- Topic1/3
58k Popularity
42k Popularity
55k Popularity
9k Popularity
24k Popularity
- Pin
- 🎉 The #CandyDrop Futures Challenge is live — join now to share a 6 BTC prize pool!
📢 Post your futures trading experience on Gate Square with the event hashtag — $25 × 20 rewards are waiting!
🎁 $500 in futures trial vouchers up for grabs — 20 standout posts will win!
📅 Event Period: August 1, 2025, 15:00 – August 15, 2025, 19:00 (UTC+8)
👉 Event Link: https://www.gate.com/candy-drop/detail/BTC-98
Dare to trade. Dare to win.
- 🎉 Gate Square Growth Points Summer Lucky Draw Round 1️⃣ 2️⃣ Is Live!
🎁 Prize pool over $10,000! Win Huawei Mate Tri-fold Phone, F1 Red Bull Racing Car Model, exclusive Gate merch, popular tokens & more!
Try your luck now 👉 https://www.gate.com/activities/pointprize?now_period=12
How to earn Growth Points fast?
1️⃣ Go to [Square], tap the icon next to your avatar to enter [Community Center]
2️⃣ Complete daily tasks like posting, commenting, liking, and chatting to earn points
100% chance to win — prizes guaranteed! Come and draw now!
Event ends: August 9, 16:00 UTC
More details: https://www
FHE: The Future of Privacy Computing and the Prospects of Blockchain Applications
FHE: The Future of Privacy Computing
FHE( Fully Homomorphic Encryption) is an advanced encryption technology that allows computation on encrypted data, thereby processing data while protecting privacy. FHE has broad application prospects in data processing fields that require privacy protection, such as finance, healthcare, and cloud computing. However, due to its large computational overhead, commercialization still requires time.
Basic Principles
The core of FHE is to hide the plaintext information through polynomials and convert the computation into a circuit model. To solve the problem of noise accumulation, FHE employs techniques such as key switching, modulus switching, and bootstrapping. Currently, mainstream FHE schemes include BGV, BFV, CKKS, etc., all of which use bootstrapping technology to achieve computation of unlimited depth.
Challenges Faced
The biggest challenge of FHE lies in its enormous computational overhead, which can be up to 500 million times slower than ordinary computation. To address this, DARPA launched the DPRIVE program, aimed at improving the computation speed of FHE to 1/10th of ordinary computation. The program focuses on increasing processor word length, designing dedicated ASICs, and building MIMD parallel architectures, but progress has been slow and the expected goals have not yet been achieved.
Blockchain Integration
In the blockchain field, FHE can be used to protect on-chain privacy, AI training data privacy, on-chain voting privacy, and more. Some projects attempt to apply FHE to solve the MEV problem, but they also face challenges such as inefficiency and the disappearance of positive externalities.
Main Projects
The main projects in the FHE field currently include:
Development Prospects
FHE technology is still in its early stages, facing challenges such as low efficiency and high engineering difficulty. However, with more capital attention and the development of dedicated chips, FHE is expected to bring about transformation in privacy-sensitive fields such as national defense, finance, and healthcare. The implementation of FHE chips will be key to its commercialization. Despite the numerous challenges, FHE, as an advanced technology with clear demand, holds promise for future development.