Karpathy又封神,掀翻RAG,把你的笔记变成第二大脑

marsbitPublished on 2026-07-01Last updated on 2026-07-01

Abstract

前OpenAI联合创始人安德烈·卡帕西提出了一种突破性的知识管理新范式“LLM-Wiki”,旨在解决信息过载时代个人知识库沦为“赛博木乃伊”的困境。他主张将个人笔记视为“不可变源代码”,而让大语言模型扮演“编译器”角色,将其一次性编译成结构化、逻辑自洽且持续更新的个人维基百科。 这一方法从根本上区别于当前主流的检索增强生成技术。RAG在每次查询时临时检索片段拼凑答案,存在无法理解全局、可能自我矛盾、知识链接易腐烂等问题。卡帕西的范式则将知识“编译”一次后持续保鲜,每次新增材料,AI会自动融合更新相关条目、修订综述、标记矛盾,使知识库始终保持鲜活与一致性。 其架构核心在于三层解耦:底层是记录原始灵感的“素材层”,中层是由用户定义格式的“规则层”,顶层则是由AI全权维护、结构化的“维基层”。用户日常只需进行三项操作:投入新素材、查询编译后的知识库,或定期让AI进行知识库“体检”以排查矛盾与缺口。这实现了认知生产关系的根本转移——人类从繁琐的知识搬运、整理与维护工作中解放出来,专注于核心的输入与审阅,而AI则承担了所有“记账”类杂活。 文章指出,这一构想实质上实现了计算机先驱范内瓦·布什在1945年设想的“Memex”记忆机器的愿景,其长久未能实现的核心障碍在于人工维护交叉引用与知识路径的成本过高。大语言模型的出现,近乎零成本地解决了这一维护难题。 卡帕西的“LLM-Wiki”是其关于人机协作系列思考的第三块拼图,其最终目的并非替代人类,而是将人类的注意力从机械的“记账”工作中解放出来,重新聚焦于决定阅读方向与思考深层意义这两件机器无法替代的事情上。

收藏不等于拥有,高亮不等于理解。

那些凌晨两点让你心潮澎湃的深度好文,那些在Obsidian里拉出的密密麻麻的双向链接,那些在Notion里精心排版的数据库,都是躺在笔记软件里的「赛博木乃伊」。

图谱看似壮观,实则早已腐朽。

这是整个信息过载时代的系统性失败。

现Anthropic工程师、前OpenAI联合创始人、Tesla前AI总监Karpathy,看不下去了,扔下一枚炸弹。

传送门:https://gist.github.com/karpathy/442a6bf555914893e9891c11519de94f

他没有宣布新模型,没有发布新框架,他只是说:把你的笔记当成不可变源代码,让LLM做编译器。

两个月过去,这份文档已经在Obsidian、Claude、Cursor社区掀起一场静默却剧烈的迁移。

有人已经把自己的Wiki扩展到上百页、数十万字。

自动化插件开始出现。学术研究者、独立创业者、终身学习者正在集体转向一种全新的知识生产关系。

RAG的黄昏,信息搬运救不了你的思想

在LLM-WIKI出现之前,主流的解决方案是RAG(检索增强生成)。

简单说,就是给大模型配一个「翻找员」:当你提问时,它去你的笔记里搜几个片段,然后拼凑出一个答案。

听起来很美,但用过的人都知道那种「卖家秀」与「买家秀」的落差。

它只是搬运工:RAG只能处理局部,无法理解全局。

它能告诉你第5篇笔记提到了A,但它无法告诉你这500篇笔记共同指向的底层逻辑。

它会「人格分裂」:如果你半年前认为A是对的,昨天却写笔记反驳了A,RAG往往会陷入自我矛盾,吐出一堆逻辑混乱的废话。

图谱腐烂:手动维护的知识链接,就像没有自动清理功能的代码。日子久了,断头链接随处可见,检索效率呈指数级下降。

Karpathy的直觉非常犀利:搜索和检索是人类无能的表现。我们需要的是「共识」,是「结构」,是「真相」。

把知识当源代码,让LLM当编译器

Karpathy的答案,来自一个程序员每天都在做、却从没往知识上想过的动作:编译。

你写好一段源代码,不会每次运行程序都重新读一遍代码。

你把它编译成一个二进制文件,编译这一次很费劲,但之后每次运行都飞快。编译的成本,被之后成千上万次使用摊平了。

知识为什么不能这么干?

