{"id":32274,"date":"2026-05-09T06:44:20","date_gmt":"2026-05-08T22:44:20","guid":{"rendered":"https:\/\/kj17.com\/zh_cn\/2026\/05\/09\/zk-technology-revolution-the-ultimate-guide-to-zero-knowledge-proofs-in-2026\/"},"modified":"2026-05-09T06:44:20","modified_gmt":"2026-05-08T22:44:20","slug":"zk-technology-revolution-the-ultimate-guide-to-zero-knowledge-proofs-in-2026","status":"publish","type":"post","link":"https:\/\/kj17.com\/zh_cn\/2026\/05\/09\/zk-technology-revolution-the-ultimate-guide-to-zero-knowledge-proofs-in-2026\/","title":{"rendered":"ZK Technology Revolution: The Ultimate Guide to Zero-Knowledge Proofs 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\": 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]\n}\n<\/script><\/p>\n<p>= Opening Summary =<\/p>\n<p>Zero-knowledge proofs (ZK) represent one of the most transformative cryptographic breakthroughs in blockchain history, enabling privacy-preserving transactions that verify truth without revealing data. As the crypto ecosystem evolves toward AI-driven decentralized computing in 2026, ZK technology has emerged as the critical infrastructure layer scaling <a href=\"https:\/\/kj17.com\/zh_cn\/2026\/05\/09\/%e4%bb%a5%e5%a4%aa%e5%9d%8aeth%e7%bb%88%e6%9e%81%e6%8c%87%e5%8d%97%ef%bc%9a2026%e5%b9%b4%e6%9c%80%e5%85%b7%e6%bd%9c%e5%8a%9b%e7%9a%84%e5%8a%a0%e5%af%86%e8%b4%a7%e5%b8%81%e6%b7%b1%e5%ba%a6%e8%a7%a3\/\" target=\"_blank\">Ethereum<\/a> and powering next-generation Layer-2 <a href=\"https:\/\/kj17.com\/zh_cn\/2026\/05\/09\/jpy%e5%85%91%e6%8d%a2slr%e5%85%a8%e6%94%bb%e7%95%a5%ef%bc%9a2026%e5%b9%b4%e6%97%a5%e5%85%83%e4%b9%b0solana%e6%9c%80%e4%bd%b3%e9%80%94%e5%be%84%e4%b8%8e%e5%ae%89%e5%85%a8%e6%8a%80%e5%b7%a7\/\" target=\"_blank\">sol<\/a>utions. This comprehensive guide explores how ZK proofs work, their real-world applications, and why they matter for the future of decentralized systems.<\/p>\n<p>= Definition =<\/p>\n<p>ZK, or Zero-Knowledge Proofs, are cryptographic protocols that allow one party (the prover) to convince another party (the verifier) that a statement is true without revealing any information beyond the validity of the statement itself. In cryptocurrency applications, ZK technology enables blockchain validators to confirm transaction validity while keeping underlying data completely private. The three fundamental properties defining ZK proofs are: completeness (if the statement is true, an honest prover can convince the verifier), soundness (a dishonest prover cannot convince the verifier of a false statement), and zero-knowledge (the verifier learns nothing except that the statement is true). This elegant mathematical solution addresses the trilemma of blockchain scalability, privacy, and security simultaneously.<\/p>\n<p>= Key Points =<\/p>\n<p>&#8211; Zero-knowledge proofs enable transaction validation without exposing sensitive financial data<br \/>\n&#8211; ZK-Rollups have become the dominant Layer-2 scaling solution for Ethereum<br \/>\n&#8211; zkEVM technology brings EVM compatibility to ZK-based rollups<br \/>\n&#8211; ZK proofs process thousands of transactions per second compared to Ethereum&#8217;s ~15-30 TPS<br \/>\n&#8211; Major projects utilizing ZK include zkSync, StarkNet, Polygon zkEVM, and Scroll<br \/>\n&#8211; The technology addresses both privacy concerns and scalability limitations simultaneously<br \/>\n&#8211; ZK bridging enables cross-chain communication with cryptographic security guarantees<\/p>\n<p>= Step-by-Step Guide =<\/p>\n<p>Understanding ZK proof generation and verification involves several critical stages. First, the transaction batch is collected by the sequencer, which aggregates multiple transactions into a single batch. Second, the prover circuit generates the zero-knowledge proof by executing the transaction logic within a specialized ZK circuit that mathematically proves computational integrity. Third, the proof is submitted to the Ethereum mainnet along with minimal state data (the state root). Fourth, the verifier contract checks the cryptographic validity of the proof through mathematical verification algorithms. Fifth, once verified, the state changes are finalized on Ethereum, inheriting its security guarantees. The entire process typically completes within minutes, with some implementations achieving finality in seconds while processing thousands of transactions at a fraction of mainnet costs.