[GUEST ACCESS MODE: Data is scrambled or limited to provide examples. Make requests using your API key to unlock full data. Check https://lunarcrush.ai/auth for authentication information.]  Feelwet [@feelwet_](/creator/twitter/feelwet_) on x XXX followers Created: 2025-07-21 12:07:13 UTC @Pilso_OS / $PILSO What is PILSO OS? 𧩠PILSO OS (Pilot Interface for LLMs Signature Operations) is an innovative operating system designed to bridge the gap between artificial intelligence (AI) and blockchain technology, specifically for secure onchain operations. It enables large language models (LLMs), such as Claude or GPT, to interact with Web3 infrastructure, like wallets and blockchains, through natural language commands. By integrating secure wallet signatures, modular backend servers (MCP servers), and a user-friendly interface, PILSO OS allows both everyday users and developers to perform complex blockchain tasksâsuch as token transfers or smart contract deploymentsâwithout needing to write code or expose sensitive private keys. What Are They Building? The team behind PILSO OS is developing a secure, modular, and non-custodial platform that acts as a protocol-level layer in the Web3 ecosystem. It combines the power of LLMs with blockchain execution in a way that prioritizes security and usability. Unlike traditional AI agents in Web3, which often require access to private keys (introducing significant security risks), PILSO OS keeps the userâs wallet as the sole signer of transactions. The LLM acts as a "pilot," interpreting user instructions, while MCP servers handle specific blockchain tasks, such as signing transactions or fetching chain data, in a trustless and modular manner. What Is It About? PILSO OS is about simplifying and securing the interaction between AI and blockchain technology. It addresses a critical problem in the Web3 space: most AI agents require access to private keys or rely on custodial solutions, which compromises security and trust. PILSO OS flips this model by ensuring that: đThe wallet remains the signer, keeping private keys secure and unexposed. đThe LLM interprets user intent, allowing natural language commands like âSend XX USDC to Optimismâ instead of requiring technical expertise. đMCP servers execute tasks, providing a modular and trustless backend for blockchain operations. This creates a seamless, secure, and accessible experience for both crypto-native users and developers, enabling them to interact with decentralized systems without the risks associated with traditional AI agents. PILSO OS is wallet-agnostic, chain-agnostic, and LLM-agnostic, meaning it can work with various wallets (starting with MetaMask), blockchains, and LLMs, making it highly flexible and extensible. Why It Matters As AI and cryptocurrency converge, thereâs a growing need for secure, user-friendly interfaces that allow non-technical users to engage with blockchain technology while maintaining control over their assets. PILSO OS fills this gap by providing a secure, non-custodial platform that leverages AI to simplify Web3 interactions. It eliminates the need for users to share private keys with AI agents, reduces custodial risks, and offers developers a programmable layer to build custom solutions. With wallets standardizing signing APIs, LLMs becoming more programmable, and user expectations for security rising, PILSO OS is positioned as a critical infrastructure layer for the future of decentralized systems. Example in Action Imagine a crypto user named Alice who wants to bridge XXX USDC from Ethereum to the Optimism network. Without PILSO OS, Alice would need to navigate a decentralized application (dApp) interface, understand technical terms like âbridgeâ and âgas fees,â and manually approve the transaction in her wallet. This process is error-prone and intimidating for non-technical users. With PILSO OS, Alice simply opens her MetaMask wallet and interacts with a PILSO-powered AI agent. She types or says, âBridge XXX USDC to Optimism.â The LLM interprets this command, the MCP server constructs the appropriate blockchain transaction, and MetaMask prompts Alice to sign the transaction locally. The process is secure (her private keys never leave her wallet), fast, and requires no technical knowledge. Meanwhile, a developer could use PILSOâs CLI tools to automate this process or build a custom agent to handle recurring bridging tasks, showcasing the platformâs flexibility for both casual users and technical builders. Key Features 1âŁSecure Wallet Signatures: Transactions are signed locally by the userâs wallet, ensuring private keys remain unexposed. 2âŁNatural Language Interface: Users can issue commands in plain language, abstracting away complex blockchain jargon. 3âŁModular MCP Servers: Trustless, composable servers handle specific blockchain tasks like signing, deploying, or fetching data. 4âŁRole-Based Agents: Agents can be configured with specific behaviors and permissions (e.g., âsignerâ or âdeveloperâ). 5âŁCLI for Developers: Advanced users can customize and automate sessions using command-line tools. 6âŁNon-Custodial Design: No middleman wallets or token approvals are needed, ensuring full user control. 7âŁExtensibility: Developers can integrate custom MCP servers or build new tools on top of PILSO OS. PILSO OS is building a secure, AI-driven bridge between users and Web3 infrastructure. By combining LLMs with modular, trustless execution and wallet-based signing, it offers a user-friendly, secure, and extensible solution for interacting with blockchains. Whether youâre a crypto enthusiast sending tokens or a developer building decentralized applications, PILSO OS provides the tools to operate securely and efficiently in the evolving AI x crypto landscape. U in yet @IncomeSharks? $oGPU $GRAY $PRIVIX $ETH $OSCA $TAO  XXX engagements  **Related Topics** [coins wallets](/topic/coins-wallets) [web3](/topic/web3) [gpt](/topic/gpt) [onchain](/topic/onchain) [stocks technology](/topic/stocks-technology) [blockchain](/topic/blockchain) [coins ai](/topic/coins-ai) [artificial](/topic/artificial) [Post Link](https://x.com/feelwet_/status/1947267116660404269)
[GUEST ACCESS MODE: Data is scrambled or limited to provide examples. Make requests using your API key to unlock full data. Check https://lunarcrush.ai/auth for authentication information.]
