Both subnets and #supernets are scalability solutions that allow developers to deploy or #develop app chains rapidly.

This is in line with #Polygon’s goal of promoting interoperability via #supernets.

Lastly, #supernets allow developers to create custom tokens consistent with #universally recognized token interfaces, such as ERC-20.

#Supernets also have built-in EVM support, meaning that developers can write and deploy smart contracts using EVM bytecode, which is #compiled from high-level languages, such as Solidity.

Supernet #architecture is closely tied to that of Polygon Edge. The six modules in Polygon Edge’s architecture that are relevant to #supernets include the following:

#Supernets have an advanced technical architecture powered by Polygon Edge, trustless operation via Merkle trees, Ethereum Virtual Machine (EVM) #compatibility and custom token support.

#Supernets also boast higher scalability, speed, consistent throughput and broad customization. Notably, they also allow Web3 #application integration into dedicated networks, allowing maximum optimization.

With the help of #supernets, developers can create a distributed blockchain network #designed for a specific use case.

as #supernets are a set of modules that work and integrate seamlessly as new #functions are added.

• Layer-2 chain: This chain uses zero-knowledge rollups to scale #supernets and is still under #development.

#Supernets are essentially a tool that helps developers understand complex data #structures with relationships that would otherwise be difficult to pinpoint.