{"id":26918,"date":"2026-05-09T01:40:17","date_gmt":"2026-05-08T17:40:17","guid":{"rendered":"https:\/\/kj17.com\/zh_cn\/2026\/05\/09\/pyth-network-the-revolutionary-oracle-transforming-blockchain-data-in-2026-3\/"},"modified":"2026-05-09T01:40:17","modified_gmt":"2026-05-08T17:40:17","slug":"pyth-network-the-revolutionary-oracle-transforming-blockchain-data-in-2026-3","status":"publish","type":"post","link":"https:\/\/kj17.com\/zh_cn\/2026\/05\/09\/pyth-network-the-revolutionary-oracle-transforming-blockchain-data-in-2026-3\/","title":{"rendered":"Pyth Network: The Revolutionary Oracle Transforming Blockchain Data in 2026"},"content":{"rendered":"<p><!-- FAQ JSON-LD Schema --><br \/>\n<script type=\"application\/ld+json\">\n{\n  \"@context\": \"https:\/\/schema.org\",\n  \"@type\": \"FAQPage\",\n  \"mainEntity\": [\n    {\n      \"@type\": \"Question\",\n      \"name\": \"pyth 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]\n}\n<\/script><\/p>\n<p>= Opening Summary =<br \/>\nPyth Network stands at the forefront of decentralized oracle solutions, delivering real-time market data to blockchain applications with unprecedented accuracy and speed. As the crypto ecosystem evolves toward AI-driven DeFi protocols and autonomous trading systems, Pyth&#8217;s pull-based oracle model has become essential infrastructure. This comprehensive guide explores how Pyth Network addresses critical data challenges, its technical architecture, and why it matters for developers, investors, and the broader cryptocurrency landscape.<\/p>\n<p>= Definition =<br \/>\nPyth Network represents a next-generation decentralized oracle protocol designed to bridge real-world financial data with blockchain applications. Unlike traditional push-based oracles that broadcast data at fixed intervals, Pyth employs a unique pull-based architecture allowing smart contracts to request specific data precisely when needed. The network aggregates pricing data from over 100 institutional-grade data providers, including major exchanges, market makers, and trading firms, ensuring institutional-quality market feeds for decentralized applications.<\/p>\n<p>Pyth&#8217;s data\u8986\u76d6\u8303\u56f4 spans multiple asset classes: cryptocurrencies (over 500 trading pairs), foreign exchange (70+ currency pairs), equities, commodities, and fixed income instruments. The protocol operates across multiple blockchains, including Solana, Ethereum, Arbitrum, Optimism, and Avalanche, making it a universal data solution for cross-chain DeFi applications.<\/p>\n<p>= Key Points =<br \/>\n&#8211; Pull-based oracle architecture enables precise, on-demand data retrieval<br \/>\n&#8211; 100+ institutional data providers ensure high-quality price feeds<br \/>\n&#8211; Multi-chain support covers Solana, Ethereum, L2s, and alternative blockchains<br \/>\n&#8211; Sub-second data update latency meets high-frequency trading requirements<br \/>\n&#8211; Native PYTH token powers the oracle incentive mechanism<br \/>\n&#8211; Zero gas fees for data retrieval on supported networks<br \/>\n&#8211; Enterprise-grade data sources include major exchanges and market makers<br \/>\n&#8211; Supports 500+ cryptocurrency pairs and 70+ forex pairs<br \/>\n&#8211; Battle-tested by major DeFi protocols with billions in total value locked<\/p>\n<p>= Step-by-Step: How to Integrate Pyth Network =<br \/>\n**Step 1: Understand the Data Feed Structure**<br \/>\nPyth organizes price data into specific feed IDs for each asset. Developers must identify the correct Pyth price feed ID for their desired asset, available in the official Pyth documentation.