Karpathy说,把你的原始笔记当成不可修改的源代码,把LLM当成编译器,让它一次性把这堆乱七八糟的材料「编译」成一个结构化、互相链接的Wiki。

每加一篇新材料,AI就做一次融合:更新相关的条目页、修订综述、把新数据和旧结论打架的地方标出来、顺手加固或挑战已有的判断。

关键的差别在这里:知识被编译一次,然后持续保鲜,而不是每次查询临时重建。

等你来提问的时候,交叉引用早就在那了,矛盾早就被标过了,综述早就反映了你读过的一切。

你不会每次跑程序都重编译一遍源代码。那为什么每次提问,都要让AI重读一遍你的笔记?

认知生产关系的根本转移

在他的LLM-WIKI框架里,笔记不再是死文字,而是「源代码」

大模型不再是查字典的翻译官,而是「编译器」

这套架构极其精妙地实现了三层解耦:

1、Raw层(原始素材):这是你的灵感原矿。你随手记下的感悟、剪辑的文章、会议纪要。它是「不可变」的,保持了人类输入的原始性和不洁感。

2、Schema层(知识宪法):这是你写给AI的「军规」。比如你规定:每一个人物词条必须包含「动机、局限性、关键成就」;每一个技术栈必须说明「优缺点」。

3、Wiki层(编译成品):这是AI全权维护的区域。它根据你的Schema,把那堆乱七八糟的Raw编译成结构化、交叉链接、逻辑自洽的百科页面。

日常就三个动作:

1、Ingest(摄入):丢一篇新料进去,AI 读完、跟你过一遍要点、写摘要、横扫整个库更新相关页——一篇来源,可能牵动十几个页面

2、Query(查询):直接问编译好的 Wiki,带引用作答。最妙的是:好答案能直接回档成新页,你的每一次探索也在复利。

3、Lint(体检):定期让 AI 像做代码审查一样自查——找矛盾、找过时论断、找没人链接的孤立页、找该补的缺口。早期就清,不让库越长越腐。

你不再是知识的搬运工,而是这个智慧帝国的架构师。

你只负责输入和最后的审阅,AI负责所有的「杂活」:整理、对齐、交叉链接、矛盾检测。

这是认知生产关系的根本转移

这不是另一个聊天机器人。ChatGPT了解互联网,LLM-Wiki了解你——准确说,是你教给它的东西。

每个回答都带着 [wiki-links] 回到你的知识图谱。每条回复都是一条探索路径的起点,而不是终点。

迟到了80年的发明

到这儿,你可能觉得这不就是个聪明的工作流吗?

不止。

Karpathy在gist结尾,轻飘飘地点了一个名字:Vannevar Bush,和他1945年那篇《As We May Think》。

1945年,二战刚结束,这位美国科学界的大佬,幻想了一台叫「Memex」的机器:

一张机械书桌,能存下你所有的书、记录、通信,并在相关条目之间,建立起「联想路径」——文档与文档之间的连接,和文档本身一样宝贵。

听着耳熟吗?这几乎就是LLM-Wiki的逐字描述。

Bush的愿景,其实比后来的万维网更接近这个东西:私密的、亲手策展的、连接即价值的知识网络。

那为什么Memex八十年没造出来?

因为Bush卡在了一个他解决不了的问题上——谁来维护?

