QSCSCoreV2 is now production ready and serving the entire Spook Systems site.
The browser runs a small WASM state machine, and all navigation is handled through the QSCS substrate using deterministic deltas instead of full payloads.
Over the next few days I’ll preparing the documentation site, including apt‑based installation, configuration guides, and multi‑domain deployment patterns.
https://spooksystems.io/
Shipped a fun milestone tonight: QSCSCore v1.1 is now running its first fully distributed request demo.
A tiny static binary that boots instantly, opens a single entangled link on TCP:4443, and pulls back a remote HTML page through a deterministic delta substrate. No HTTP server, no system resolver, no dependencies.
There’s a hidden page at spook.systems/public/demo see if you can reach it?
Pushed a small update today: the QSCSCore v1.1 daemon now has a public runtime demo.
It’s a fully static 3 MB binary that boots, loads its registries, and processes state transitions over a UNIX socket. The demo replays a real run — registry load, identity init, delta creation, the whole flow — all in a safe, read‑only terminal.
If you like lightweight systems, deterministic state machines, or just enjoy watching a daemon come to life, you can try it here:
Pushed a QSCS update this morning — the Quantum Layer is now documented.
It’s a deterministic substrate for coordinating classical nodes and quantum processors through a shared state model. Hardware‑agnostic, reproducible, strict trust boundaries.
Still early, but the architecture feels clean: API → protocol → deterministic state, all via a small C++ daemon.
Happy to hear thoughts.
QSCS Trust Layer – identity‑led synchronisation without anonymous TLS.
We’ve been exploring what trust domains look like when identity comes before encryption.
QSCS uses hashed UUID anchors to eliminate handshake‑level probing and metadata exposure entirely.
If you’re into distributed systems, trust boundaries, or protocol minimalism, here’s the write‑up:
https://spooksystems.io/qscs-trust.html
Spent the last few months deep in protocol design, and the architecture for Spook Systems is finally in a place I’m proud of.
Published the full layered model (ETCP → ESTP → QSCS → QN) and a 55‑page whitepaper covering deterministic shared‑state sync, collapse/decoherence, multi‑register correlation, and multi‑node coordination.
If you’re into distributed systems, CRDTs, transport layers, or quantum‑adjacent orchestration, I’d love to hear your thoughts.
Working on a deterministic shared‑state transport layer inspired by entanglement. Trying to simplify distributed systems by removing consensus, metadata, and multi‑port noise.
Working on a deterministic shared‑state transport layer inspired by entanglement. Trying to simplify distributed systems by removing consensus, metadata, and multi‑port noise.