GitBook Assistant Ask chevron-down Resources Technical Information Blockchain architecture, smart contract specifications, security measures, and environmental impact disclosures for $FAN token.
Blockchain Infrastructure
Networks Supported
$FAN operates on two EVM-compatible networks:
Network
Type
Purpose
Gas Cost
Primary contracts, maximum security
Layer 2 (Optimistic Rollup)
Daily transactions, scalability
Why This Architecture
Ethereum (L1):
Highest security and decentralization
Largest developer ecosystem
Industry standard for token contracts
Base (L2):
10-100× cheaper transactions
Seconds settlement (vs. minutes on L1)
Inherits Ethereum security
Built by Coinbase (trusted infrastructure)
Cross-chain functionality: Tokens bridgeable between L1 and L2 via official Base bridge.
Smart Contract Specifications
$FAN Token Contract
No (supply permanently fixed)
Yes (emergency only, multisig)
Contract Address: [TO BE PUBLISHED AT TGE]
Source Code: [GITHUB REPOSITORY PLACEHOLDER]
Staking Contract
Pro-rata based on stake share
Emissions Schedule:
Reward Formula:
Governance Contract
[THRESHOLD PLACEHOLDER] $FAN
10% of circulating supply
48 hours (execution delay)
Liquidity Pool Contract
[PRIMARY DEX PLACEHOLDER]
50,000,000 $FAN + [ETH AMOUNT]
Burned (sent to 0x000...dead)
LP Burn Transaction: [TO BE PUBLISHED AT TGE]
Security Architecture
Smart Contract Security
Pre-Launch Audits:
Audit Scope:
Token contract (ERC-20 compliance, supply controls)
Staking contract (reward calculations, cliff logic)
Governance contract (voting mechanics, timelock)
Access controls and admin functions
Post-Launch Security:
$10,000 - $100,000 rewards
24/7 on-chain activity monitoring
Documented procedures, multisig response
[INSURANCE STATUS PLACEHOLDER]
Access Controls
Multisig Configuration:
Function
Required Signatures
Signers
Treasury Spending (<$100K)
Treasury Spending (>$100K)
Admin Functions:
Emergency pause (security incidents only)
Fee parameter updates (via governance)
Treasury disbursement (within approved budgets)
No Admin Can:
Override governance votes
TLS 1.3 encryption (HTTPS)
Cloudflare protection + rate limiting
Wallet signature (no passwords stored)
Encryption at rest (AES-256)
AWS with multi-region redundancy
Technical Limitations
Known Constraints
Constraint
Description
Mitigation
Ethereum L1 transactions can be expensive
Use Base L2 for daily transactions
L2 withdrawals have 7-day challenge period
Plan ahead for large L1 transfers
Blockchain throughput limited
L2 scaling, batch transactions
Wallet setup guides provided
Smart Contract Risks
Even with audits, smart contracts may have:
Undiscovered vulnerabilities
Logic errors in edge cases
Unexpected interactions with other contracts
We cannot guarantee contracts are bug-free. Participate accordingly.
Blockchain Network Risks
Higher fees, slower transactions
Transaction reversals (rare)
Temporary network disruption
Cross-chain transfer risk
Interoperability
Wallet Compatibility
$FAN works with any ERC-20 compatible wallet:
Most popular, browser + mobile
Hardware wallet (maximum security)
Exchange Compatibility
$FAN is standard ERC-20, compatible with:
Decentralized exchanges (Uniswap, Aerodrome, etc.)
Centralized exchanges (listing dependent on exchange policies)
Aggregators (1inch, Paraswap, etc.)
Developer Integration
Available Resources:
Contract ABIs (Application Binary Interfaces)
JavaScript/TypeScript SDK
Repository: [GITHUB PLACEHOLDER]
Environmental Impact Disclosure
Consensus Mechanism
$FAN operates on networks using Proof of Stake (PoS) consensus:
Network
Consensus
Energy Model
~99.95% less energy than PoW
Minimal additional energy
Energy Consumption
Post-Merge Ethereum:
Annual energy: ~0.01 TWh (comparable to a few thousand US homes)
Per-transaction: ~0.03 kWh (equivalent to ~2-3 VISA transactions)
Carbon footprint: Minimal compared to pre-merge PoW
Comparison:
System
Energy per Transaction
We chose Ethereum + Base specifically for energy efficiency:
No energy-intensive mining required
Validators stake capital, not compute power
L2 batches transactions for efficiency
$FAN does not contribute to cryptocurrency mining energy concerns.
Environmental Commitment
[COMPANY NAME PLACEHOLDER] commits to:
Operating on energy-efficient PoS networks only
Transparency about infrastructure energy use
Supporting Ethereum's sustainability initiatives
Considering environmental impact in future chain decisions
On-Chain Data (Public)
The following is publicly visible on blockchain:
Wallet addresses holding $FAN
Transaction history (transfers, stakes, votes)
Staking positions and rewards
Blockchain is public by design. Assume all on-chain activity is visible.
We do not:
Collect personal identity information (no KYC for basic use)
Share data with advertisers
Track across other websites
GDPR Compliance
For EU users:
Right to access your data
Right to data portability
Right to erasure (off-chain data only; on-chain is immutable)
Technical Glossary
Ethereum token standard enabling fungible token functionality
Ethereum Virtual Machine - runtime for smart contracts
Layer 1 (base blockchain) / Layer 2 (scaling solution)
Wallet requiring multiple signatures to execute transactions
Delay between governance approval and execution
Proof of Stake - consensus mechanism based on staked capital
Fee paid for blockchain computation
Protocol for transferring assets between chains
Application Binary Interface - contract interaction spec
Verification Resources
Contract Verification
All contracts verified on:
Etherscan: [LINK PLACEHOLDER]
Basescan: [LINK PLACEHOLDER]
[AUDITOR 1]: [LINK PLACEHOLDER]
[AUDITOR 2]: [LINK PLACEHOLDER]
Transaction hash: [LINK PLACEHOLDER]
Dead address: 0x000000000000000000000000000000000000dEaD
Official Channels
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Beware of Scams: Only use official links above. We will never DM you first asking for funds or private keys. Verify contract addresses before any transaction.
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