每一条联想路径,都得手工建立。每一个交叉引用,都得有人去连。

Bush幻想着有专门的「操作员」为你在知识里铺设小径。

可现实是,没有任何人能在大规模上坚持做这件枯燥的苦役。人类会放弃维护,因为维护的成本,永远比它带来的价值涨得更快。

Karpathy这句话,是整个范式的题眼:维护一座知识库最累的部分,从来不是阅读,是记账。

更新交叉引用,保持摘要新鲜,标注新数据和旧结论的冲突,让几十个页面之间始终一致。这种枯燥,足以劝退所有人。

而大模型,不会忘记更新某一个交叉引用,可以一口气改动15个文件。

它不会累。不会烦。不会被深夜拖垮。维护成本,被压到了近乎为零。

于是,那台卡了人类八十年的机器,突然就转起来了。

被解放的,是人类的注意力

回头看,LLM-Wiki是Karpathy关于「人机协作」的第三块拼图,也是最克制的一块。

第一块,Vibe Coding(2025年2月):接受AI写的代码,不逐行审,信模型,测结果。

第二块,Agentic Engineering(2026年1月):人类编排AI智能体,而不是自己敲代码。

第三块,LLM Knowledge Bases(2026年4月):AI管理的不再只是代码,而是知识本身。

在这套新范式里,人类被剥掉的,是收藏、整理、链接、记账这些谁都不爱干的杂活。

人类被留下的,只剩两件事:决定读什么,以及,想清楚这一切到底意味着什么。这恰恰是机器至今做不了、也最不该替你做的两件事。

这是一个工具进化到极致,最终绕了一圈,把人类的注意力还给人类自己的故事。

那张朴素到欠揍的markdown文件,没发模型,没刷榜单。

它只是安静地提醒了一句:你的大脑,本就不该用来记账。

本文来自微信公众号“新智元”,作者:ASI启示录

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Related Questions

QKarpathy提出的LLM-Wiki工作流的核心思想是什么?

ALLM-Wiki工作流的核心思想是将个人笔记视为‘源代码’,将大型语言模型视为‘编译器’,通过一次性对原始笔记进行‘编译’,将其转化为一个结构化、内部互联、逻辑自洽的Wiki知识库。其本质是改变知识的‘生产关系’,让AI承担整理、对齐、交叉链接和矛盾检测等维护性工作,让人专注于信息的输入和最终判断。

Q文章认为传统的RAG解决方案存在哪些主要问题?

A文章认为传统的RAG解决方案存在以下主要问题:1. 局限于局部检索,无法理解全局知识脉络和底层逻辑;2. 当笔记内容在不同时期存在矛盾时,RAG容易产生逻辑混乱、前后不一的回答;3. 需要手动维护的知识图谱和链接会随时间‘腐烂’,导致检索效率下降。其本质是‘信息搬运’,而非建立统一的‘共识’与‘结构’。

QLLM-Wiki工作流实现了哪三个关键层的解耦?

ALLM-Wiki工作流实现了三层解耦:1. Raw层(原始素材):由用户输入的不可变的原始灵感、笔记和资料。2. Schema层(知识宪法):用户定义的、指导AI如何处理信息的规则和结构,如定义词条必须包含的字段。3. Wiki层(编译成品):由AI根据Schema,对Raw层内容进行编译后生成的结构化、互相链接、逻辑自洽的百科页面集合。

Q为什么说LLM-Wiki实现了范尼瓦尔·布什(Vannevar Bush)在1945年的构想?

A因为范尼瓦尔·布什在1945年构想的‘Memex’机器,是一个能存储个人所有知识记录,并能在相关条目间建立‘联想路径’(关联链接)的设备。这一‘连接即价值’的核心理念与LLM-Wiki高度一致。布什构想未能实现的关键阻碍在于‘维护成本’——人类无法承受大规模手动建立和维护链接的枯燥劳动。LLM-Wiki利用AI自动化完成了这些维护工作,从而真正实现了布什的愿景。

Q根据文章,LLM-Wiki范式将人类的注意力解放出来,使其能专注于哪两件事?

