{"id":26717,"date":"2026-05-09T01:35:39","date_gmt":"2026-05-08T17:35:39","guid":{"rendered":"https:\/\/kj17.com\/zh_cn\/2026\/05\/09\/pyth-network-the-revolutionary-decentralized-oracle-transforming-crypto-data-in-2026\/"},"modified":"2026-05-09T01:35:39","modified_gmt":"2026-05-08T17:35:39","slug":"pyth-network-the-revolutionary-decentralized-oracle-transforming-crypto-data-in-2026","status":"publish","type":"post","link":"https:\/\/kj17.com\/zh_cn\/2026\/05\/09\/pyth-network-the-revolutionary-decentralized-oracle-transforming-crypto-data-in-2026\/","title":{"rendered":"Pyth Network: The Revolutionary Decentralized Oracle Transforming Crypto 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 has emerged as the cornerstone of decentralized finance data infrastructure, solving one of blockchain&#8217;s most critical challenges: reliable, real-time price feeds. As the crypto ecosystem evolves toward AI-powered decentralized computing, Pyth&#8217;s oracle solution delivers institutional-grade market data to smart contracts across 100+ blockchains. This comprehensive guide explores how Pyth Network is reshaping DeFi, trading, and the broader cryptocurrency landscape.<\/p>\n<p>= Definition =<br \/>\nPyth Network represents a next-generation decentralized oracle protocol designed to bridge real-world market data with blockchain applications. Unlike traditional push-based oracles, Pyth employs a unique pull-based model where blockchain networks actively request price data when needed, resulting in superior data freshness and reduced latency.<\/p>\n<p>The protocol aggregates pricing data directly from over 100 first-party data providers, including major exchanges like Binance, Coinbase, FTX, and institutional market makers such as Jump Trading, Jane Street, and Citadel Securities. This first-party data approach ensures unprecedented accuracy for DeFi protocols, lending platforms, prediction markets, and automated trading systems.<\/p>\n<p>= List &#8211; Key Points =<br \/>\n&#8211; First-party data aggregation from 100+ institutional-grade market participants<br \/>\n&#8211; Pull-based oracle architecture providing sub-second data freshness<br \/>\n&#8211; Cross-chain compatibility spanning 100+ blockchain networks<br \/>\n&#8211; Coverage across crypto, equities, forex, commodities, and ETFs<br \/>\n&#8211; Zero gas fee model for data retrieval on supported networks<br \/>\n&#8211; Validator network consisting of leading exchanges and market makers<br \/>\n&#8211; Real-time price updates with median latency under 400 milliseconds<br \/>\n&#8211; Built on Solana for high throughput, expanding to EVM and other chains<br \/>\n&#8211; Supports over 400 price feeds across multiple asset classes<br \/>\n&#8211; Enterprise-grade security through cryptographic verification and reputation system<\/p>\n<p>= Step-by-Step &#8211; How-to Guide =<br \/>\n**How to Integrate Pyth Network Price Feeds into Your DeFi Protocol:**<\/p>\n<p>**Step 1: Identify Required Price Feeds**<br \/>\nVisit the Pyth documentation portal and browse the available price feed identifiers. Each asset has a unique product ID corresponding to its price feed.<\/p>\n<p>**Step 2: Choose Your Integration Method**<br \/>\n&#8211; **Smart Contract Integration**: Import Pyth Interface contracts available for Solidity (EVM), Rust (Solana), and other languages<br \/>\n&#8211; **SDK Integration**: Use Pyth&#8217;s JavaScript\/TypeScript or Python SDKs for off-chain applications<br \/>\n&#8211; **Gateway Services**: Deploy Pyth Gateway for simplified HTTP-based data retrieval<\/p>\n<p>**Step 3: Implement Price Feed Requests**<br \/>\nFor smart contracts, call the `getPrice` function with your desired price feed ID. The contract receives a structured response including:<br \/>\n&#8211; Price (64&#215;64 floating point representation)<br \/>\n&#8211; Confidence interval (exponential moving average of price volatility)<br \/>\n&#8211; Publish time (Unix timestamp of last update)<br \/>\n&#8211; Status (valid, stale, or unknown)<\/p>\n<p>**Step 4: Configure Update Frequency**<br \/>\nDetermine your protocol&#8217;s price update requirements. Pyth recommends setting update thresholds based on your application&#8217;s risk tolerance\u2014volatile assets may require more frequent checks.<\/p>\n<p>**Step 5: Test on Devnet**<br \/>\nDeploy your integration on test networks to verify data accuracy and gas consumption before mainnet deployment.<\/p>\n<p>**Step 6: Monitor and Maintain**<br \/>\nImplement monitoring for price feed health, including staleness alerts and confidence interval warnings.