JERT Network • Economic Engine

Tokenomics built on
infrastructure utility

JERT is positioned as an infrastructure settlement layer linked to access units for cold energy, compute capacity, and SLA-backed availability, with a new Cold Energy Swap Price Model as the primary physical value anchor.

Open Tokenomics Open Pitch

1T Fixed genesis supply

100 JERT = 142 kWh cold anchor

100B Launch allocation (10%)

Aktobe Genesis infrastructure node

Settlement logic - physical infrastructure to ledger

Cold Energy Unit MWh_cold from LNG regasification and industrial refrigeration access.

Compute Unit TBh-vram representing GPU VRAM allocation over time.

SLA Container Unit container-day representing guaranteed compute island availability.

every infrastructure action creates a JERT delta entry

JERT Settlement Core

Cold → LNG regas terminals

Compute → GPU container nodes

SLA → autonomous compute islands

Ledger categories: COLD, COMPUTE, SLA, TRANSFER, TREASURY, OWNER, COMPLIANCE

Utility Principle Token demand is linked to real infrastructure consumption.

Cold Energy Swap Price Model Primary price anchor: 100 JERT = 142 kWh cold recovered from 1 tonne LNG.

Commercial Anchor Economics tied to compute revenue, SLA contracts, and energy-linked services.

Section 01 • Infrastructure Access Units

Three measurable access layers.

The economic framework uses physical capacity units and JERT delta accounting to connect infrastructure usage with digital settlement.

Cold. Compute. SLA.

Cold Energy Unit Quantity format: MWh_cold. Used for LNG cold storage, industrial refrigeration, cold logistics, and cryogenic compute cooling.

Compute Unit Quantity format: TBh-vram. Defined as one terabyte of GPU VRAM allocated for one hour.

SLA Container Unit Quantity format: container-day. One autonomous compute container available for 24 hours.

Section 02 • Cold Energy Swap Price Model

Recovered LNG cold becomes the first price anchor.

The model anchors is JERT to a measurable cold-energy recovery logic linked to LNG and CO₂ avoidance.

100 JERT 142 kWh Cold Primary physical anchor based on recoverable cold from 1 tonne LNG.

1 JERT 1.42 kWh Primary cold energy value per token.

1 JERT 0.0055 MMBtu Secondary LNG linked reference for investor readability.

1 JERT 0.30–0.55 kg CO₂ Derived avoided-emission value from not producing equivalent cold electrically.

Section 03 • Launch Policy

Fixed supply. Bounded launch corridor.

Supply is fixed at genesis. Launch liquidity allocation is limited to 100B JERT, with trading structured in a defined ETH price band and four segmented ranges.

0.000001 ETH 0.000010 ETH

Range 1 0.000001 → 0.000002 ETH Allocation: 30B JERT

Range 2 0.000002 → 0.000004 ETH Allocation: 25B JERT

Range 3 0.000004 → 0.000007 ETH Allocation: 25B JERT

Range 4 0.000007 → 0.000010 ETH Allocation: 20B JERT

Section 04 • Supply Logic

Launch is constrained by utility discipline.

The model uses fixed genesis supply, treasury restrictions, and no additional treasury selling above the maximum launch range.

Total Supply 1,000,000,000,000 JERT fixed at genesis.

Launch Allocation 100,000,000,000 JERT, equal to 10% of total supply.

Treasury Policy No sales below the floor price, no new supply bands above the upper launch range, no artificial market-making.

Long-Term Principle JERT price is intended to remain aligned with infrastructure utility value.

Section 05 • DC Island Economics

One autonomous node can generate real infrastructure revenue.

The economic engine describes a compute-and-energy island with 10 GPU servers, 40 GPUs, a 300–600 kW energy module, heat recovery, and LNG cold recovery.

$230k Compute Revenue Approximate monthly blended compute revenue per DC Island.

$100k–$300k SLA Contracts Typical reserve compute capacity contracts for institutional users.

$330k–$530k Total Revenue Possible monthly revenue per container island.

3–5 years Payback Estimated payback depending on utilization and deployment conditions.

Section 06 • SLA Commercial Layer

Reserved compute becomes a monetizable infrastructure service.

The SLA offer frames compute resilience as a service measured in reserved capacity, with reserve, active, priority, and burst tiers.

Reserve Capacity €8,000 - €12,000 per TB / month

Active Capacity €5,000 - €8,000 per TB / month

Priority Capacity €12,000 - €18,000 per TB / month

Burst / Emergency €15,000 - €25,000 per TB per activation, with availability targets in the 99.9%–99.99% range and activation in 0-5 minutes.

Section 07 • Aktobe First Node

Aktobe is the genesis infrastructure node.

The first deployment location combines LNG regasification, cold energy recovery, DC reserve compute, and heat recovery into one physical base.

Aktobe first. Corridor later.

LNG Regasification Primary cryogenic source and terminal utility anchor.

Cold Energy Recovery Thermal loss converted into industrial cooling value.

Compute Reserve Node Autonomous digital infrastructure with GPU-backed service capacity.

Heat Recovery Network Additional energy efficiency and service monetization layer.

Section 08 • Partner Model

Multi-layer partner participation.

The network is designed around infrastructure owners, operators, technology providers, and ecosystem users.

P1 - Infrastructure Owners Physical node owners such as LNG terminals, compute islands, and data centers. Revenue share: 40–60%.

P2 - Operators Operational support, maintenance, and SLA compliance. Revenue share: 15–25%.

P3 - Technology Providers Hardware and engineering suppliers such as ABB, Schneider Electric, Alfa Laval, and NVIDIA ecosystem partners.

P4 - Ecosystem Users Banks, governments, logistics operators, AI companies, and cloud consumers of capacity subscription services.

Section 09 • Closing

JERT tokenomics are designed to follow infrastructure reality, not abstract speculation.

The model links launch discipline, measurable access units, Cold Energy Swap pricing, reserve compute monetization, and the Aktobe-first deployment strategy into one economic narrative.

Tokenomics built on infrastructure utility