{"id":"cortex-ai-software-autonomous-ai-trading-agent-mcp-flash-arb-engine","name":"Autonomous-AI-Trading-Agent-MCP-Flash-Arb-Engine","af_score":29.0,"security_score":28.2,"reliability_score":16.2,"what_it_does":"A desktop and developer-focused tool that claims to provide an autonomous AI trading agent (via MCP) and a multi-chain flash-arbitrage execution engine across Solana and multiple EVM/L2 networks, including “MEV protection” and “slippage protection.”","best_when":"You need a developer-friendly prototype to experiment with MCP-driven agent workflows and automated arbitrage logic, and you can independently validate safety and performance.","avoid_when":"You need a well-specified, audited, production-grade trading system with clear API contracts, documented rate limits, and robust operational/error semantics.","last_evaluated":"2026-03-30T15:31:14.686264+00:00","has_mcp":true,"has_api":false,"auth_methods":["Wallet connection (implied via on-screen setup)","API keys for CEX/DEX (mentioned as prerequisites)"],"has_free_tier":false,"known_gotchas":["Trading systems are highly sensitive to state changes (liquidity, slippage, MEV) and can fail nondeterministically; retries may not be safe without idempotent transaction semantics.","If MCP tool behaviors are not fully specified (inputs/outputs, timeouts, retry policy), agents may produce invalid calls or loop on failures.","If the system executes live trades, ensure the agent has strong guardrails (position limits, approval checks, dry-run modes) and clear separation between simulation and execution."],"error_quality":0.0}