安迪Andy China
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Recently, FHE has been frequently mentioned, and one unavoidable question always arises: how can such a heavy privacy computing system truly be operational? Fully homomorphic encryption is theoretically strong, but the computational cost is high, system complexity is large, and collaboration barriers are not low. This means it is unlikely to spread naturally just through 'open-source libraries'; it requires a native set of incentives and coordination mechanisms to promote the operation of the network.
From this perspective, Mind binding FHE with the token mechanism is not merely for narrative purposes, but is an attempt to solve a real problem: who will pay for privacy computing, who will provide computing power, and how to coordinate these roles in a decentralized environment. If FHE is to move towards Web3 scenarios, tokens are more like a resource scheduling and value settlement tool rather than an accessory. Ultimately, whether it can truly be operational will depend on actual usage, but at least this path is logically consistent. $FHE #FHE
{future}(FHEUSDT)
From this perspective, Mind binding FHE with the token mechanism is not merely for narrative purposes, but is an attempt to solve a real problem: who will pay for privacy computing, who will provide computing power, and how to coordinate these roles in a decentralized environment. If FHE is to move towards Web3 scenarios, tokens are more like a resource scheduling and value settlement tool rather than an accessory. Ultimately, whether it can truly be operational will depend on actual usage, but at least this path is logically consistent. $FHE #FHE
{future}(FHEUSDT)
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