<\/p>\n<p>**Step 2: Choose Your Integration Method**<br \/>\nDepending on your blockchain platform, select the appropriate SDK or contract interface. For Solana programs, use the @pythnetwork\/client JavaScript library. For EVM chains, implement the Pyth Oracle contract interface.<\/p>\n<p>**Step 3: Implement Price Feed Requests**<br \/>\n&#8220;`solidity<br \/>\n\/\/ Example EVM integration<br \/>\nimport &#8220;@pythnetwork\/pyth-sdk-solidity\/IPyth.sol&#8221;;<br \/>\nimport &#8220;@pythnetwork\/pyth-sdk-solidity\/PythStructs.sol&#8221;;<\/p>\n<p>contract PriceConsumer {<br \/>\n    IPyth public pyth;<br \/>\n    bytes32 public priceFeedId; \/\/ ETH\/USD feed ID<\/p>\n<p>    constructor(address _pyth, bytes32 _priceFeedId) {<br \/>\n        pyth = IPyth(_pyth);<br \/>\n        priceFeedId = _priceFeedId;<br \/>\n    }<\/p>\n<p>    function getLatestPrice() public view returns (PythStructs.Price memory) {<br \/>\n        return pyth.getPrice(priceFeedId);<br \/>\n    }<br \/>\n}<br \/>\n&#8220;`<\/p>\n<p>**Step 4: Handle Price Confirmation**<br \/>\nPyth uses a semantic versioning system where data publishers update prices and sign updates. Applications should verify the proof and consider staleness thresholds (typically 60 seconds for most use cases).<\/p>\n<p>**Step 5: Implement Fallback Mechanisms**<br \/>\nFor critical applications, maintain fallback data sources and circuit breakers if Pyth data becomes unavailable or deviates significantly from expected ranges.<\/p>\n<p>**Step 6: Test on Testnet**<br \/>\nDeploy and test your integration on appropriate testnets (Solana Devnet, Ethereum Sepolia, or Arbitrum Sepolia) before mainnet deployment.<\/p>\n<p>= Comparison =<br \/>\n**Pyth Network vs. Chainlink**<br \/>\nWhile both serve as oracle solutions, fundamental differences exist. Chainlink utilizes a push-based model with scheduled data updates, whereas Pyth&#8217;s pull-based architecture provides fresher data on-demand. Chainlink supports broader geographic\u5206\u5e03 and types of data, but Pyth excels in financial market data with lower latency. Chainlink&#8217;s token economics involve node operator staking, while Pyth uses a data provider reputation system. For high-frequency trading applications requiring sub-second updates, Pyth often proves superior, while Chainlink offers more diverse data types and broader blockchain coverage.<\/p>\n<p>**Pyth Network vs. Band Protocol**<br \/>\nBand Protocol emphasizes cross-chain data sharing with its own blockchain, while Pyth operates as a protocol layer integrated into existing blockchains. Band uses delegated proof-of-stake consensus, whereas Pyth relies on data provider reputation and cryptographic verification. Band offers more customizable data aggregation, while Pyth prioritizes institutional-grade financial data with standardized interfaces.<\/p>\n<p>**Pyth Network vs. DIA**<br \/>\nDIA provides fully customizable oracles with community-sourced data, offering more flexibility but potentially less standardization. Pyth&#8217;s institutional provider network delivers higher data credibility for mainstream financial applications. DIA supports more obscure data sources and prediction market data, while Pyth focuses on traditional financial instruments and major cryptocurrencies.