VION
On-chain flow → live synaptic signal
VION compresses market microstructure into an interpretable neuromorphic signal: read G & Momentum in seconds, not hours.
Device-inspired modeling: spike activity, dual-decay conductance, momentum gain.
Creator fee allocation
Fixed allocation: 50 research · 35 product development · 10 marketing · 5 team.
| Category | Value |
|---|---|
| A. Research Donations | 50% |
| B. Product Developments and Expenses | 35% |
| C. Marketing | 10% |
| D. Team | 5% |
Research supports external labs; Product fuels VION's own signal tooling; Marketing grows distribution; Team covers ops.
Signal & model
Our model is inspired by real neuromorphic device physics: in NOMFET-class synaptic transistors, spikes travel through a nanoparticle channel, temporarily trapping charge and modifying conductance G. Each spike leaves a fading trace; fast decay (τfast) forgets noise, slow decay (τslow) preserves structure. Momentum modulates plasticity, making trends reinforce conductance while reversals erase it.
Although today this process runs in software on CPU/GPU rather than in physical devices, the dynamics remain faithful to the true hardware behavior of synaptic transistors. The Synapse Mirror is not a random visualizer, it is a neuromorphic simulation of stateful signal formation from orderflow. As the project evolves, creator fees help fund real NOMFET research, pushing toward live on-chain signals driven by actual neuromorphic hardware instead of computation alone.
How It Works
Nomentum transforms traditional market data into an interpretable neuromorphic signal by mapping buy/sell events to 'spiking' neural activity. Dual-decay conductance (fast and slow time constants) captures both immediate market reactions and lingering momentum, resulting in a human-readable G-score that evolves predictably and reveals microstructural patterns at a glance.
Device-level concept
A NOMFET (nanoparticle organic memory FET) is a synaptic transistor: its channel conductance behaves like a synapse with short-term plasticity. Pulse trains produce facilitation or depression; with appropriate timing, spike-timing-dependent effects appear.
- State: effective conductance G
- Dynamics: dual decay (fast/slow)
- Operation: low-voltage, room temperature
Data → device mapping
We map market events to synaptic "spikes". Net buy/sell flow adjusts G; liquidity stretches the slow time constant; short-horizon momentum modulates learning strength.
- Buys/Sells → ± spikes
- Liquidity → slower synapse
- Momentum → stronger/weaker learning
Why it matters
The Synapse Mirror exposes a compact, human-scannable signal grounded in neuromorphic principles. It rewards disciplined timing, reveals regime shifts quickly, and compresses noisy microstructure into a single evolving state.
- Fast visual read: G & Momentum
- Device-inspired interpretability
- Works at a glance
Primary sources: NOMFET Science & Documentation
Alibart et al. - Synapstor (NOMFET)
Memristive nanoparticle/organic synapstor that mimics synaptic plasticity. Core demonstration of NOMFET-class devices with facilitation/depression regimes.
Bichler et al. - Pavlov on NOMFET
Pavlov-style conditioning using timing-dependent plasticity on NOMFETs. Demonstrates spike-timing-dependent plasticity (STDP) in organic synaptic transistors.
Device paperAlibart et al. - Synapstor (NOMFET)
Memristive nanoparticle/organic synapstor that mimics synaptic plasticity.
ReviewNeuromorphic hardware 2024/2025
Landscape review referencing synaptic transistor classes incl. NOMFET.
ReviewNeuromorphic hardware 2024/2025
Landscape review referencing synaptic transistor classes incl. NOMFET.
Group pageIEMN/CNRS Lille - Vuillaume
Neuromorphic and molecular electronics research group.
Research status: What's proven, what's promising, what's missing
- Demonstrated: short-term plasticity; facilitating/depressing regimes. Cite Alibart 2010/2011.
- Demonstrated: associative learning (Pavlov; STDP timing). Cite Bichler 2013.
- Progress: broader organic synaptic transistor research (materials, low-voltage operation). Cite 2024/2025 reviews.
- Challenges: device variability, endurance, environmental stability of organics, CMOS co-integration roadmaps.
- Why funding helps: replication, packaging, voltage/retention optimization, reproducible protocols, benchmarking vs. oxide memristors.
Synapse Mirror: Market Activity → Neuromorphic Signal
Live on-chain data mapped to synaptic conductance. Buy pressure facilitates, sell pressure depresses. Read G and Momentum at a glance.
VION Dynamics Research Network
A selective collaboration program for researchers advancing synaptic electronics, neuromorphic devices, and organic nano-material systems.
The Research Network supports high-impact experimental work that advances NOMFET-class synaptic transistor science: reproducible device behavior, plasticity control, endurance, retention, CMOS compatibility, and neuromorphic application pathways.
University labs, independent research groups, and deep-tech teams working in neuromorphic hardware, molecular electronics, or memristive device physics. Prior experimental work is required; speculative proposals are not accepted.
This is a contribution exchange, not a grant lottery. Researchers contribute verified experiments, replication studies, or device data. In return, they receive global visibility in the VION ecosystem and eligibility for ongoing support through our Creator Fee allocation.