Feelwet @feelwet_ on x XXX followers
Created: 2025-07-21 12:07:13 UTC
@Pilso_OS / $PILSO What is PILSO OS? 𧩠PILSO OS (Pilot Interface for LLMs Signature Operations) is an innovative operating system designed to bridge the gap between artificial intelligence (AI) and blockchain technology, specifically for secure onchain operations. It enables large language models (LLMs), such as Claude or GPT, to interact with Web3 infrastructure, like wallets and blockchains, through natural language commands. By integrating secure wallet signatures, modular backend servers (MCP servers), and a user-friendly interface, PILSO OS allows both everyday users and developers to perform complex blockchain tasksâsuch as token transfers or smart contract deploymentsâwithout needing to write code or expose sensitive private keys.
What Are They Building? The team behind PILSO OS is developing a secure, modular, and non-custodial platform that acts as a protocol-level layer in the Web3 ecosystem. It combines the power of LLMs with blockchain execution in a way that prioritizes security and usability. Unlike traditional AI agents in Web3, which often require access to private keys (introducing significant security risks), PILSO OS keeps the userâs wallet as the sole signer of transactions. The LLM acts as a "pilot," interpreting user instructions, while MCP servers handle specific blockchain tasks, such as signing transactions or fetching chain data, in a trustless and modular manner.
What Is It About? PILSO OS is about simplifying and securing the interaction between AI and blockchain technology. It addresses a critical problem in the Web3 space: most AI agents require access to private keys or rely on custodial solutions, which compromises security and trust. PILSO OS flips this model by ensuring that:
đThe wallet remains the signer, keeping private keys secure and unexposed.
đThe LLM interprets user intent, allowing natural language commands like âSend XX USDC to Optimismâ instead of requiring technical expertise.
đMCP servers execute tasks, providing a modular and trustless backend for blockchain operations.
This creates a seamless, secure, and accessible experience for both crypto-native users and developers, enabling them to interact with decentralized systems without the risks associated with traditional AI agents. PILSO OS is wallet-agnostic, chain-agnostic, and LLM-agnostic, meaning it can work with various wallets (starting with MetaMask), blockchains, and LLMs, making it highly flexible and extensible.
Why It Matters As AI and cryptocurrency converge, thereâs a growing need for secure, user-friendly interfaces that allow non-technical users to engage with blockchain technology while maintaining control over their assets. PILSO OS fills this gap by providing a secure, non-custodial platform that leverages AI to simplify Web3 interactions. It eliminates the need for users to share private keys with AI agents, reduces custodial risks, and offers developers a programmable layer to build custom solutions. With wallets standardizing signing APIs, LLMs becoming more programmable, and user expectations for security rising, PILSO OS is positioned as a critical infrastructure layer for the future of decentralized systems.
Example in Action Imagine a crypto user named Alice who wants to bridge XXX USDC from Ethereum to the Optimism network. Without PILSO OS, Alice would need to navigate a decentralized application (dApp) interface, understand technical terms like âbridgeâ and âgas fees,â and manually approve the transaction in her wallet. This process is error-prone and intimidating for non-technical users. With PILSO OS, Alice simply opens her MetaMask wallet and interacts with a PILSO-powered AI agent. She types or says, âBridge XXX USDC to Optimism.â The LLM interprets this command, the MCP server constructs the appropriate blockchain transaction, and MetaMask prompts Alice to sign the transaction locally. The process is secure (her private keys never leave her wallet), fast, and requires no technical knowledge. Meanwhile, a developer could use PILSOâs CLI tools to automate this process or build a custom agent to handle recurring bridging tasks, showcasing the platformâs flexibility for both casual users and technical builders.
Key Features
1âŁSecure Wallet Signatures: Transactions are signed locally by the userâs wallet, ensuring private keys remain unexposed.
2âŁNatural Language Interface: Users can issue commands in plain language, abstracting away complex blockchain jargon.
3âŁModular MCP Servers: Trustless, composable servers handle specific blockchain tasks like signing, deploying, or fetching data.
4âŁRole-Based Agents: Agents can be configured with specific behaviors and permissions (e.g., âsignerâ or âdeveloperâ).
5âŁCLI for Developers: Advanced users can customize and automate sessions using command-line tools.
6âŁNon-Custodial Design: No middleman wallets or token approvals are needed, ensuring full user control.
7âŁExtensibility: Developers can integrate custom MCP servers or build new tools on top of PILSO OS.
PILSO OS is building a secure, AI-driven bridge between users and Web3 infrastructure. By combining LLMs with modular, trustless execution and wallet-based signing, it offers a user-friendly, secure, and extensible solution for interacting with blockchains. Whether youâre a crypto enthusiast sending tokens or a developer building decentralized applications, PILSO OS provides the tools to operate securely and efficiently in the evolving AI x crypto landscape.
U in yet @IncomeSharks?
$oGPU $GRAY $PRIVIX $ETH $OSCA $TAO
XXX engagements
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