Run BSC, Ethereum, Polygon Archive Nodes: What's the Difference?

What is so special about running an archive node that needs this option?

Typically, modern blockchains use three types of nodes: full nodes, archive nodes, and lightweight nodes. Below are the differences between them and the apps that require Binance SmartChain, Polygon, or Ethereum archive nodes.

Run BSC, Ethereum, polygon archive nodes: root

In programming research, a "node" should refer to a software / hardware model, base unit, or reference information. In blockchain theory, nodes are always part of a blockchain. The interconnection of the nodes is maintained by multiple constraints.

BSC, Ethereum and Polygon nodes are synchronized to allow the addition of new blocks. This means that every Ethereum node or polygon must be "trusted" by the chain to be considered "suitable" in order to avoid unexpected problems.

Ethereum, Binance, and Polygon light nodes represent the simplest blockchain data structures, and these data structures can be accessed from smartphones, tablets, and other devices. Thin nodes only contain basic information about the state of the blockchain, such as the backbone. Blockchain data can be recognized but not saved by default.

Archive nodes and all nodes

Archive nodes in Ethereum, Polygon, and Binance Smart Chain represent several models. A whole collection of blockchain data. You can register to block access and use the data to support the network.

In order to ensure the most efficient and fastest integrated network, all nodes store the most recent information on blockchain data, for example, exchange information, funds and fees are subject to change. The complete blockchain status can be returned from each package. When fully synchronized with peer nodes, the entire history of the blockchain can be processed. This means that you can access information on all changes made after the root block as well as on the archive node.

Archive nodes in Bitcoin, Ethereum, and Polygon store comprehensive information about the history of the blockchain and collect historical state data. For example, when accessing the Ethereum archive node, the user can see how much Ethereum is stored in number 0xabc before moving to number 0xyz.

Runs BSC, Ethereum, Polygon Archive Nodes: Software and Hardware

The entire process of running and archiving nodes requires different software and hardware. As already mentioned, an HDD, Raspberry PI or ARM microcomputer device is enough to make the light work on Ethereum, Polygon or BSC.

A modern laptop or high-end desktop personal computer needs to run all the knots. For example, all nodes running ETHereum (ETH) and Binance Smart Chain can run on a computer with at least 4 cores, 16 GB of memory, 500 GB of free disk space, and a stable 25 Mbit internet connection. For the Ethereum Archive Node, the user must have at least 6 TB of free disk space.

The full polygon of must have a processor with at least 8 cores, 16 GB of RAM and 1.5 TB of free disk space at SSD speed.

In addition to the hardware tools, blockchain enthusiasts need to install special software called “user tools” to run some or all of the Ethereum, BSC, or Polygon files. For example, Ethereum nodes can be accessed through Geth, Nethermind, OpenEthereum, and Besu software.

DApps khiav BSC, Ethereum, nœuds d'archives Polygon

Ethereum, Polygon, and BSC archive nodes can be used in applications for a variety of applications. For example, access to the entire blockchain history is essential for chain monitoring tools, access data, automated trading sites, etc.

Some wallets or DEXs can integrate Ethereum, BSC, and Polygon archive nodes for fast and profitable trading.