Auto Trading

Auto Trading

Smarter Allocation, Improved Performance - Methodology & Technology

Earn Farming designed to capture the best opportunities in DeFi. Auto Trading make it seamless to optimize across them, dynamically adjusting allocations for better efficiency and performance while keeping full control in the user's hands.

Why Use Auto Trading?

• One-click allocation optimization – Connect once, the shadow wallet will be automatically generated and connected to the farm to generate profits.

• Full automated control – Earn Farming does not make allocation decisions for users; Auto Trading follows predefined optimization rules.

• No lockups or cooldowns – Withdraw anytime, just like all Earn Farming products.

How It Works

1.Liquidity Supply

Supply Liquidity to CEX(Uniswap/Pancakeswap) – Select the best liquidity suited to their needs. Harvest automated smart contracts then optimize their allocations within 24 hours.

Automated rebalancing – Allocation adjustments can happen multiple times daily, factoring in:

Performance metrics – Automatically allocates to the most efficient liquidity based on market conditions.

Gas costs – Factors in network costs to ensure reallocation doesn’t reduce net benefits.

Liquidity considerations – Avoids vaults where large deposits could impact efficiency.

Dynamic allocation – Automation spreads funds across multiple liquidity based on automated criteria to maximize overall effectiveness.

2.Liquidity arbitrage

Earn Famring Smart Contracts are automated programs designed to maximize profits by exploiting opportunities within blockchain transactions. They operate within the decentralized finance (DeFi) ecosystem and leverage blockchain mechanics such as transaction ordering and gas price bidding to gain an advantage. These bots are particularly effective in networks like Ethereum, where miners or validators have control over transaction sequencing.

By analyzing mempool data (pending transactions) and executing precise strategies, smart contracts can extract significant value from various DeFi activities.

Gas Fee Optimization Earn Famring Smart Contracts are designed to calculate optimal gas fees to secure transaction precedence in blockchain networks. They analyze network congestion and bid strategically to minimize costs while maintaining high execution speed. By fine-tuning gas usage, these contracts strike a balance between profitability and efficiency, ensuring that their transactions are prioritized over others without unnecessarily inflating operational expenses.

Smart Contract Analysis Earn Famring Smart Contracts leverage algorithms to dissect smart contracts and identify exploitable patterns or lucrative opportunities. They assess variables like liquidity pools, token swaps, and arbitrage possibilities within these contracts. The smart contract feature is particularly useful in identifying vulnerabilities or overlooked rewards, allowing the contract to execute transactions that maximize profits while ensuring compliance with the logic and constraints embedded in the contracts.

Sniping Features Sniping features allow Smart Contracts to execute precise transactions at critical moments, such as acquiring tokens immediately after a liquidity pool is created or a new token is listed. By acting within milliseconds, these contracts gain an edge over manual traders. This feature is crucial for capturing early-mover advantages, particularly in volatile markets where timing can make the difference between profit and loss.

Mempool Tracking Smart Contracts constantly monitor the mempool, the staging area for pending blockchain transactions, to detect profitable opportunities. By analyzing transaction data before it is confirmed, these contracts can act preemptively, executing strategies like frontrunning, sandwiching, or liquidation. This real-time surveillance ensures that Smart Contracts stay ahead of competitors and capitalize on market inefficiencies swiftly and efficiently.

Distributed Architecture A distributed architecture enhances the reliability and speed of MEV contracts by decentralizing their operations across multiple nodes or systems. This setup reduces latency, increases fault tolerance, and ensures that the contract remains operational despite network disruptions or hardware failures. A distributed approach also enhances the contract’s ability to handle high transaction volumes, enabling faster and more efficient execution.