I Explain from Two Sides
This concept marries strategic wisdom with technical precision. Let's see how nano logic works.
For Directors & Executives
"In my straightforward terms"
“I used to study nanotechnology in Germany. The principle: at a very small scale, the nature of matter changes. Gold can become red. Aluminum can explode. Now, in finance, if we break down assets to the atomic level – liquidity explodes, transaction costs approach zero, and everyday people can participate in funding research.”
Extreme miniaturization
Buy a small fraction of a patent starting from Rp 1,000. Everyone can play a role in the nation's technological research.
Smart money
Research funds are programmed solely for lab needs – they can't be used to buy cars. This locks the budget right on target.
Self-governing
Small investors can automatically join to form a self-sustaining hedge without intermediary banks.
Quantum physics-style valuation
Asset prices aren't one absolute number, but a probability cloud. This honestly represents research risks.
For CTOs & Engineers
"In my technical terms"
“I don't like small talk. This is the technology architecture running under the hood.”
Token standard: ERC-1155
With royalty logic embedded directly in the smart contract layer for gas efficiency.
Permissioned EVM Consensus
Running on a permissioned chain. Guaranteeing KYC complies with OJK standards, cost-efficient, and high throughput.
Settlement: Continuous
No T+2 working days. Instant consensus ensures once a transaction occurs, settlement is immediately recorded and valid.
Probabilistic Oracle
Ingest real-time data (weather, logistics supply, etc.) on-chain for entangled risk models.
Platform Data Architecture
Patent
Underlying asset (IP)
Tokenization
Broken into nano fractions
Smart Contract
Research fund logic
Secondary Market
Buy / Sell Liquidity
Automated Royalties
To researchers & investors
Cryptographic Foundation: Merkle Tree Structure
Many academics and experts ask: "How can NanoNusa divide 1 patent into tens of millions of tokens without making the blockchain system slow or consuming massive server space?"
The answer lies in the Merkle Tree algorithm. Instead of recording the transfer of billions of coins one by one into the main blockchain (EVM), our architecture mathematically "compresses" the entire list of coin owners into a single, extremely small (32-byte) identity fingerprint.
Merkle Root
A single hash stored within the Smart Contract. This acts like a mathematical 'vault seal' validating that our database has not been manipulated in the slightest.
Merkle Proof
When you want to sell coins, you only include your specific computational footprint (Proof). The system can instantly determine the coin's legitimacy without checking the entire database of other patent coins.
Leaves (Millions of Tokens)
Your actual token data (Leaves) is executed instantly and cost-effectively in our settlement layer (AppChain/Rollup).
0x8a9b...f3c
Main Root Hash
Token #1
Token #3
Millions of Other Coins