The legs are swollen! The latest episode of TGE tonight, sold for only 60U at the first time?
You missed out on 180U, brother!!! Stop slapping your thighs, brother, FHE can use this 60U to earn back what was lost!
The latest FHE activity allows staking at an APY of 400%, and the steps are super simple (you can refer to the flowchart):
1. Connect Wallet: Go to the agent launch page and select the supporting chain (BNB Smart Chain/Mind Chain). Binance Wallet users enter by following the path 'Discover' → 'DApps'.
2. Activate agent by staking: Stake 100 FHE to activate the agent, limited-time airdrop of an additional 10 FHE (until 2025.5.9), for those without FHE, click the 'Get FHE' button to obtain it.
3. Choose training center: Select a center based on interest; each center offers unique skill combinations (such as data analysis, AI development, etc.) and continuous $FHE rewards during the training period.
4. Agent launch: The agent goes online, starts training, and automatically earns rewards. Go to 'Dashboard' to check training progress, reward records, and staking management.
What exactly is FHE? What is its purpose?
FHE (Fully Homomorphic Encryption) is an advanced encryption technology that allows computation on encrypted data without the need for decryption, and the computation results remain encrypted; only users with the correct key can decrypt and view the final results.
Its core advantage lies in resolving the conflict between data usage and privacy protection. In traditional encryption methods, if data needs to be analyzed or computed, it must first be decrypted, which exposes the original information, especially in sensitive scenarios such as cloud computing, healthcare, and finance. FHE allows data to remain encrypted throughout the process, enabling third parties (such as cloud service providers) to perform computations directly on the ciphertext, and the results obtained by the final user after decryption are consistent with those obtained by directly operating on plaintext. For example, hospitals can send encrypted patient data to third parties for disease prediction analysis, allowing computations to be completed without the third party knowing the patient's identity, thus ensuring data privacy while releasing data value.
