What is Tron?
Tron's mission is to build a truly decentralized internet and aims to be the largest blockchain-based operating system in the world, known as the TRON protocol. The TRON protocol will offer high scalability, high availability, and high throughput computing to serve decentralized applications via smart contracts. Ethereum EVM-based smart contracts will be compatible and deployable on the TRON network as such Solidity developers do not have to rewrite their applications
Litecoin is a peer-to-peer cryptocurrency created by Charlie Lee. It was created based on the Bitcoin protocol but differs in terms of the hashing algorithm used. Litecoin uses the memory intensive Scrypt proof of work mining algorithm
Avalanche is a high throughput smart contract blockchain platform. Validators secure the network through a proof-of-stake consensus protocol. It is said to be fast, low cost, and environmental friendly
UNI is the governance token for Uniswap, an Automated Market Marker DEX on the Ethereum blockchain. The UNI token allows token holders to participate in the governance of the protocol. Key decisions such as usage of the treasury or future upgrades can be decided through a governance vote
Chainlink is a framework for building Decentralized Oracle Networks (DONs) that bring real-world data onto blockchain networks, enabling the creation of hybrid smart contracts. These DONs provide decentralized services such as Price Feeds, Proof of Reserve, Verifiable Randomness, Keepers, and the ability to connect to any web API.
It aims to ensure that the external information (pricing, weather data, event outcomes, etc
The Cosmos network consists of many independent, parallel blockchains, called zones, each powered by classical Byzantine fault-tolerant (BFT) consensus protocols like Tendermint (already used by platforms like ErisDB). Some zones act as hubs with respect to other zones, allowing many zones to interoperate through a shared hub. The architecture is a more general application of the Bitcoin sidechains concept, using classic BFT and Proof-of-Stake algorithms, instead of Proof-of-Work