19 was kind of the sweet spot between like ficiently decentralized, and we can get enough of the typical p s voting power in. But at the same time, it was n't a spot where it was still viable computationally and cost wise to verify the messages. There's obviously interesting ways to reduce the number, f number of signatures required, but at the same as increasing the sine raand i think, like practicallyl you know, the approach hat that we've been looking into for increasing the guardian set is really to say, let's not verify, you know, 19 or 13 signatures on chain. Let's do, let's just do one signature. And so there
In this week’s episode, Anna chats with Rahul Magani, the Applied ZK Lead at Jump Crypto, and Hendrik Hofstadt, Project Lead at (Wormhole Crypto)[https://twitter.com/wormholecrypto]. They look at how Wormhole first came to be, the challenges of interoperability, the design decisions they made in balancing security, speed and functionality, the risks facing these types of solutions, including the famous Wormhole hack, what the future holds and how they aim to explore using zk in bridging.
Here are some links for this episode:
The ZK Tech side round on Gitcoin starts today and runs until June 23rd.
During this CLR matching round funds that are donated to the ZK tech side round are matched from our 100K matching pool. This initiative is led by 0xPARC and zkValidator, as well as our fantastic matching partners from the ecosystem.
Visit gitcoin.co to get your grant in and choose the tag ZK tech to be eligible to our matching pool.
Today’s episode is sponsored by Anoma
Anoma is a suite of protocols that enable self-sovereign coordination. Their unique architecture facilitates efficiently the simplest forms of economic coordination such as two parties transferring an asset to each other. As well as more sophisticated ones like an asset agnostic bartering system involving multiple parties without direct “coincidence of wants”; or even more complex ones such as “N-party” collective commitments to solve multipolar traps – where any interaction can be performed with adjustable zero-knowledge privacy.
Visit Anoma to learn more.
If you like what we do:
Find all our links here! @ZeroKnowledge | Linktree
Subscribe to our podcast newsletter
Follow us on Twitter @zeroknowledgefm
Join us on Telegram
Catch us on Youtube
Head to the ZK Community Forum
Support our Gitcoin Grant