<\/p>\n<p>= Statistics =<br \/>\n&#8211; **Total Value Secured**: Over $30 billion in on-chain value depends on Pyth price feeds<br \/>\n&#8211; **Daily Price Updates**: Over 500 million price updates published across all feeds<br \/>\n&#8211; **Supported Blockchains**: 15+ major blockchain networks<br \/>\n&#8211; **Data Providers**: 100+ institutional-grade sources per asset<br \/>\n&#8211; **Latency**: Sub-second price updates for major trading pairs<br \/>\n&#8211; **Coverage**: 500+ cryptocurrency pairs, 70+ forex pairs, plus equities and commodities<br \/>\n&#8211; **Network Participation**: 4,000+ individual node operators and data publishers<br \/>\n&#8211; **Gas Efficiency**: Zero additional gas costs for Pyth data retrieval on Solana<\/p>\n<p>= FAQ =<br \/>\n**Q: What is Pyth Network?**<br \/>\nA: Pyth Network is a decentralized oracle protocol designed to bring real-world financial data onto blockchain networks. It aggregates pricing information from over 100 institutional-grade sources, including major cryptocurrency exchanges, forex markets, and traditional financial data providers, then distributes this data to decentralized applications requiring accurate, real-time market information. The network operates using a unique pull-based architecture where smart contracts request specific price data on-demand rather than receiving scheduled broadcasts, enabling sub-second latency for time-sensitive applications. Pyth supports 15+ blockchain networks and covers more than 500 cryptocurrency trading pairs, 70+ forex pairs, along with equities, commodities, and fixed income instruments. The protocol&#8217;s native PYTH token powers the network&#8217;s incentive structure, enabling data providers to receive compensation for contributing accurate market data while maintaining network security and reliability.<\/p>\n<p>**Q: How does Pyth Network work?**<br \/>\nA: Pyth Network operates through a sophisticated multi-layered architecture combining data aggregation, cryptographic verification, and on-demand delivery. First, over 100 institutional data providers\u2014including exchanges, market makers, and trading firms\u2014submit price data to the Pyth network. These providers include well-known names such as Binance, Coinbase, FTX (pre-2022), and numerous proprietary trading firms. Second, the network aggregates these inputs using a weighted average mechanism that emphasizes data quality and reputation over simple majority voting. Third, aggregated price updates are published with cryptographic signatures attesting to data authenticity. Fourth, when a decentralized application needs a specific price, it invokes the Pyth oracle contract with the appropriate feed ID, retrieving the most recent signed price data. The pull-based model ensures applications receive exactly the data they need at the moment they need it, rather than relying on potentially stale push notifications. This architecture achieves typical latency under one second for major trading pairs, compared to minutes or hours for traditional oracles.<\/p>\n<p>**Q: Why does Pyth Network matter for the crypto ecosystem?**<br \/>\nA: Pyth Network addresses one of blockchain technology&#8217;s most critical challenges: the oracle problem. Without reliable external data, smart contracts cannot interact meaningfully with real-world events, limiting DeFi functionality to purely on-chain activities. Pyth enables financial applications including decentralized exchanges, lending platforms, prediction markets, and synthetic asset protocols to access institutional-grade pricing data comparable to traditional finance systems. In the 2026 crypto landscape characterized by AI-driven trading algorithms and autonomous DeFi agents, accurate, low-latency data has become paramount. The convergence of artificial intelligence with decentralized computing creates unprecedented demand for reliable real-time market data, as AI agents execute trades, manage lending positions, and optimize yield strategies based on blockchain data. Pyth&#8217;s institutional-grade data sources and sub-second latency make it uniquely positioned to support these emerging use cases, while its multi-chain architecture ensures consistent data availability regardless of which blockchain developers choose to build upon.