Process
Submit a multi-page proposal outlining your experimental approach, prior work in neuromorphic hardware, and expected outcomes. Include device metrics like plasticity range, endurance cycles, and CMOS compatibility demos.
Contribute verified data: replication studies, novel protocols, or organic device characterizations. All submissions are reviewed by our network for scientific rigor and alignment with NOMFET goals.
Successful contributors gain visibility through our publications and references. Eligible for ongoing support from Creator Fee allocations, providing sustained funding for neuromorphic research progression.
Where funds go
CNRS Foundation
Donation channel for CNRS labs. International routes exist for donors.
IEMN (CNRS / Univ. Lille)
Neuromorphic and molecular electronics; VION/NOMFET co-authors and collaborators.
University of Lille Foundation
Alternate path if a unit prefers university routing.
Receipts will be posted on our official X account. The collected funds are split equally among the three beneficiaries.
Roadmap
Now - Alpha (live)
- Device-inspired simulation: spikes → dual-decay → G & Momentum.
- Single-contract view, live HUD, basic integrity warnings (stale data, etc.).
- No wallet actions; research & UX feedback only.
Nov 12 - Beta (interface open)
- New interface: multi-token watchlist, quick pair switching, saved views.
- Wallet connect for portfolio overlays; alert rules for flow & regimes; order execution.
- On-chain integrity signals (holder concentration, basic contract flags).
- $VION gates advanced features/rate limits; manual by default (no default auto-trade).
- + Initiate Transparency Framework
Upcoming December - Post-Beta
- Offline replay/backtests, regime classifiers, reliability score.
- Early API for partners; exporter for state vectors.
- Micro Node prototype iterations (firmware cadence, thermals, enclosure).
Late December - Production / Final Launch
- Full auto-trading functions for configurable strategies based on neuromorphic signal models.
- Multi-asset support outside of Solana (e.g., Ethereum, BTC markets).
- Extended wallet integrations and Chain-Capabilities (ecosystem expansion).
- + Security Audit & Team Verification
Research track (ongoing)
- Selective collaborations with labs on synaptic transistors & packaging.
- Goal: move from simulation to device-driven signals over time.
FAQ
What is VION in one sentence?
A device-inspired engine that turns on-chain order flow into a live neuromorphic signal (G & Momentum) you can read at a glance.
Alpha vs. Beta - what's the difference?
Alpha (now): observe signals for a contract in the Synapse Mirror; no wallet actions. Beta (Nov 12): new interface with watchlist, insightful wallet overlays, alerts, and integrity checks; $VION gates advanced features.
How do I try it quickly?
Open OpenSynapse, paste a Solana contract, watch G & Momentum evolve. Use the HUD to spot facilitation/depression and short-horizon regime shifts.
Is this financial advice?
No. VION Dynamics provides an explanatory, device-inspired simulation of synaptic dynamics applied to market activity. It is for research and educational purposes only and does not constitute financial, investment, or trading advice. You are solely responsible for your decisions. Past performance and simulated signals are not guarantees of future results.
Data may be delayed or temporarily unavailable; when inputs degrade, the interface will mark status as "stale." The model is under active research and may change without notice.
Why the $VION token?
$VION is the access layer in Beta (feature tiers & rate limits) and later the payment method for pro modules. Treat it as experimental; there are no guarantees.
Are you running on real NOMFET hardware?
Today it runs as a faithful software simulation. Creator fees support research so we can move toward device-driven signals with lab partners over time.
Can a lab or group collaborate?
Yes! Apply to the VION Research Network with prior work and a concrete contribution plan. Visibility first, funding eligibility second.
How do I get access to the Beta interface?
Beta is token-gated. Access requires holding a minimum of $100 USDT equivalent in $VION, calculated in real-time using the current $VION/SOL on-chain price feed. Holdings are verified every 600 seconds during session polling. This ensures fairness, prevents abuse, and ties access to long-term network alignment rather than hype mechanics. Wallet connect arrives with Beta.
Will the $VION token remain on Pump.fun forever, or can it migrate?
$VION launched on Pump.fun as a fair and transparent Solana-native discovery route, but the contract is not permanently bound to this initial deployment. A token migration is technically feasible through a verified swap contract or a claim-based migration mechanism if required by security, utility, or cross-chain evolution. Migration would only occur if it materially improves long-term stability; for example to introduce upgradeable program logic, institutional custody compatibility, hardware-verifiable staking, or multi-chain signal routing. Any migration would be executed with immutable proof, transparent audit trails, and a deterministic claim window for holders.
Will $VION be listed on CoinGecko, CoinMarketCap or exchanges?
Yes. $VION will follow a progressive visibility path: first Solana-native aggregators, then CoinGecko and CoinMarketCap listing submissions, and later curated exchange integrations when core architecture is stable post-Beta. The objective is not speculative exposure but credible distribution for a research-driven product. Exchange listings will follow product readiness, legal review, and liquidity standards that preserve long-term integrity over short-term hype.