<\/p>\n<p>= Comparison =<\/p>\n<p>When comparing ZK-Rollups to Optimistic Rollups, several key differences emerge. Optimistic Rollups assume transactions are valid by default and only verify through fraud proofs when challenged, requiring a 7-day withdrawal period. ZK-Rollups provide immediate finality through cryptographic proofs, eliminating the challenge period and reducing capital efficiency issues. In terms of TPS, ZK solutions currently achieve 2,000-10,000 TPS versus Optimistic Rollups&#8217; 500-2,000 TPS. Gas costs per transaction are approximately 40-60% lower on ZK-Rollups due to the efficiency of validity proofs. However, ZK technology faces higher computational requirements for proof generation, leading to slightly higher operational costs for sequencers. Privacy capabilities differ significantly, as Optimistic Rollups offer minimal privacy features while ZK proofs can be configured for complete transaction data hiding.<\/p>\n<p>= Statistics =<\/p>\n<p>The ZK technology sector has experienced remarkable growth in the 2026 crypto market. Total value locked (TVL) in ZK-Rollup solutions has reached $45 billion, representing 35% of all Layer-2 TVL. Ethereum&#8217;s ZK ecosystem processes approximately 8.5 million transactions daily through ZK-Rollups. The average transaction cost on ZK-Rollups stands at $0.02-$0.05, compared to $1.50-$3.00 on Ethereum mainnet. zkSync Era maintains the largest ZK-Rollup market share at 38%, followed by StarkNet at 24% and Polygon zkEVM at 18%. The average proof generation time has decreased to 2-4 minutes across major implementations. Technical parameters show ZK-STARKs achieving quantum resistance while ZK-SNARKs offer faster verification times. The gas efficiency improvement reaches 100x compared to mainnet execution in some implementations.<\/p>\n<p>= FAQ =<\/p>\n<p>Q: What is ZK technology in cryptocurrency?<br \/>\nA: ZK (Zero-Knowledge) technology refers to cryptographic protocols called zero-knowledge proofs that enable one party to prove to another that a statement is true without revealing any information beyond the validity of the statement itself. In cryptocurrency contexts, ZK proofs allow blockchain networks to verify transaction authenticity while keeping all underlying data completely private. The technology utilizes advanced mathematical constructions involving polynomial commitments, elliptic curve cryptography, and complex circuit logic to achieve this seemingly impossible feat. ZK proofs have become essential for achieving blockchain scalability through rollup architectures while maintaining cryptographic privacy guarantees that traditional blockchain transparency cannot provide.<\/p>\n<p>Q: How does ZK-Rollup scaling work?<br \/>\nA: ZK-Rollup scaling works by bundling hundreds or thousands of transactions into a single batch and generating a cryptographic proof (validity proof) that verifies the correctness of all transactions in that batch without executing each one individually on the main blockchain. The process involves a specialized prover that generates a SNARK (Succinct Non-Interactive Argument of Knowledge) or STARK (Scalable Transparent Argument of Knowledge) proof, which is then submitted to a verifier contract on Ethereum. This verifier confirms mathematically that the state transition was computed correctly according to Ethereum&#8217;s rules. Because the proof size is small (approximately 100-300 bytes) and verification is computationally cheap, the mainnet only needs to store minimal data while the actual computation happens off-chain. This architecture achieves theoretical TPS of 10,000+ while maintaining full Ethereum security guarantees and enabling near-instant finality.<\/p>\n<p>Q: Why does ZK matter for the future of decentralized computing?<br \/>\nA: ZK technology matters profoundly for decentralized computing&#8217;s future because it addresses the fundamental blockchain trilemma of achieving security, scalability, and decentralization simultaneously. As AI systems increasingly require verifiable computation and privacy-preserving data processing, ZK proofs provide the cryptographic foundation for confidential computing on public blockchains. The 2026 market environment of AI + decentralized computing has made ZK infrastructure essential for enterprises seeking to leverage blockchain transparency while maintaining competitive privacy. ZK bridges enable secure cross-chain communication without trusting centralized intermediaries, creating a more interconnected and liquid DeFi ecosystem. Furthermore, ZK technology enables new use cases in identity verification, voting systems, and regulatory compliance where proof of authenticity must be demonstrated without exposing sensitive information, making it indispensable for mainstream blockchain adoption.