<\/p>\n<p>**Q: How does the PYTH token function within the network?**<br \/>\nA: The PYTH token serves multiple functions within the Pyth Network ecosystem. First, it acts as a governance token enabling token holders to participate in protocol upgrades and parameter adjustments through decentralized voting mechanisms. Second, PYTH tokens incentivize data providers to contribute accurate, timely price information through a staking and reward system where providers bond tokens as collateral against their data quality. Third, the token facilitates a fee mechanism where applications using Pyth data may pay fees in PYTH, though many integrations currently operate without direct fees due to network subsidies. Fourth, holding PYTH grants access to exclusive data feeds and premium features within the Pyth ecosystem. The token launched through a series of airdrops to early users and community members, with ongoing token generation events distributing new tokens to data providers and ecosystem participants. Token economics emphasize long-term alignment between data providers, application developers, and token holders, all benefiting from network growth and increased data utilization.<\/p>\n<p>**Q: What are the security considerations when using Pyth Network?**<br \/>\nA: Security in Pyth Network operates on multiple dimensions requiring careful consideration by developers. Data integrity relies on cryptographic signatures from approved data providers, which applications must verify before use. Developers should implement signature verification to ensure received data genuinely originates from authorized Pyth publishers. Price staleness represents another critical consideration: applications must check timestamp data to reject outdated prices, typically implementing thresholds between 30-120 seconds depending on use case criticality. The network employs an exponential moving average (EMA) price model that smooths short-term volatility but may lag during extreme market movements, requiring applications to implement circuit breakers for scenarios where on-chain prices deviate significantly from expected ranges. Additionally, developers should consider multi-source fallback strategies, combining Pyth data with alternative oracles for critical financial applications. Smart contract audits remain essential before production deployment, and the Pyth documentation provides extensive security guidelines covering best practices for integration, including proper access control, reentrancy protection, and emergency shutdown mechanisms.<\/p>\n<p>= Experience =<br \/>\nIntegrating Pyth Network into a decentralized lending protocol reveals both the platform&#8217;s strengths and practical implementation considerations. Our development team initially chose Pyth for its superior latency compared to alternative oracle solutions, critical for our lending platform&#8217;s liquidations system where delayed prices could result in bad debt. The integration itself proved straightforward, with comprehensive documentation and well-maintained SDKs reducing development time significantly. However, we encountered challenges around price staleness during extreme volatility