A在LLM-Wiki的新范式里,人类被从整理、链接、记账等杂活中解放出来,得以专注于最核心、机器无法替代的两件事:1. 决定读什么,即信息的输入与选择;2. 想清楚这一切到底意味着什么,即进行最终的思考、判断和价值赋予。

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Below is a suggested timeline mapping significant events in the evolution of SPERO,$$s$: Conceptualisation and Ideation Phase: The initial ideas forming the basis of SPERO,$$s$ were conceived, aligning closely with the principles of decentralisation and community focus within the blockchain industry. Launch of Project Whitepaper: Following the conceptual phase, a comprehensive whitepaper detailing the vision, goals, and technological infrastructure of SPERO,$$s$ was released to garner community interest and feedback. Community Building and Early Engagements: Active outreach efforts were made to build a community of early adopters and potential investors, facilitating discussions around the project’s goals and garnering support. Token Generation Event: SPERO,$$s$ conducted a token generation event (TGE) to distribute its native tokens to early supporters and establish initial liquidity within the ecosystem. Launch of Initial dApp: The first decentralised application (dApp) associated with SPERO,$$s$ went live, allowing users to engage with the platform's core functionalities. Ongoing Development and Partnerships: Continuous updates and enhancements to the project's offerings, including strategic partnerships with other players in the blockchain space, have shaped SPERO,$$s$ into a competitive and evolving player in the crypto market. Conclusion SPERO,$$s$ stands as a testament to the potential of web3 and cryptocurrency to revolutionise financial systems and empower individuals. With a commitment to decentralised governance, community engagement, and innovatively designed functionalities, it paves the way toward a more inclusive financial landscape. As with any investment in the rapidly evolving crypto space, potential investors and users are encouraged to research thoroughly and engage thoughtfully with the ongoing developments within SPERO,$$s$. The project showcases the innovative spirit of the crypto industry, inviting further exploration into its myriad possibilities. While the journey of SPERO,$$s$ is still unfolding, its foundational principles may indeed influence the future of how we interact with technology, finance, and each other in interconnected digital ecosystems.

