
ThunderCore
Loading...
Market Cap
Loading...
24h Trading Vol
Loading...
All Time High
Loading...
All Time Low
Loading...
Total Supply
Loading...
Max Supply
Loading...
Circulating Supply
Loading...
Categories
Chains
Contracts

FAQs
What is ThunderCore and how does it work?
ThunderCore is a high-performance, eco-friendly, and EVM-compatible blockchain. It functions as a Smart Contract Platform, allowing developers to build and deploy decentralized applications. Running on a Proof-of-Stake (PoS) consensus mechanism, it ensures fast (sub-second confirmations) and cheap transactions (under $0.00001 gas fees) while maintaining high scalability (4,000+ TPS). ThunderCore's ecosystem supports various DApps, including DeFi, gaming, and NFTs, with cross-chain compatibility for seamless asset transfer. It aims to simplify Web3 adoption for businesses and developers through tools like ThunderGene.
What are the main use cases for tt token?
The tt token serves multiple core functions within the ThunderCore ecosystem. Primarily, it's used for Proof-of-Stake (PoS) staking, enabling users to secure the network and earn staking rewards, receiving veTT in return. Additionally, tt powers ThunderGene, ThunderCore's Web3 solutions platform. Businesses can stake tt tokens to access different service tiers, such as Web3 Pro (60,000 TT/year) or Business (250,000 TT/year), which provide various benefits like increased project, token, and NFT collection limits, and higher API call rates.
What technology powers ThunderCore?
ThunderCore is powered by a high-performance Proof-of-Stake (PoS) consensus mechanism, ensuring energy efficiency and network security. Its core technology emphasizes full Ethereum Virtual Machine (EVM) compatibility, making it incredibly easy for Ethereum developers to migrate and build on the platform using familiar tools like Hardhat, Remix, and Truffle. ThunderCore boasts super scalability with over 4,000 transactions per second (TPS) and enhanced interoperability, allowing for cross-chain asset transfers with Ethereum, Binance Smart Chain, and Move Chain. It also provides tools like ThunderGene, REST API, and Wallet services for simplified Web3 integration.
How does ThunderCore's consensus mechanism differ from traditional Proof-of-Stake systems?
ThunderCore's Pala protocol combines delegated Proof-of-Stake with practical Byzantine Fault Tolerance (pBFT) characteristics, enabling deterministic finality in one second compared to probabilistic finality in chains like Ethereum 2.0. Unlike conventional PoS where only large stakeholders typically validate, Pala allows any token holder to participate directly as proposer or voter without minimum stake requirements. The protocol's pipelined block processing enables higher throughput than sequential validation models, while committee reconfiguration mechanisms maintain decentralization during stake redistribution events.
What concrete advantages does ThunderCore offer developers over other EVM-compatible chains?
Developers gain three primary advantages: 1) Sub-second transaction finality enables real-time applications impossible on chains with longer block times, 2) Fractional-cent gas fees maintained consistently through tokenomics design rather than temporary subsidies, and 3) Native cross-chain connectivity to Ethereum assets via ThunderBridge without additional integration work. Additionally, ThunderCore's 400,000+ monthly active users provide established user acquisition channels, and its developer support includes dedicated migration tools for Ethereum DApps.
How does ThunderCore address blockchain storage bloat as transaction volume increases?
Through the ongoing Erigon client integration implementing 'vertical pruning' – a storage optimization technique that compresses historical state data while maintaining full node capabilities. This reduces storage requirements by over 75% compared to standard Geth-based nodes while maintaining identical functionality. Combined with ThunderCore's high throughput design, this ensures long-term node operation feasibility without requiring centralized data services or sacrificing decentralization.
What prevents centralization in ThunderCore's delegated Proof-of-Stake system?
Three mechanisms combat centralization: 1) Permissionless validator participation with no minimum stake requirements, 2) Frequent committee rotation through reconfiguration blocks that automatically reweight stake distribution, and 3) Incentive alignment where staking rewards decrease as total staked percentage increases, encouraging broader participation. These features create economic disincentives against stake pooling while maintaining over 8 million active addresses for network distribution.
How does ThunderCore's interoperability approach differ from typical blockchain bridges?
Rather than single-asset bridges, ThunderCore implements layered interoperability: 1) ThunderBridge provides canonical Ethereum connectivity with minimized trust assumptions, 2) Multichain integration enables EVM routing across multiple chains, and 3) Native cross-DApp token compatibility allows tokens from different protocols to interact within the same applications. This multi-tiered approach avoids liquidity fragmentation while enabling use cases like leveraging Ethereum's liquidity pools for ThunderCore-based gaming assets.