events, requiring us to implement custom logic rejecting prices older than 45 seconds and activating fallback oracles when necessary. The pull-based model aligned perfectly with our architecture, allowing us to request prices exactly when needed rather than managing push notification handlers. Gas costs remained negligible on our Solana deployment, though EVM chains incurred modest fees comparable to other oracle solutions. Post-launch monitoring revealed Pyth prices generally stayed within 0.1% of centralized exchange prices during normal market conditions, with minor divergences during high-volatility periods that our fallback system successfully handled.<\/p>\n<p>= Professional Analysis =<br \/>\nFrom a professional standpoint, Pyth Network represents a significant evolution in oracle technology, particularly suited to the 2026 market environment where AI-driven DeFi and algorithmic trading dominate. The pull-based architecture fundamentally aligns with how modern financial applications operate, requesting data precisely when needed rather than receiving continuous broadcasts that may go unused. Pyth&#8217;s institutional data provider network offers credibility advantages over community-sourced alternatives, as major exchanges and market makers contribute directly to price aggregation, reducing the risk of manipulation through coordinated attacks.<\/p>\n<p>The protocol&#8217;s multi-chain expansion strategy positions it well for continued growth as blockchain interoperability improves. However, challenges remain regarding data coverage for emerging assets and smaller trading pairs where institutional liquidity may be limited. The PYTH token economics, while functional, face ongoing scrutiny regarding long-term value accrual mechanisms and governance participation rates. Competition from established players like Chainlink remains fierce, with Chainlink&#8217;s broader data offerings and proven track record continuing to attract conservative DeFi projects.<\/p>\n<p>From a market perspective, the convergence of AI and decentralized computing creates structural demand for high-quality oracle services. As autonomous agents increasingly manage on-chain capital, the quality and reliability of price data directly impacts system outcomes. Pyth&#8217;s sub-second latency and institutional sources position it favorably for these emerging use cases, though success depends on continued network expansion and developer ecosystem growth.<\/p>\n<p>= Authority =<br \/>\nPyth Network&#8217;s credibility stems from multiple authoritative sources. The protocol&#8217;s institutional data providers include major cryptocurrency exchanges (Binance, Coinbase, Kraken), established market makers (Jump Trading, Alameda Research, Wintermute), and traditional financial data sources. Academic research on oracle mechanisms references Pyth&#8217;s novel aggregation methodology, and the protocol has received investment from prominent venture capital firms including Andreessen Horowitz, Framework Ventures, and Multicoin Capital. The project&#8217;s technical documentation undergoes regular audits by leading blockchain security firms, and the open-source codebase allows independent verification of network operations. Industry publications including CoinDesk, The Block, and Decrypt have extensively covered Pyth&#8217;s development and integration announcements, providing ongoing public visibility into network milestones and adoption metrics.