<\/p>\n<p>= Experience =<\/p>\n<p>From a practical standpoint, interacting with ZK-Rollup ecosystems reveals both their tremendous potential and current limitations. Using zkSync Era for DeFi activities demonstrates the seamless user experience when gas fees drop from dollars to cents while maintaining full Ethereum compatibility. Bridge transfers between mainnet and ZK-Rollups typically complete within 10-30 minutes for the initial deposit, with withdrawals requiring similar timing due to proof generation. The developer experience has improved dramatically with zkEVM implementations that allow Solidity developers to deploy existing code with minimal modifications. However, users must remain cautious about smart contract risks inherent to any Layer-2 solution and understand that while ZK proofs guarantee computational integrity, they do not protect against application-level vulnerabilities or oracle failures. The <a href=\"https:\/\/kj17.com\/zh_cn\/2026\/05\/09\/%e0%b8%aa%e0%b8%a5%e0%b9%87%e0%b8%ad%e0%b8%95%e0%b8%9d%e0%b8%b2%e0%b8%81%e0%b8%96%e0%b8%ad%e0%b8%99-true-wallet-%e0%b9%80%e0%b8%a7%e0%b9%87%e0%b8%9a%e0%b8%95%e0%b8%a3%e0%b8%87-%e5%8a%a0%e5%af%86\/\" target=\"_blank\">wallet<\/a> setup process differs slightly from mainnet interactions, requiring consideration of account abstraction features that ZK-Rollups commonly implement.<\/p>\n<p>= Professional Analysis =<\/p>\n<p>The professional assessment of ZK technology reveals a maturing ecosystem with significant investment flowing into proof generation infrastructure and zkEVM development. From a technical architecture perspective, the distinction between SNARK and STARK implementations carries meaningful implications for future-proofing against quantum computing threats, with STARKs offering transparency and quantum resistance at the cost of larger proof sizes. The competitive landscape has consolidated around several major players, with each optimizing for different trade-offs between performance, compatibility, and decentralization. Market analysis indicates that ZK-Rollups will process over 60% of Ethereum transaction volume by late 2026, driven by continuing demand for low-cost, high-throughput applications. The integration of ZK technology with AI inference verification represents a particularly promising growth vector, enabling decentralized AI services to provide cryptographic proof of correct computation. Regulatory developments around privacy-preserving technologies remain uncertain, creating potential compliance challenges for fully private ZK implementations.<\/p>\n<p>= Authority =<\/p>\n<p>Academic research on zero-knowledge proofs originates from foundational work by Goldwasser, Micali, and Rackoff in the 1980s, with significant blockchain-specific developments emerging from the 2014 Zerocash paper introducing zk-SNARKs. The Ethereum Foundation has officially endorsed ZK-Rollups as a primary scaling path, documented in multiple roadmap communications and research publications. Industry standards organizations are developing interoperability protocols for ZK circuits, with organizations like the Ethereum Cat Herders coordinating upgrade implementations. Technical documentation from zkSync, StarkWare, and Polygon provides comprehensive specifications for their respective ZK implementations. Academic conferences including Crypto, IEEE Security &#038; Privacy, and blockchain-specific venues regularly publish advances in ZK proof efficiency and application frameworks.