botctl vs SMF (Semantic Memory Filesystem)

botctl is a Go-based CLI/TUI/web process manager purpose-built for running and orchestrating persistent autonomous AI agents. Where most AI tooling focuses on one-shot completions, botctl is designed for bots that need to keep running — sleeping, waking on schedule, resuming after a pause, and persisting memory across sessions. Bots are defined as BOT.md files: a YAML frontmatter block sets the configuration (schedule, skills, memory settings, log retention), and the markdown body is the system prompt. This declarative format makes bots versionable, shareable, and auditable. A built-in skills system lets bots tap into extended capabilities, and the session persistence layer means a bot can pick up exactly where it left off after a restart or pause. The tooling stack is pragmatic: a terminal TUI for local oversight, a web dashboard for remote access, and a clean REST API for integration. With just 25 GitHub stars as of April 9, botctl is deeply indie — the kind of tool that gets discovered by a few hundred developers and quietly becomes infrastructure for serious builders.

SMF (Semantic Memory Filesystem) is an open-source Python library that treats the POSIX filesystem as the native memory infrastructure for AI agents. The core bet: instead of standing up a vector database, embedding service, and retrieval pipeline, you model your agent's memory as ordinary directories, files, and symlinks — then use the OS's own tools for retrieval. Entities are directories, relationships are symlinks, metadata is file attributes, and search is built on grep and find. The appeal is radical simplicity. Every developer already understands the filesystem. Memory built on top of it is inspectable with any editor, versionable with git, and portable across machines with rsync. There's no new query language to learn, no vector index to maintain, and no external service to keep running. Dynamis-Labs argues that for many agent memory use cases, semantic similarity search is overkill — you need entity graphs and efficient lookup, which the filesystem already provides. With only 7 stars and created yesterday (April 14), SMF is in very early stages. But the approach has attracted immediate discussion from developers frustrated with the operational overhead of vector databases for relatively structured memory tasks. It's a contrarian bet that's worth watching.