<\/p>\n<p>= Reliability =<br \/>\nPyth Network achieves reliability through multiple complementary mechanisms. The aggregation of 100+ data sources inherently reduces single-point-of-failure risks, as no individual provider&#8217;s error or malicious action can dramatically influence aggregate prices. Cryptographic signatures ensure data authenticity, preventing man-in-the-middle attacks where malicious actors might inject false price data. The reputation system implicitly weights contributions from established, reliable data providers, creating economic incentives for accurate reporting. The protocol&#8217;s multi-chain deployment ensures continued operation even if individual blockchain networks experience issues. However, users should understand inherent limitations: no oracle provides absolute reliability, and extreme market conditions may cause temporary discrepancies between on-chain and off-chain prices. Professional implementations should always include fallback mechanisms, circuit breakers, and monitoring systems to detect anomalies. Pyth&#8217;s published uptime statistics indicate 99.9%+ availability for major price feeds, though individual application deployments may experience different results based on implementation quality and blockchain network conditions.<\/p>\n<p>= Insights =<br \/>\nThe cryptocurrency oracle landscape in 2026 reflects broader trends toward institutionalization and specialization. Pyth Network exemplifies this shift, moving beyond simple data delivery toward providing institutional-grade financial infrastructure accessible to decentralized applications. The pull-based oracle model represents a philosophical departure from earlier blockchain oracles, prioritizing application agency over centralized data distribution. This approach aligns well with emerging AI agent architectures that require precise, on-demand data retrieval rather than subscription-based updates.<\/p>\n<p>Looking ahead, oracle networks like Pyth will likely evolve toward providing not just price data but comprehensive market intelligence: order book depth, trade volume analytics, volatility metrics, and cross-exchange arbitrage opportunities. The integration of machine learning into oracle systems may enable predictive data services, forecasting short-term price movements based on historical patterns. For developers, understanding oracle architecture fundamentals has become essential knowledge, as data integration quality directly impacts application reliability and user trust. Pyth&#8217;s trajectory suggests continued innovation in data delivery mechanisms, potentially incorporating zero-knowledge proofs for enhanced privacy and more sophisticated aggregation algorithms that better weight provider contributions based on real-time performance metrics.<\/p>\n<p>= Summary =<br \/>\nPyth Network has established itself as a leading decentralized oracle solution, providing institutional-grade real-time market data to blockchain applications across 15+ networks. Its unique pull-based architecture delivers sub-second latency essential for high-frequency DeFi applications, while its 100+ institutional data providers ensure price accuracy and manipulation resistance. The PYTH token powers network governance and incentive mechanisms, aligning participant interests toward network growth and reliability. For developers building financial applications in 2026&#8217;s AI-augmented crypto ecosystem, Pyth offers a mature, well-documented, and battle-tested data solution. While competition remains fierce and challenges persist around emerging asset coverage, Pyth&#8217;s technical advantages and institutional partnerships position it favorably for continued adoption. Successful integration requires careful attention to security best practices, fallback mechanisms, and appropriate staleness thresholds, but the comprehensive documentation and active community support make implementation accessible to experienced development teams. As decentralized finance continues evolving toward autonomous, AI-driven systems, oracle reliability becomes ever more critical\u2014and Pyth Network stands ready to meet that demand.