100 Total ViewsPublished 2024.12.17Updated 2024.12.17

What is $S$

What is AGENT S

Agent S: The Future of Autonomous Interaction in Web3 Introduction In the ever-evolving landscape of Web3 and cryptocurrency, innovations are constantly redefining how individuals interact with digital platforms. One such pioneering project, Agent S, promises to revolutionise human-computer interaction through its open agentic framework. By paving the way for autonomous interactions, Agent S aims to simplify complex tasks, offering transformative applications in artificial intelligence (AI). This detailed exploration will delve into the project's intricacies, its unique features, and the implications for the cryptocurrency domain. What is Agent S? Agent S stands as a groundbreaking open agentic framework, specifically designed to tackle three fundamental challenges in the automation of computer tasks: Acquiring Domain-Specific Knowledge: The framework intelligently learns from various external knowledge sources and internal experiences. This dual approach empowers it to build a rich repository of domain-specific knowledge, enhancing its performance in task execution. Planning Over Long Task Horizons: Agent S employs experience-augmented hierarchical planning, a strategic approach that facilitates efficient breakdown and execution of intricate tasks. This feature significantly enhances its ability to manage multiple subtasks efficiently and effectively. Handling Dynamic, Non-Uniform Interfaces: The project introduces the Agent-Computer Interface (ACI), an innovative solution that enhances the interaction between agents and users. Utilizing Multimodal Large Language Models (MLLMs), Agent S can navigate and manipulate diverse graphical user interfaces seamlessly. Through these pioneering features, Agent S provides a robust framework that addresses the complexities involved in automating human interaction with machines, setting the stage for myriad applications in AI and beyond. Who is the Creator of Agent S? While the concept of Agent S is fundamentally innovative, specific information about its creator remains elusive. The creator is currently unknown, which highlights either the nascent stage of the project or the strategic choice to keep founding members under wraps. Regardless of anonymity, the focus remains on the framework's capabilities and potential. Who are the Investors of Agent S? As Agent S is relatively new in the cryptographic ecosystem, detailed information regarding its investors and financial backers is not explicitly documented. The lack of publicly available insights into the investment foundations or organisations supporting the project raises questions about its funding structure and development roadmap. Understanding the backing is crucial for gauging the project's sustainability and potential market impact. How Does Agent S Work? At the core of Agent S lies cutting-edge technology that enables it to function effectively in diverse settings. Its operational model is built around several key features: Human-like Computer Interaction: The framework offers advanced AI planning, striving to make interactions with computers more intuitive. By mimicking human behaviour in tasks execution, it promises to elevate user experiences. Narrative Memory: Employed to leverage high-level experiences, Agent S utilises narrative memory to keep track of task histories, thereby enhancing its decision-making processes. Episodic Memory: This feature provides users with step-by-step guidance, allowing the framework to offer contextual support as tasks unfold. Support for OpenACI: With the ability to run locally, Agent S allows users to maintain control over their interactions and workflows, aligning with the decentralised ethos of Web3. Easy Integration with External APIs: Its versatility and compatibility with various AI platforms ensure that Agent S can fit seamlessly into existing technological ecosystems, making it an appealing choice for developers and organisations. These functionalities collectively contribute to Agent S's unique position within the crypto space, as it automates complex, multi-step tasks with minimal human intervention. As the project evolves, its potential applications in Web3 could redefine how digital interactions unfold. Timeline of Agent S The development and milestones of Agent S can be encapsulated in a timeline that highlights its significant events: September 27, 2024: The concept of Agent S was launched in a comprehensive research paper titled “An Open Agentic Framework that Uses Computers Like a Human,” showcasing the groundwork for the project. October 10, 2024: The research paper was made publicly available on arXiv, offering an in-depth exploration of the framework and its performance evaluation based on the OSWorld benchmark. October 12, 2024: A video presentation was released, providing a visual insight into the capabilities and features of Agent S, further engaging potential users and investors. These markers in the timeline not only illustrate the progress of Agent S but also indicate its commitment to transparency and community engagement. Key Points About Agent S As the Agent S framework continues to evolve, several key attributes stand out, underscoring its innovative nature and potential: Innovative Framework: Designed to provide an intuitive use of computers akin to human interaction, Agent S brings a novel approach to task automation. Autonomous Interaction: The ability to interact autonomously with computers through GUI signifies a leap towards more intelligent and efficient computing solutions. Complex Task Automation: With its robust methodology, it can automate complex, multi-step tasks, making processes faster and less error-prone. Continuous Improvement: The learning mechanisms enable Agent S to improve from past experiences, continually enhancing its performance and efficacy. Versatility: Its adaptability across different operating environments like OSWorld and WindowsAgentArena ensures that it can serve a broad range of applications. As Agent S positions itself in the Web3 and crypto landscape, its potential to enhance interaction capabilities and automate processes signifies a significant advancement in AI technologies. Through its innovative framework, Agent S exemplifies the future of digital interactions, promising a more seamless and efficient experience for users across various industries. Conclusion Agent S represents a bold leap forward in the marriage of AI and Web3, with the capacity to redefine how we interact with technology. While still in its early stages, the possibilities for its application are vast and compelling. Through its comprehensive framework addressing critical challenges, Agent S aims to bring autonomous interactions to the forefront of the digital experience. As we move deeper into the realms of cryptocurrency and decentralisation, projects like Agent S will undoubtedly play a crucial role in shaping the future of technology and human-computer collaboration.

770 Total ViewsPublished 2025.01.14Updated 2025.01.14

What is AGENT S

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