<\/p>\n<p>= Comparison &#8211; Comparative analysis =<br \/>\n**Pyth Network vs. Traditional Oracles:**<\/p>\n<p>| Feature | Pyth Network | Chainlink | Band Protocol |<br \/>\n|&#8212;&#8212;&#8212;|&#8212;&#8212;&#8212;&#8212;-|&#8212;&#8212;&#8212;&#8211;|&#8212;&#8212;&#8212;&#8212;&#8212;|<br \/>\n| Data Source | First-party (exchanges, market makers) | Third-party node operators | Third-party node operators |<br \/>\n| Update Model | Pull-based | Push-based | Push-based |<br \/>\n| Latency | Sub-second | 30-60 seconds | 15-45 seconds |<br \/>\n| Data Freshness | Real-time on request | Periodic updates | Periodic updates |<br \/>\n| Coverage | 400+ feeds, 100+ chains | 1,700+ feeds | 200+ feeds |<br \/>\n| Gas Costs | Zero on Solana | Variable (network dependent) | Variable |<br \/>\n| Historical Data | 365+ days available | Limited | Limited |<\/p>\n<p>**Key Differentiators:**<br \/>\nPyth&#8217;s first-party data model eliminates intermediary risk by sourcing directly from data providers who have actual trading exposure. This contrasts with traditional oracles that rely on node operators aggregating data from exchanges\u2014a process introducing latency and potential manipulation vectors.<\/p>\n<p>The pull-based architecture fundamentally differs from Chainlink&#8217;s push model. When a smart contract needs price data, it pulls the latest verified price rather than waiting for periodic updates, ensuring applications always access current market conditions\u2014a critical requirement for high-frequency trading and liquidations.<\/p>\n<p>= Statistics =<br \/>\n**Pyth Network Market Position (2026):**<\/p>\n<p>&#8211; **Total Value Secured (TVS):** $4.2 billion across integrated protocols<br \/>\n&#8211; **Daily Price Updates:** Over 500 million individual price updates<br \/>\n&#8211; **Active Integrations:** 450+ DeFi protocols and applications<br \/>\n&#8211; **Supported Blockchains:** 100+ networks including Solana, Ethereum, Arbitrum, Optimism, Base, Avalanche, Polygon<br \/>\n&#8211; **Data Provider Network:** 100+ institutional participants<br \/>\n&#8211; **Price Feed Coverage:** 400+ assets across crypto (85), equities (180), forex (45), commodities (50), ETFs (40)<br \/>\n&#8211; **Network Latency:** 350ms average price update propagation<br \/>\n&#8211; **Uptime:** 99.99% historical availability<br \/>\n&#8211; **Market Data Volume:** 15TB+ daily processing capacity<br \/>\n&#8211; **Validator Distribution:** 45 countries, 6 continental regions<\/p>\n<p>**2026 Market Context:**<br \/>\nThe 2026 crypto market demonstrates unprecedented integration between artificial intelligence and decentralized computing infrastructure. AI-driven trading systems now execute over 35% of DEX volume, creating massive demand for low-latency oracle services. Pyth Network&#8217;s institutional-grade data pipeline positions it as the preferred oracle for AI-agent powered DeFi applications requiring real-time market awareness.<\/p>\n<p>= FAQ =<br \/>\nQ: What is Pyth Network?<br \/>\nA: Pyth Network is a decentralized oracle protocol that delivers real-time, institutional-grade market data to blockchain applications. It aggregates pricing information directly from over 100 first-party data providers\u2014including major exchanges like Binance, Coinbase, and Kraken, as well as institutional market makers such as Jump Trading, Jane Street, and Citadel Securities. The protocol supports 400+ price feeds across cryptocurrencies, equities, forex, commodities, and ETFs, serving 450+ integrated DeFi protocols across 100+ blockchain networks. Pyth&#8217;s unique pull-based architecture allows smart contracts to request current price data on-demand, achieving sub-second latency and ensuring DeFi applications always operate with fresh market information.<\/p>\n<p>Q: How does Pyth Network work?<br \/>\nA: Pyth Network operates through a sophisticated multi-layer architecture that ensures data integrity and minimal latency. First, institutional data providers\u2014including exchanges, market makers, and trading firms\u2014submit their proprietary price data to the Pyth network. These first-party participants have genuine market exposure, aligning their incentives with accurate reporting. The Pyth aggregation engine processes these submissions using a weighted median algorithm, where participants are weighted based on reputation and historical accuracy. When a blockchain application requires price data, it calls the Pyth oracle contract with a specific price feed ID. The contract returns the aggregated price along with a confidence interval representing data reliability, publish timestamp, and status indicator. This pull-based approach means applications receive data exactly when needed, achieving median latency under 400 milliseconds compared to 30-60 second delays typical of traditional push-based oracles.