吃饱了撑的
High-Frequency Trader
4.1 Years
4 Following
19 Followers
25 Liked
1 Shared
All
Quotes
See original
$BEAT kill the air force and kill the ground forces
$42 6
See original
$ALPINE Awesome
See original
I think @WalletConnect @WalletConnect is simply essential. Just think about it: every time you easily connect your MetaMask or Trust Wallet to a new DeFi protocol or NFT marketplace, that's WalletConnect working its magic in the background. It is the silent driver of our daily Web3 lives. The launch of $WCT and its move towards complete decentralization only makes this already important infrastructure even stronger. Staying optimistic about the future of connectivity. #WalletConnect
See original
My thoughts on @WalletConnect are that it is absolutely essential. Just think about it: every time you easily connect your MetaMask or Trust Wallet to a new DeFi protocol or NFT marketplace, that's WalletConnect working its magic in the background. It is the silent driving force of our daily Web3 lives. The launch of $WCT and its move towards complete decentralization only makes this already important infrastructure even more robust. I am optimistic about the future of connectivity. #WalletConnect My thoughts on @WalletConnect are that it is absolutely essential. Just think about it: every time you easily connect your MetaMask or Trust Wallet to a new DeFi protocol or NFT marketplace, that's WalletConnect working its magic in the background. It is the silent driving force of our daily Web3 lives. The launch of $WCT and its move towards complete decentralization only makes this already important infrastructure even more robust. I am optimistic about the future of connectivity. #WalletConnect #wct @WalletConnect
See original
From the laboratory to landing: What hurdles has Boundless helped ZK overcome?
ZK (Zero-Knowledge Proof) has been popular for several years, but most are still stuck in the laboratory, either with impressive technology but not scalable, or usable but costly. This time, with the mainnet launch of Boundless, it seems to have helped ZK overcome the hurdle of 'landing'. What exactly did it do right?
First, it's about 'making complex technology simple.' Previously, to develop ZK applications, developers had to understand cryptography and write ZK circuits, which had a very high barrier to entry. Boundless created a decentralized proof market where developers do not need to build their own systems; they can simply post a request and miners can take the job. It also supports RISC-V zkVM, allowing development using ordinary programming languages. This effectively 'packages' ZK technology, so developers do not need to worry about the underlying layers, they just need to use it — lowering the barrier means more people are willing to develop ZK applications.
Secondly, it's about 'reducing high costs.' Previously, the annual cost of ZK computing was 170 million USD, and few applications dared to use it. Boundless used the PoVW mechanism to encourage competition among miners, and combined with scalable computing power, it reduced costs to less than 500,000, increasing efficiency by 340 times. With costs down, applications can dare to land on a large scale. For example, DeFi can use ZK for privacy transactions, and NFTs can use ZK for copyright verification. Scenarios that were previously unthinkable due to high costs are now possible.
Finally, it's about 'bringing together scattered resources.' Previously, ZK computing power was dispersed across various projects, leading to significant waste. Boundless integrated over 2,500 nodes to form a universal computing power market, where miners can take jobs to earn money, and developers can use computing power at low prices, creating a 'win-win' situation. By bringing resources together, scale effects can be formed, further promoting the landing of ZK.
For ZK to land, it's not only a technical issue but also a matter of 'usability' and 'cost.' Boundless has addressed both of these issues, effectively building an 'infrastructure' for the ZK ecosystem — in future discussions about the landing of ZK, people will not just say 'how impressive the technology is,' but rather they can say 'what I can do with Boundless.' #@Boundless #boundless $ZKC
ZK (Zero-Knowledge Proof) has been popular for several years, but most are still stuck in the laboratory, either with impressive technology but not scalable, or usable but costly. This time, with the mainnet launch of Boundless, it seems to have helped ZK overcome the hurdle of 'landing'. What exactly did it do right?
First, it's about 'making complex technology simple.' Previously, to develop ZK applications, developers had to understand cryptography and write ZK circuits, which had a very high barrier to entry. Boundless created a decentralized proof market where developers do not need to build their own systems; they can simply post a request and miners can take the job. It also supports RISC-V zkVM, allowing development using ordinary programming languages. This effectively 'packages' ZK technology, so developers do not need to worry about the underlying layers, they just need to use it — lowering the barrier means more people are willing to develop ZK applications.
Secondly, it's about 'reducing high costs.' Previously, the annual cost of ZK computing was 170 million USD, and few applications dared to use it. Boundless used the PoVW mechanism to encourage competition among miners, and combined with scalable computing power, it reduced costs to less than 500,000, increasing efficiency by 340 times. With costs down, applications can dare to land on a large scale. For example, DeFi can use ZK for privacy transactions, and NFTs can use ZK for copyright verification. Scenarios that were previously unthinkable due to high costs are now possible.
Finally, it's about 'bringing together scattered resources.' Previously, ZK computing power was dispersed across various projects, leading to significant waste. Boundless integrated over 2,500 nodes to form a universal computing power market, where miners can take jobs to earn money, and developers can use computing power at low prices, creating a 'win-win' situation. By bringing resources together, scale effects can be formed, further promoting the landing of ZK.