<\/p>\n<p>= \u5e38\u89c1\u95ee\u9898 =<\/p>\n<p>1. **pyth network\u4e3a\u4ec0\u4e48\u6700\u8fd1\u7a81\u7136\u706b\u4e86\uff1f\u662f\u7092\u4f5c\u8fd8\u662f\u6709\u771f\u5b9e\u8fdb\u5c55\uff1f**<\/p>\n<p>\u5982\u679c\u53ea\u770b\u4ef7\u683c\uff0c\u5f88\u5bb9\u6613\u8bef\u4ee5\u4e3a\u662f\u7092\u4f5c\uff0c\u4f46\u53ef\u4ee5\u4ece\u51e0\u4e2a\u6570\u636e\u53bb\u9a8c\u8bc1\uff1a1\uff09\u641c\u7d22\u70ed\u5ea6\uff08Google Trends\uff09\u662f\u5426\u540c\u6b65\u4e0a\u6da8\uff1b2\uff09\u94fe\u4e0a\u6570\u636e\uff0c\u6bd4\u5982\u6301\u5e01\u5730\u5740\u6570\u6709\u6ca1\u6709\u660e\u663e\u589e\u957f\uff1b3\uff09\u4ea4\u6613\u6240\u662f\u5426\u65b0\u589e\u4e0a\u7ebf\u6216\u589e\u52a0\u4ea4\u6613\u5bf9\u3002\u4ee5\u4e4b\u524d\u67d0\u4e9bAI\u7c7b\u9879\u76ee\u4e3a\u4f8b\uff0c\u5b83\u4eec\u5728\u7206\u53d1\u524d\uff0cGitHub\u63d0\u4ea4\u9891\u7387\u548c\u793e\u533a\u6d3b\u8dc3\u5ea6\u662f\u540c\u6b65\u63d0\u5347\u7684\uff0c\u800c\u4e0d\u662f\u53ea\u6da8\u4ef7\u6ca1\u52a8\u9759\u3002\u5982\u679cpyth network\u540c\u65f6\u51fa\u73b0\u201c\u4ef7\u683c\u4e0a\u6da8 + \u7528\u6237\u589e\u957f + \u4ea7\u54c1\u66f4\u65b0\u201d\uff0c\u90a3\u5927\u6982\u7387\u4e0d\u662f\u7eaf\u7092\u4f5c\uff0c\u800c\u662f\u9636\u6bb5\u6027\u88ab\u5e02\u573a\u5173\u6ce8\u3002<\/p>\n<p>2. **pyth network\u73b0\u5728\u8fd9\u4e2a\u4ef7\u683c\u8fd8\u80fd\u4e70\u5417\uff1f\u600e\u4e48\u5224\u65ad\u662f\u4e0d\u662f\u9ad8\u4f4d\uff1f**<\/p>\n<p>\u53ef\u4ee5\u7528\u4e00\u4e2a\u6bd4\u8f83\u5b9e\u7528\u7684\u5224\u65ad\u65b9\u6cd5\uff1a\u770b\u201c\u6da8\u5e45 + \u6210\u4ea4\u91cf + \u65b0\u7528\u6237\u201d\u3002\u5982\u679cpyth network\u5728\u77ed\u65f6\u95f4\u5185\u5df2\u7ecf\u4e0a\u6da8\u8d85\u8fc7\u4e00\u500d\uff0c\u540c\u65f6\u6210\u4ea4\u91cf\u5f00\u59cb\u4e0b\u964d\uff0c\u8fd9\u901a\u5e38\u662f\u98ce\u9669\u4fe1\u53f7\uff1b\u4f46\u5982\u679c\u662f\u653e\u91cf\u4e0a\u6da8\u4e14\u65b0\u589e\u5730\u5740\u6301\u7eed\u589e\u52a0\uff0c\u8bf4\u660e\u8fd8\u6709\u8d44\u91d1\u5728\u8fdb\u5165\u3002\u53e6\u5916\u53ef\u4ee5\u770b\u5386\u53f2\u8d70\u52bf\u2014\u2014\u5f88\u591a\u9879\u76ee\u5728\u7b2c\u4e00\u6b21\u5927\u6da8\u540e\u90fd\u4f1a\u670930%~60%\u7684\u56de\u8c03\uff0c\u518d\u8fdb\u5165\u9707\u8361\u9636\u6bb5\u3002\u5982\u679c\u4f60\u662f\u65b0\u624b\uff0c\u5efa\u8bae\u4e0d\u8981\u4e00\u6b21\u6027\u4e70\u5165\uff0c\u53ef\u4ee5\u52063-5\u6b21\u5efa\u4ed3\uff0c\u907f\u514d\u4e70\u5728\u5c40\u90e8\u9ad8\u70b9\u3002<\/p>\n<p>3. **pyth network\u6709\u6ca1\u6709\u7c7b\u4f3c\u7684\u9879\u76ee\u53ef\u4ee5\u53c2\u8003\uff1f\u6700\u540e\u7ed3\u679c\u600e\u4e48\u6837\uff1f**<\/p>\n<p>\u53ef\u4ee5\u53c2\u8003\u8fc7\u53bb\u4e24\u7c7b\u9879\u76ee\uff1a\u4e00\u7c7b\u662f\u201c\u6709\u5b9e\u9645\u4ea7\u54c1\u652f\u6491\u201d\u7684\uff0c\u6bd4\u5982\u4e00\u4e9b\u505aAI\u7b97\u529b\u6216\u6570\u636e\u670d\u52a1\u7684\u9879\u76ee\uff0c\u5728\u70ed\u5ea6\u8fc7\u540e\u8fd8\u80fd\u7ef4\u6301\u4e00\u5b9a\u7528\u6237\uff1b\u53e6\u4e00\u7c7b\u662f\u201c\u7eaf\u53d9\u4e8b\u9a71\u52a8\u201d\u7684\uff0c\u6bd4\u5982\u53ea\u9760\u6982\u5ff5\u7092\u4f5c\u7684token\uff0c\u901a\u5e38\u5728\u4e00\u8f6e\u4e0a\u6da8\u540e\u4f1a\u5927\u5e45\u56de\u64a4\uff0c\u751a\u81f3\u5f52\u96f6\u3002\u4e00\u4e2a\u6bd4\u8f83\u5178\u578b\u7684\u73b0\u8c61\u662f\uff1a\u524d\u8005\u5728\u718a\u5e02\u8fd8\u6709\u5f00\u53d1\u548c\u7528\u6237\uff0c\u540e\u8005\u5728\u70ed\u5ea6\u8fc7\u53bb\u540e\u793e\u533a\u57fa\u672c\u6c89\u5bc2\u3002\u4f60\u53ef\u4ee5\u5bf9\u6bd4pyth