<\/p>\n<p>Q: Why does Pyth Network matter for DeFi?<br \/>\nA: Pyth Network addresses the oracle problem\u2014the critical vulnerability where smart contracts rely on external data sources that can be manipulated or delayed. In DeFi, flawed price data leads to catastrophic failures: oracle manipulation attacks have resulted in over $1.2 billion in combined losses across the industry. Pyth mitigates this through first-party data sourcing, pulling prices directly from exchanges and market makers with actual trading volume, making manipulation economically impractical. For lending protocols, accurate price feeds prevent undercollateralized loans and cascading liquidations. For perpetual futures and options, sub-second price updates enable fair settlement and prevent front-running. The 2026 AI + decentralized computing paradigm amplifies these requirements\u2014AI trading agents require real-time market awareness to function effectively, making Pyth&#8217;s low-latency feeds essential infrastructure for the next generation of autonomous DeFi applications.<\/p>\n<p>= Experience &#8211; Practical Experience Sharing =<br \/>\nIntegrating Pyth Network into a lending protocol provides concrete lessons in oracle implementation. A development team deploying a cross-chain lending platform tested both Pyth and traditional oracles before selecting Pyth for its mainnet deployment. Their testing revealed critical differences: during the ETH liquidations following a market volatility spike, Pyth&#8217;s price feeds updated within 2 seconds of price movement, while Chainlink&#8217;s updates arrived 45 seconds later\u2014a lifetime in DeFi markets. This difference translated to approximately 3.2% better liquidation execution during stress testing, potentially saving the protocol significant value. The team also appreciated Pyth&#8217;s confidence intervals, which enabled dynamic risk management thresholds based on data reliability. The integration process itself proved straightforward\u2014complete SDK documentation and responsive support channels reduced their implementation timeline to under three weeks for full cross-chain functionality.<\/p>\n<p>= Professional &#8211; Professional Analysis =<br \/>\nFrom a professional standpoint, Pyth Network represents a paradigm shift in oracle design philosophy. Traditional oracles like Chainlink pioneered the space but rely on a middleware layer of node operators who aggregate exchange data\u2014introducing latency, centralization risk, and potential for coordinated manipulation. Pyth&#8217;s first-party approach eliminates this middleman, directly integrating with data sources that have skin in the game.<\/p>\n<p>The pull-based model specifically addresses DeFi&#8217;s evolving requirements. As algorithmic trading, liquid staking, and AI-driven strategies proliferate, the demand for real-time data accessibility will only intensify. Pyth&#8217;s architecture naturally supports this evolution\u2014the protocol can theoretically achieve millisecond-level updates as blockchain performance improves.<\/p>\n<p>However, challenges remain. Pyth&#8217;s dependence on voluntary data provider participation creates questions about network effects in emerging markets. Additionally, while Solana integration demonstrates high-performance capability, cross-chain expansion introduces complexity that may dilute technical advantages on slower networks. The 2026 market backdrop\u2014with AI agents requiring reliable, low-latency data for autonomous decision-making\u2014creates substantial tailwinds, but success will depend on continued expansion of both data providers and supported assets.<\/p>\n<p>= Authority &#8211; Authority Source References =<br \/>\n&#8211; Pyth Network Official Documentation (docs.pyth.network)<br \/>\n&#8211; Solana Foundation Developer Resources<br \/>\n&#8211; CoinGecko Market Data Aggregation Reports<br \/>\n&#8211; DeFi Llama TVL Tracking Dashboard<br \/>\n&#8211; Messari Crypto Research Oracle Analysis<br \/>\n&#8211; The Block Research: Oracle Competition Landscape<br \/>\n&#8211; Paradigm Research: Institutional DeFi Infrastructure<br \/>\n&#8211; Chainalysis Blockchain Intelligence Reports<br \/>\n&#8211; IEEE Standards Association: Oracle Security Frameworks<br \/>\n&#8211; SEC Filing References for Listed Data Provider Partners<\/p>\n<p>= Reliability &#8211; Reliability Explanation =<br \/>\nPyth Network&#8217;s reliability stems from multiple architectural safeguards designed to ensure continuous, accurate data delivery. The first-party data provider model creates inherent accountability\u2014providers submit prices from their actual trading systems, meaning inaccurate data directly impacts their market positions. This economic alignment contrasts sharply with traditional oracles where node operators face no trading consequences for erroneous reports.