Aktuelle Entwicklungen
Internet Computer (ICP) is currently priced at 0,5 $ with a 24-hour trading volume of 219,57 Mio. $. The market cap of Internet Computer stands at 4,94 Mrd. $, with 479,09 Mio. ICP in circulation. For those looking to buy or trade Internet Computer, Kucoin offers avenues to do so securely and efficiently
- Marktkapitalisierung
- 4,94 Mrd. $
- 24-Stunden-Volumen
- 219,57 Mio. $
- Umlaufversorgung
- 479,09 Mio. ICP
Häufig gestellte Fragen zum Verleihen von Internet Computer (ICP)
- What is Internet Computer (INTERNET-COMPUTER) and what problem does it aim to solve?
- Internet Computer (INTERNET-COMPUTER) is a blockchain-based platform designed to extend the public internet into a decentralized computing platform. It aims to host smart contracts, decentralized applications (dApps), and services directly on the internet without relying on traditional cloud providers. By using canisters (smart software units) and the Network Nervous System (NNS) for governance, the project seeks to enable scalable, secure, and tamper-resistant software that can run at web-scale with lower latency and cost. Key goals include reducing reliance on centralized infrastructure and enabling open, permissionless hosting of applications.
- How does INET-INTERNET-COMPUTER differ from Ethereum or other smart contract platforms?
- INTERNET-COMPUTER introduces a native internet-scale compute platform where smart contracts (canisters) run directly on the internet's infrastructure via the IC protocol. Unlike Ethereum, which relies on a separate blockchain for execution, the Internet Computer uses the Network Nervous System (NNS) to manage governance and upgrades, and it aims to provide autonomous hosting without traditional servers. It emphasizes seamless web integration, lower latency, and scalable compute with potentially lower fees for certain workloads. However, users should compare gas models, security audits, and ecosystem maturity when evaluating differences for a given use case.
- What is the Network Nervous System (NNS) and how does governance work for INTERNET-COMPUTER?
- The Network Nervous System (NNS) is Internet Computer’s on-chain governance mechanism. Token holders invest ICP-like tokens (or the project’s native governance tokens) to participate in voting on proposals that affect network parameters, upgrades, economics, and protocol rules. Proposals can include adding new subnet blocks, adjusting compute cycles, or funding ecosystem initiatives. Governance is designed to be decentralized: participants stake, vote, and canister canisters communicate changes through proposals. Active participation can influence network direction, but governance requires understanding proposal lifecycles, voting windows, and potential costs associated with proposal submission.
- How do I acquire, store, and use INTERNET-COMPUTER tokens for transactions and governance?
- To engage with Internet Computer, you typically acquire the native token used for governance and resource management. After purchasing from reputable exchanges, you’ll store tokens in a compatible wallet that supports Internet Computer assets. For transactions, you’ll use the wallet to pay for compute cycles and storage (where fees may be denominated in the network’s native units). For governance, you delegate or stake tokens to participate in voting on proposals in the NNS. Always use official wallets and verify token standards, be mindful of transaction fees, and ensure you’re following best security practices to protect private keys or recovery phrases.
- What are common use cases for applications built on Internet Computer, and what should developers know before starting?
- Common use cases include decentralized social networks, enterprise-grade apps with web-fast front-ends, data storage and retrieval services, and scalable dApps that require fast response times. Developers should understand canisters as the core deployment unit, how to deploy via the IC SDKs, and how to manage cycles (the network’s resource token) to cover compute and storage costs. It’s important to consider upgrade governance through the NNS, security best practices, auditing for canister code, and how to design for internet-scale deployment. Documentation, tutorials, and community guidelines can help accelerate development and deployment.
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