<\/p>\n<p>= Reliability =<\/p>\n<p>ZK technology&#8217;s reliability stems from its mathematical foundations in computational complexity theory, providing cryptographic guarantees that are unconditional rather than dependent on economic assumptions. The security model relies on established cryptographic hardness assumptions (such as the discrete logarithm problem or collision-resistant hash functions), which have withstood decades of cryptanalytic scrutiny. Unlike fraud proof systems that depend on honest participants watching for invalid states, ZK proofs provide absolute certainty of computational correctness once the verifier accepts the proof. Mainnet contract verification ensures that the verifier implementation correctly checks proof validity, with multiple audit firms specializing in ZK circuit security assessments. The decentralized prover networks emerging in 2026 further enhance reliability by eliminating single points of failure in proof generation while maintaining economic security through bond-based participation requirements.<\/p>\n<p>= Insights =<\/p>\n<p>The ZK technology landscape in 2026 reflects a pivotal transformation in how blockchain systems balance transparency with privacy and scalability with security. The convergence of AI computation verification and ZK proofs creates unprecedented opportunities for decentralized machine learning applications, where model integrity can be proven without exposing proprietary training data or model weights. My analysis suggests that the next major ZK innovation will focus on prover accessibility, reducing the computational barriers that currently limit proof generation to specialized hardware operators. The development of zkWasm and general-purpose ZK VMs indicates a future where any computational task can be verified privately and scalably on blockchain infrastructure. However, the ecosystem must address the significant knowledge barrier preventing average users from understanding ZK&#8217;s implications, requiring better educational resources and abstraction layers. The regulatory environment remains the primary uncertainty, as governments worldwide grapple with how to categorize privacy-preserving technology while balancing security concerns against innovation incentives.<\/p>\n<p>= Summary =<\/p>\n<p>ZK (Zero-Knowledge) technology has evolved from an obscure cryptographic concept into the foundational infrastructure powering Ethereum&#8217;s scaling roadmap and the broader Web3 ecosystem. Through elegant mathematical proofs that verify truth without revealing information, ZK enables blockchain networks to achieve unprecedented throughput (thousands of TPS), minimal transaction costs, and optional privacy guarantees. The 2026 crypto landscape of AI + decentralized computing has elevated ZK from a scaling solution to an essential component for verifiable AI inference, secure cross-chain communication, and enterprise blockchain adoption. While challenges remain around prover accessibility, circuit complexity, and regulatory uncertainty, the technology&#8217;s proven security model and rapidly improving efficiency position ZK as indispensable for the next generation of decentralized applications. Understanding ZK technology is no longer optional for crypto participants\u2014it&#8217;s becoming a prerequisite for navigating an ecosystem where privacy, scalability, and verifiability converge through cryptographic innovation.<\/p>\n<p>= \u5e38\u89c1\u95ee\u9898 =<\/p>\n<p>1. **zk\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\u679czk\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. **zk\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\u679czk\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. **zk\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\u6bd4zk\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\u770bzk\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. **zk\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\u679czk\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 = Zero-knowl&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-32274","post","type-post","status-publish","format-standard","hentry","category-uncategorized"],"_links":{"self":[{"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/posts\/32274","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=32274"}],"version-history":[{"count":0,"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/posts\/32274\/revisions"}],"wp:attachment":[{"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/media?parent=32274"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/categories?post=32274"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/kj17.com\/zh_cn\/wp-json\/wp\/v2\/tags?post=32274"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}