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Merkle Tree (binary hash tree): How vital do you believe it is in Blockchain?

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MERKLE TREE (binary hash tree)

Merkle Tree (binary hash tree): What is it?

Merkle tree or binary hash tree was data structures used to verify the integrity of data in a large content pool through secure means. Moreover, it has a consistent and efficient way of verifying the data. These are also called “binary hash trees.”

Understanding Merkle tree (binary hash tree):

Originally developed in 1979 by Ralph Merkle at Stanford University, the Merkle Tree has been around ever since. During his time at Stanford, Merkle authored a paper titled “A Certified Digital Signature,” unknowingly creating the core of blockchain. Merkle’s article describes a revolutionary new proof-creation method. Data verification was Merkle’s primary objective for the design of computers to make them run faster. Merkle’s idea revolutionized cryptography, including computer encryption protocols, which are now known as Merkle Trees. Over the years, Merkle Trees have become increasingly popular when it comes to cryptocurrencies. Satoshi Nakamoto’s essay introducing Bitcoin mentions them several times, and they are used extensively in coin’s code. Ethereum and other cryptocurrencies have also adopted Merkle Trees. It is important to mention blockchain before diving deeper into Merkle Trees. A blockchain has a transaction ID for each transaction, as you may already know. Blockchain identities consist of 64-character, 256-bit (or 32-byte) codes that store 256 bytes of information. Since blockchains are usually made up of hundreds of thousands of blocks that contain hundreds of thousands of transactions each, memory space and computing power are two issues that must be addressed. Therefore, to verify and process transactions, as little data as possible should be used. Furthermore, it assures a higher level of security by reducing CPU processing times. Merkle Trees are exactly what they claim to be. It is a mathematical process that takes all of the transaction IDs and turns them into one single, 64-character Merkle root code. Any computer can verify immediately whether a particular transaction occurred on a certain block as precisely as possible by using the Merkle Root. 

Blockchains need a binary hash tree

Imagine a blockchain without Merkle Trees, and you will get a sense of how important they are. In this case, Merkle Trees will be applied to Bitcoin since cryptocurrencies require the use of Merkle Trees, which is also easy to understand. Besides Merkle Trees, every transaction on the Bitcoin network would need to be tracked if Merkle Trees weren’t present. This would have contained a lot of information, as you can imagine. Bitcoin authentication requests would require sending an exceptionally large amount of data over the network, which is the reason you need to verify it yourself. In order to check if ledgers have not been changed, a computer needs a lot of processing power. There is a solution to this problem with Merkle Trees. Data proof is efficiently separated from actual data in the accounting by hashing records. The amount of information provided over the network is small, which is the only requirement to prove that a transaction is valid. Furthermore, you can show the same amount of computing power and bandwidth is consumed by both variants of the ledger.

Usage

Verification workloads can be significantly reduced when using Merkle trees. Data validation is separated from data. Locally or remotely, the Merkle tree may be stored. The following are three advantages of Merkle trees:
  1. They are a means of proving that data is valid and authentic
  2. Because these pieces of evidence are simple to compute and fast to store, they use little memory or disk space.
  3. There is only a small amount of information that needs to be sent over the Internet for evidence and management.

What Merkle Trees (binary hash tree) Mean for Blockchains

 Binary hash trees importance for blockchain technology can be understood by imagining a system without them. In this article, we will mostly refer to Bitcoin’s Merkle Trees, which are not only vital to the cryptocurrency but also very simple to understand. In other words, if Bitcoin didn’t have Merkle Trees, every node on the network would have to keep an exact copy of every transaction ever made on the network. Imagine the amount of information contained in that. An approved node needs to contact its peers to get a copy of the ledger when verifying past transactions. For each entry on the network and the node’s record, the node would need to check line by line. The network’s security can be compromised if there is any discrepancy in the ledgers.  Since you need the data to verify the data, every verification request on Bitcoin would require sending enormous amounts of data over the network. To ensure that there haven’t been any changes, the computer comparing ledgers would need to use a lot of processing power. This problem is solved by the Merkle tree. The ledger records are hacked to separate proof from data, so they can be separated.  A small amount of information needs to be sent across a network to validate a transaction. Furthermore, it can verify that the two versions of a ledger are identical with just a little computing power and network bandwidth. The binary hash tree is used by Ethereum, but using a more complicated method. Each block has three Merkle roots, and it is called a Merkle Patricia Tree. 

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