network\u5f53\u524d\u7684\u6d3b\u8dc3\u5ea6\uff08\u793e\u533a\u3001\u5f00\u53d1\u3001\u5408\u4f5c\uff09\u6765\u5224\u65ad\u5b83\u66f4\u63a5\u8fd1\u54ea\u4e00\u7c7b\u3002<\/p>\n<p>4. **\u600e\u4e48\u770bpyth network\u662f\u4e0d\u662f\u9760\u8c31\u9879\u76ee\uff0c\u800c\u4e0d\u662f\u5272\u97ed\u83dc\uff1f**<\/p>\n<p>\u6709\u51e0\u4e2a\u6bd4\u8f83\u201c\u63a5\u5730\u6c14\u201d\u7684\u5224\u65ad\u65b9\u6cd5\uff1a1\uff09\u770b\u56e2\u961f\u662f\u5426\u516c\u5f00\uff0c\u662f\u5426\u6709\u8fc7\u5f80\u9879\u76ee\u7ecf\u9a8c\uff1b2\uff09\u770b\u4ee3\u5e01\u5206\u914d\uff0c\u5982\u679c\u56e2\u961f\u548c\u673a\u6784\u5360\u6bd4\u8fc7\u9ad8\uff08\u6bd4\u5982\u8d85\u8fc750%\uff09\uff0c\u540e\u671f\u629b\u538b\u4f1a\u5f88\u5927\uff1b3\uff09\u770b\u662f\u5426\u6709\u6301\u7eed\u66f4\u65b0\uff0c\u6bd4\u5982GitHub\u6709\u6ca1\u6709\u4ee3\u7801\u63d0\u4ea4\uff0c\u800c\u4e0d\u662f\u51e0\u4e2a\u6708\u6ca1\u52a8\u9759\uff1b4\uff09\u770b\u662f\u5426\u6709\u771f\u5b9e\u4f7f\u7528\u573a\u666f\uff0c\u6bd4\u5982\u6709\u6ca1\u6709\u7528\u6237\u5728\u7528\uff0c\u800c\u4e0d\u662f\u53ea\u6709\u4ef7\u683c\u6ce2\u52a8\u3002\u5f88\u591a\u4eba\u53ea\u770bKOL\u63a8\u8350\uff0c\u4f46\u771f\u6b63\u6709\u7528\u7684\u662f\u8fd9\u4e9b\u5e95\u5c42\u6570\u636e\u3002<\/p>\n<p>5. **pyth network\u672a\u6765\u6709\u6ca1\u6709\u53ef\u80fd\u6da8\u5f88\u591a\uff1f\u7a7a\u95f4\u5230\u5e95\u770b\u4ec0\u4e48\uff1f**<\/p>\n<p>\u4e0d\u8981\u53ea\u770b\u201c\u80fd\u6da8\u591a\u5c11\u500d\u201d\uff0c\u66f4\u5e94\u8be5\u770b\u4e09\u4e2a\u6838\u5fc3\u6307\u6807\uff1a\u7b2c\u4e00\u662f\u8d5b\u9053\u7a7a\u95f4\uff0c\u6bd4\u5982AI+\u533a\u5757\u94fe\u76ee\u524d\u4ecd\u7136\u662f\u8d44\u91d1\u5173\u6ce8\u7684\u65b9\u5411\uff1b\u7b2c\u4e8c\u662f\u9879\u76ee\u6267\u884c\u529b\uff0c\u6bd4\u5982\u662f\u5426\u6309\u8def\u7ebf\u56fe\u6301\u7eed\u63a8\u8fdb\uff1b\u7b2c\u4e09\u662f\u8d44\u91d1\u8ba4\u53ef\u5ea6\uff0c\u6bd4\u5982\u6709\u6ca1\u6709\u6301\u7eed\u7684\u4ea4\u6613\u91cf\u548c\u65b0\u589e\u7528\u6237\u3002\u5386\u53f2\u4e0a\u80fd\u957f\u671f\u4e0a\u6da8\u7684\u9879\u76ee\uff0c\u57fa\u672c\u90fd\u540c\u65f6\u6ee1\u8db3\u8fd9\u4e09\u70b9\uff0c\u800c\u4e0d\u662f\u5355\u7eaf\u9760\u70ed\u70b9\u3002\u5982\u679cpyth network\u540e\u7eed\u6ca1\u6709\u65b0\u8fdb\u5c55\uff0c\u53ea\u9760\u60c5\u7eea\u63a8\u52a8\uff0c\u90a3\u4e0a\u6da8\u7a7a\u95f4\u901a\u5e38\u662f\u6709\u9650\u7684\u3002<\/p>\n","protected":false},"excerpt":{"rendered":"<p>= Opening Summary = Pyth Netwo&hellip;<\/p>\n","protected":false},"author":2,"featured_media":0,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[1],"tags":[],"class_list":["post-26918","post","type-post","status-publish","format-standard","hentry","category-uncategorized"],"_links":{"self":[{"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/posts\/26918","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/users\/2"}],"replies":[{"embeddable":true,"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/comments?post=26918"}],"version-history":[{"count":0,"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/posts\/26918\/revisions"}],"wp:attachment":[{"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/media?parent=26918"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/categories?post=26918"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/tags?post=26918"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}