Ether Leeum hits real-time ZK-Proof Milestone
The concise was the real -time zero knowledge proof of Ether Leeum Block and created a encryption proof within 12 seconds.
The concise SP1 “Hypercube” ZKVM has produced evidence of Ethereum Block 22309250 (143 transactions, 32 million gas) in 10.8 seconds, and the internal benchmark can show 10.3 seconds of delayed time in 10,000 main -Net blocks within 12 seconds of 12 seconds. I showed it.
This achievement shows a technical leap on zero knowledge space, and based on a simple multi-polynomial, it places optimized CUDA kernels and hundreds of GPUs for tasks such as a completely new evidence system, log-up GKR and SUM-Check. Co -founder UMA ROY features milestones as a result of engineering development in encryption, hardware acceleration and distributed systems.
Roy commented.
“This is a man of ZK at the moment of the moon.
If I asked a person in ZK a year ago, they would literally say that it was moonlight. ”
The performance milestone narrows the waiting time between evidence and block time, while Vitalik Buterin, the co -founder of Ether Leeum, explained the remaining limitations.
The current result is not the worst, but the average case performance. Buterin emphasized that in order to prove that real -time proof is suitable for layer 1 security, the worst block demonstration must remain in the block time.
In addition, the SP1 proof has not been formally verified, and energy requirements are displayed near 100kW per 10 kW, which is considered to be executable to the family base proof. He also pointed out that expanding the limit of 1 gas on the floor of Ether Leeum remains due to the additional evidence efficiency.
Community discussions are about decentralization and demonstration. As discussed at the Ethereum Magicians Forum, Dankrad Odendaal researcher insisted that it would temporarily mitigate the hardware decentralization goal for bed.
ODENDAAL pointed out that the overhead has fallen several times and can be able to benefit additional benefits through improving construction or professional hardware.
He suggested that proof is reversible, unlike other protocol scaling areas, where permanent burden occurs. With the expansion of the major capacity, the network can be reversed to the gas limit without long -term growth.
ODENDAAL also pointed out that proof creation can be parallel across the distributed infrastructure and is less vulnerable to centralized risk than a complete node. Even if a single digit Overhead does not prove it, a decentralized proof of many machines can preserve a small number of honest assumptions for system integrity while achieving atmospheric time goals.
In the real -time context, the launch of the SP1 is the pinnacle of encryption innovation and infrastructure adjustment.
Concise implementation spans bare metal deployment and performance adjusted distributed workloads, but energy and official verification constraints show that proven still remains in the trajectory, not endpoint.
Along with the integration of the protocol level, the additional reduction in atmospheric time and power will form the ability to 정 정 정 in the basic layer.