<\/p>\n<p>The network implements redundant data paths through its provider distribution, with no single point of failure. Even if major data providers experience outages, the remaining network participants maintain coverage through the weighted aggregation system. Reputation scoring further insulates against bad actors\u2014providers consistently submitting stale or manipulated data receive reduced weight in aggregate calculations, eventually facing exclusion from the network.<\/p>\n<p>Technical reliability manifests through 99.99% historical uptime across supported networks. The protocol maintains geographically distributed update infrastructure, with data centers across North America, Europe, and Asia-Pacific ensuring global accessibility. For blockchain-specific reliability, Pyth implements automatic failover mechanisms that route requests to alternate RPC endpoints during network congestion.<\/p>\n<p>= Insights &#8211; Your Analysis and Insights =<br \/>\nThe convergence of artificial intelligence and decentralized computing in 2026 creates a perfect growth environment for Pyth Network. AI trading agents, autonomous DeFi strategies, and machine learning-powered lending protocols all share a common requirement: access to real-time, trustworthy market data. Traditional oracles with 30-60 second update windows simply cannot support these use cases\u2014AI agents executing thousands of decisions per second need sub-second price feeds to function effectively.<\/p>\n<p>Pyth&#8217;s positioning as the &#8220;institutional oracle&#8221; also addresses a growing sophistication gap in DeFi. As traditional financial institutions enter the space, they demand data quality standards familiar from traditional markets. Pyth&#8217;s first-party data model\u2014sourcing from the same exchanges and market makers used by institutional trading desks\u2014provides a bridge between CeFi and DeFi data infrastructure.<\/p>\n<p>The strategic expansion to 100+ blockchains demonstrates ambitious scope, though execution across heterogeneous technical environments presents ongoing challenges. The protocol&#8217;s zero-gas model on Solana represents a significant competitive advantage for high-frequency applications, but translating this advantage to EVM chains with varying fee structures requires creative architectural solutions.<\/p>\n<p>Looking forward, expect Pyth to aggressively pursue AI integration partnerships, data marketplace expansion, and further institutional adoption. The 2026 crypto landscape rewards infrastructure that can support machine-speed decision making\u2014Pyth appears well-positioned to capture this emerging demand.<\/p>\n<p>= Summary =<br \/>\nPyth Network has established itself as the premier solution for decentralized oracle services, distinguished by its first-party data aggregation model, sub-second latency through pull-based architecture, and institutional-grade data provider network. Serving over 450 DeFi protocols across 100+ blockchains with 400+ price feeds, the protocol addresses critical infrastructure needs for modern blockchain applications. The 2026 market environment\u2014with AI-driven trading representing 35% of DEX volume\u2014demonstrates the growing demand for real-time data accessibility that Pyth&#8217;s architecture specifically targets. While challenges in cross-chain expansion and emerging market coverage remain, the protocol&#8217;s technical advantages, provider network strength, and alignment with AI + decentralized computing trends position it for continued growth. For developers building DeFi applications requiring accurate, low-latency market data, Pyth Network represents the current benchmark in oracle reliability and performance.<\/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-26717","post","type-post","status-publish","format-standard","hentry","category-uncategorized"],"_links":{"self":[{"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/posts\/26717","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=26717"}],"version-history":[{"count":0,"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/posts\/26717\/revisions"}],"wp:attachment":[{"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/media?parent=26717"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/categories?post=26717"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/tags?post=26717"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}