The Synchronization Layer
for the Distributed Era.
Timeverse provides the foundational layer for interoperable phase-coordination across Human, AI, and Quantum systems. We move beyond absolute timestamps to a framework of tick-canonical windows, signed execution, and measurable alignment.
Coordinate by phase. Verify by receipts. Anchor by proofs.
One Protocol. Four Dimensions.
A unified stack for coordination, security, and alignment across critical domains.
Quantum HS-Bloch
SLA-backed verification and anchoring. We provide the HS-Bloch protocol for 'Quality-Aware' scheduling on noisy QPUs.
- Phase-Window Gating
- Coherence Magnitude (cu16) proxy
- HS-bits metering standard
Cyber ZTT
Private deployments, measurable guarantees. We provide Phase-Gated validity to block replay attacks and stale execution.
- Anti-Replay Store (Nonce + Horizon)
- SignedTemporalRequest (SignedQAddr)
- TSAE Receipts for Audit
AI Alignment
Coordinating multi-agent systems without a central clock. TPE (Temporal Phase Encoding) allows AI swarms to synchronize actions via shared windows.
- Robustness to Network Latency
- Distributed Consensus without Leader
- Tick-Canonical Decision Logic
Human Interface
HTIL (Human Temporal Interface Layer). Visualizing Timeverse via the 12HS Ring, CapsuleTime, and Space-Time Maps.
Hardware Product
T-Watch Compass Clock
Interactive Protocol Demo
Experience the core principle of Timeverse: the direct, mathematical link between temporal phase and spatial coordinates.
1. Control Temporal Phase (HS°)
T2 Date
Calculating...
HS° 0.0
HS Index: 6
2. Observe Spatial Zone (SWT)
Drag the handle on the T-Watch dial. As the HS° phase changes, the corresponding Simplified World Time (SWT) zone is highlighted on the map, demonstrating the deterministic `HS/12 = SWT/12` relationship.
From the Lab
The latest research, announcements, and deep dives from the Timeverse project.
Scaling the HS-Bloch Scheduling Protocol on High-Performance Quantum Architecture.
September 10, 2025
Timeverse: La Couche Temporelle Manquante pour le CyberSOC Mobile
Analyse stratégique de la manière dont Timeverse complète et sécurise les opérations de cybersécurité mobiles, en prévision de la Semaine Régionale de la Cybersécurité à Rabat.
May 20, 2024
Welcome to the Timeverse Blog
An introduction to our mission and the future of temporal technology. Discover the core ideas behind Timeverse and why a new synchronization layer is critical for the distributed era.
Timeverse Research Lab
Advancing the Science of Temporal Coordination.
We are building the theoretical and engineering foundations for a world where time is a measurable resource, not just a clock. Timeverse Research Lab is actively collaborating with industry leaders to benchmark its protocols. In January 2026, the Lab was selected to join the Fujitsu Quantum Simulator Challenge, applying the HS-Bloch protocol to industrial optimization problems on high-performance quantum architecture.
Active Projects
Quantum HS-Bloch @ Fujitsu
Deploying the Timeverse Phase-Aware Scheduler on Fujitsu's 40-qubit Quantum Simulator. Objective: Validate the HS-Bloch protocol for large-scale MO-MAXCUT optimization using QARP.
Temporal Zero Trust Gateway
Development of the reference API middleware for validating SignedTemporalRequests (Anti-Replay & Phase Gating).
Publications
Open-access Zenodo Archive
Theorem of Temporal Resolution Limitation (v1.1)
Quantum HS°: Resource Theory of Temporal Alignment (v1.2)
Timeverse Security Profile & Anti-Replay Architecture
Phase-Coordination Series Conventions
All papers are minted with DOIs for academic citation.
Learn, Build, and Contribute
Whether you're a researcher, developer, or student, we have the resources to get you started.
Deep Dive into the Docs
Copy, paste, run: Verified windows in minutes. Tick-canonical. No-float. Replay-safe.
Timeverse Academy
Learn how the Timeverse model provides a new framework for understanding time as a computational resource, ideal for next-gen engineering curricula.
Latest Updates & Research
Follow the Timeverse blog for the latest research announcements, deep dives into our protocols, and news from the lab.
BinuteCoin: ZTT-Secured Currency
The native payment protocol of the Timeverse. Every transaction is gated by a temporal window, making stolen keys useless for replay attacks and securing the digital economy against phase-based fraud.
Visit BinuteCoin.comT-Watch: The Hardware Anchor
The physical interface for the Timeverse. A secure element and compass clock that connects you to the T2 protocol. All reservations are handled exclusively through our official partner, HarmonySegment.
Visit HarmonySegment.comVision & Roadmap
A 5-year plan to build the foundational temporal layer for a coordinated, secure, and intelligent distributed future.
Protocol Hardening & Open Source
- Finalize Timeverse Protocol v5.0 with tick-canonical semantics.
- Release open-source reference implementations of the ZTT Gateway and TPE libraries.
- Establish the Timeverse Foundation to govern the protocol standard.
- Publish the full series of foundational papers on Zenodo with open DOIs.
Hardware & Developer Ecosystem
- Launch the first production run of the T-Watch hardware security module.
- Provide SDKs for major platforms (Rust, Python, JS) to integrate Timeverse.
- Complete the Fujitsu Quantum Simulator Challenge, publishing results on HS-Bloch performance.
- Launch the BinuteCoin mainnet with T-Self-ID integration.
Strategic Deployments: Cyber & Finance
- Partner with a major financial institution to deploy the ZTT Gateway for API security.
- Deploy the IMSI-Catcher defense system with a national telecom partner.
- Launch "Timeverse Work" pilot program with SMEs in Morocco to validate the Base-6 economic model.
Quantum Integration & AI Safety
- Integrate the HS-Bloch protocol with a physical quantum computer via cloud access.
- Develop a standardized "Phase-Gated Kill Switch" for AGI safety, proposed as an industry standard.
- Deploy the first multi-agent AI swarm (robotics/drones) coordinated entirely by TPE.
Interplanetary & AGI Coordination
- Demonstrate Earth-Mars time synchronization for a space agency using the multi-planetary protocol.
- Publish the first results on long-term climate modeling using the 30-Year Cycle (T_cyclezero).
- Release the specification for Universal Spatio-Temporal Addressing for routing quantum information.
Stay Ahead of the Curve
Subscribe to our newsletter to receive the latest research updates, protocol specifications, and news from the Timeverse Research Lab directly to your inbox.