency. Let’s enter into the ledger world, and explore all the necessary aspects covered in the blockchain technology.
What is blockchain technology?
Blockchain technology is a distributive ledger system used mostly to validate a transaction and process it with at most security. What exactly does validation stand for in this scenario? A ledger system stores all the transactions in the network and with blockchain concept, all the transactions are found meaningful by making sure there ain’t any misrepresentation happened.
Important terms in blockchain technology!
Digital wallet ( https://www.epixelmlmsoftware.com/blog/cryptocurrency-wallet-and-its-importance-cryptocurrency-software ) : Digital wallet a software program from which sending and receiving of a cryptocurrency is carried out.
Ledger: A digital record which contains all the transactions in the blockchain network open and is transparent in nature.
Nodes: Computers connected across the world to validate each and every transaction in the blockchain network.
Public key: It’s a cryptographic code used to receive Bitcoin from the network and is derived while creating a private key.
Private Key: A special key which gives a Bitcoin user to send it to others and it’s only accessible to the wallet holder.
Blockchain technology is well the best way to overcome all the drawbacks of the present system and give a perfect solution. The simple definition can be depicted as below,
From the above pictorial representation, it’s pretty much clear how the blockchain manages to work in the transaction side. A block contains many such transactions and then adds up in the blockchain network. We shall check this from the initial point of the transaction period.
What is the blockchain transaction?
Let’s continue this article with the betting guys itself.
Savannah wants to send 2 BTC to Anna, and basically a digital wallet stores this Bitcoin safely. Technically, Bitcoin comes with a private key which allows Bitcoin owner to send and receive Bitcoins. It’s not exactly a storage part, in fact, it’s more than that – sending & receiving etc. are done using this wallet.
Let's come back to where we left before when a transaction request is initialized, the first step is to check whether the wallet has the required amount of Bitcoin or not. Then the node system comes in, a ledger is connected to many computers with high-end configurations and computing power. They are called “nodes” and are spread out across the world. These nodes are used to validate from initial point to completion of a transaction. Every transaction is done via connected blockchain network, and nodes validate it.
As Savannah needs to send 2BTC to Anna, the following process kick starts.
Nodes need to make sure whether Savannah holds enough amount in the wallet.
While checking the balance of your wallet, all the previous transaction history is taken into consideration using the inputs as the reference(we will point out it in the coming sections of this article).
Check whether the source of the transaction is from Savannah’s wallet or not.
If these parts are okay, nodes approve the transaction request, and the transaction request will be accepted.
After the transaction, again nodes check for confirmation – whether Savannah’s wallet is debited by 2 BTC and Anna’s wallet is credited with equal BTC value, i.e., 2 BTC.
This is the simplest version or explanation of a Bitcoin transaction process.
Now that you know the non-technical side, the one question that might be disturbing you is – how exactly is blockchain technology different from that of financial institution structure?
Basically, financial institution/bank is a centralized system where transaction history is private in nature i.e. a team will be there to control, and the transactions are not available for public reference. Meanwhile, in the blockchain network, all the transactions are open to public, and everyone can access this information. And there is no centralized team to check these process or complaint if any errors occurred. However, one cannot alter this data without the approval of connected network.
You may call it as a risk part to bear – no customer support team to help you or assist you if something went wrong and the reason is that the system is open source in nature. The contributions came from many developers across the globe and it’s important for you to understand the technical side too.
How does blockchain verification work and how do you build a blockchain?
Now that you’ve got the basic ideas right, let’s move on, and understand the technical side now.
Beginning with the technical side, let me introduce you with two terms – “private and public key”.
Once the transaction is initialized, these keys are automatically generated. A unique pair of keys will be generated each time and as told before the private key makes the transaction with a unique id. A public key is generated alongside with a private key and this private key is used to make the transaction.
The public key is encrypted and available with the paired private key. While Savannah sends 2BTC, the private key will be generated and is used to send the Bitcoin. As the private key is not disclosed to the network, only she has the authority to send the Bitcoins from the wallet. As told before nodes will validate this transaction request checking whether it comes from Savannah or not etc. And this is done by decrypting the message of the public key.
Once a private key is generated for the transaction, a digital signature will also be generated and validates the source and the authenticity of a transaction. A digital signature is thus created for each and every single transaction in the blockchain. It’s like a string of data and unique for every transaction, henceforth this cannot be altered by anyone else.
In simple words, a combination of private key and the transaction request forms a unique digital signature. And then, broadcasted to every node in the blockchain network. The validation is now carried out using the digital signature and the public key, finally, the transaction gets completed and the ledger is updated with the transaction.
In short, every transaction is stored in the ledger after validating. How the nodes validate a transaction and what exactly is happening out there? Let’s see that part here.
Mining: A problem to solve!
Mining is an important term in blockchain and Bitcoins are earned using this technical process. Usually, when a transaction is initialized and broadcasted, the final step to confirmation is “validation”. And this validation is done via the mining process and until then, the transaction will be labeled under “unconfirmed transaction pool”. A transaction moves to the confirmation table only after a miner completes the validation part.
Basically, a mathematical problem is generated during the initial point of transaction request itself. And using a special hashing algorithm a miner resolves this special problem and to be honest it’s ain’t that simple! So, during the mining period, the nodes choose a particular transaction from the unconfirmed pool and then validate it. The same process repeats every time for validating the transactions in the blockchain network. For every validation process, the so generated mathematical problem differs. It’s vital because if every input (code used for mathematical problem) is the same then, one can easily expect or predict the corresponding output. A 256-bit address is generated and it’ll be in the hexadecimal (0-9 or A-F) form, a particular number of bits are then hashed to result in the form of 0’s (nonce). Once this is achieved then, the problem is said to be solved!
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