Web3 adoption has taken another step forward following the joint launch of the CAT Node platform by CAT Terminal and PinPet. The initiative has been positioned as an effort to foster a sustainable and high-quality Web3 cryptocurrency community by combining decentralized trading infrastructure with AI-powered node participation. Through this collaboration, both platforms aim to expand community-driven engagement while strengthening the underlying ecosystem on the Solana blockchain.
The CAT Node platform has been introduced with an initial recruitment phase that includes 200 Honor Nodes and 2,000 Foundation Nodes. This structure reflects the project’s ambition to establish itself as Solana’s first AI-focused meme-oriented node platform within the Web3 information and community space. The broader objective is to encourage long-term participation, value creation, and ecosystem resilience through decentralized node governance and incentives.
PinPet’s Role in Advanced Decentralized Trading
PinPet contributes to the partnership as a Solana-based decentralized exchange specializing in leveraged trading. The platform has been described as a next-generation DEX that integrates automated market maker spot trading, automated lending pools, and multi-layer risk control into a single hybrid engine. This architecture allows users to issue tokens, conduct spot trades, and execute leveraged long or short positions within a unified workflow.
By supporting leverage ranges from 3x to 10x, PinPet enables traders to enhance capital efficiency while maintaining flexibility in their strategies. The platform’s zero-barrier token issuance model further lowers entry thresholds for projects and users, allowing rapid market participation without complex onboarding processes. These features align with the broader goal of making decentralized finance more accessible and efficient for a global user base.
CAT Terminal’s Community-Driven Vision
CAT Terminal brings a strong community foundation to the collaboration. Launched fairly on the PumpFun platform, CAT Terminal integrates Web3 infrastructure with AI computing power models. It is supported by a decentralized community spanning regions such as Dubai, South Korea, Japan, and Vietnam. Since its launch, the platform has reportedly attracted more than 17,000 users, reflecting growing interest in its community-centric and technology-driven approach.
The project has also secured strategic backing from several crypto-focused institutions, reinforcing its ambition to develop into a long-lasting meme ecosystem. Rather than focusing solely on short-term market trends, CAT Terminal has emphasized resilience across market cycles and sustained user engagement. This long-term perspective underpins its decision to collaborate with PinPet on a node-based ecosystem that rewards participation and contribution.
The CAT Node Platform and Ecosystem Development
The newly launched CAT Node platform represents the practical outcome of the partnership between CAT Terminal and PinPet. With its official rollout, the platform has initiated node recruitment designed to support ecosystem co-construction and incentive alignment. Through its node mechanism, CAT Node is expected to promote shared governance, community rewards, and gradual value accumulation.
The platform is being developed as an AI Cat Universe node ecosystem on Solana, blending meme culture with artificial intelligence and decentralized infrastructure. By encouraging users to participate as nodes, the project aims to distribute responsibility and benefits across the community rather than concentrating control. This approach is intended to strengthen trust, engagement, and sustainability over time.
Overall, the launch of the CAT Node platform highlights a growing trend in Web3 toward community-driven ecosystems that integrate trading, AI, and decentralized governance. Through the combined strengths of PinPet’s trading infrastructure and CAT Terminal’s expanding community, the initiative seeks to establish a new model for sustainable growth within the Solana ecosystem.