For ZK to land, it's not only a technical issue but also a matter of 'usability' and 'cost.' Boundless has addressed both of these issues, effectively building an 'infrastructure' for the ZK ecosystem — in future discussions about the landing of ZK, people will not just say 'how impressive the technology is,' but rather they can say 'what I can do with Boundless.' #@Boundless #boundless $ZKC
See original
From the laboratory to implementation: What hurdles has Boundless helped ZK overcome?
ZK (zero-knowledge proof) has been popular for several years, but most are still stuck in the laboratory, either the technology is impressive but not scalable, or it's usable but costly — Boundless's mainnet launch seems to have helped ZK overcome the hurdle of 'implementation'; what exactly did it do right?
First is 'making complex technology simple.' Previously, to develop ZK applications, developers needed to understand cryptography and write ZK circuits, which had a very high threshold. Boundless created a decentralized proof marketplace, allowing developers to make requests without having to build a system themselves, letting miners take the orders, and also supports RISC-V zkVM, enabling development with ordinary programming languages. This is equivalent to 'packaging' ZK technology so that developers only need to use it without worrying about the underlying details — lowering the threshold encourages more people to develop ZK applications.
Second is 'reducing high costs.' Previously, the annual cost of ZK computation was 170 million USD, and few applications dared to use it. Boundless utilized the PoVW mechanism to encourage competition among miners, along with large-scale computing power, bringing the cost down to less than 500,000, with efficiency increasing by 340 times. With costs lowered, applications can dare to be implemented on a large scale; for example, DeFi can use ZK for privacy transactions, and NFTs can use ZK for copyright verification. These scenarios, which were previously unthinkable due to high costs, are now possible.
Finally is 'bringing together dispersed resources.' Previously, ZK computing power was scattered across various projects, leading to significant waste. Boundless integrated over 2,500 nodes to form a universal computing power market where miners can take orders and earn money, while developers can utilize computing power at low prices, creating a 'win-win' situation. When resources are pooled together, it can create economies of scale, further promoting the implementation of ZK.
For ZK to be implemented, it is not just a technical issue but also a matter of 'usability' and 'cost.' Boundless has addressed both of these issues, effectively providing a 'infrastructure' for the ZK ecosystem — in future discussions about ZK implementation, people won't just talk about 'how impressive the technology is,' but rather what 'I can do with Boundless.'
@Boundless #Boundless $ZKC
ZK (zero-knowledge proof) has been popular for several years, but most are still stuck in the laboratory, either the technology is impressive but not scalable, or it's usable but costly — Boundless's mainnet launch seems to have helped ZK overcome the hurdle of 'implementation'; what exactly did it do right?
First is 'making complex technology simple.' Previously, to develop ZK applications, developers needed to understand cryptography and write ZK circuits, which had a very high threshold. Boundless created a decentralized proof marketplace, allowing developers to make requests without having to build a system themselves, letting miners take the orders, and also supports RISC-V zkVM, enabling development with ordinary programming languages. This is equivalent to 'packaging' ZK technology so that developers only need to use it without worrying about the underlying details — lowering the threshold encourages more people to develop ZK applications.
Second is 'reducing high costs.' Previously, the annual cost of ZK computation was 170 million USD, and few applications dared to use it. Boundless utilized the PoVW mechanism to encourage competition among miners, along with large-scale computing power, bringing the cost down to less than 500,000, with efficiency increasing by 340 times. With costs lowered, applications can dare to be implemented on a large scale; for example, DeFi can use ZK for privacy transactions, and NFTs can use ZK for copyright verification. These scenarios, which were previously unthinkable due to high costs, are now possible.
Finally is 'bringing together dispersed resources.' Previously, ZK computing power was scattered across various projects, leading to significant waste. Boundless integrated over 2,500 nodes to form a universal computing power market where miners can take orders and earn money, while developers can utilize computing power at low prices, creating a 'win-win' situation. When resources are pooled together, it can create economies of scale, further promoting the implementation of ZK.
For ZK to be implemented, it is not just a technical issue but also a matter of 'usability' and 'cost.' Boundless has addressed both of these issues, effectively providing a 'infrastructure' for the ZK ecosystem — in future discussions about ZK implementation, people won't just talk about 'how impressive the technology is,' but rather what 'I can do with Boundless.'
@Boundless #Boundless $ZKC
See original
$WLFI chicken feathers, have wilted again
See original
$MYX The big one comes out to say what is the purpose of the stock?
See original
$BARD has the same nature
See original
$AVNT What is this?
See original
$IP Today is not going well.
See original
$MYX dry pull ah...
See original
$IP has started again
See original
$IP sneak attack
See original
$WLFI is it going to be turned off again?
See original
$WLFI Pulling out the network cable and smashing the disk method
See original
$WLFI unplug the network cable
Login to explore more contents