[GUEST ACCESS MODE: Data is scrambled or limited to provide examples. Make requests using your API key to unlock full data. Check https://lunarcrush.ai/auth for authentication information.]  SILENT INVESTOR 💼 [@xSilentInvestor](/creator/twitter/xSilentInvestor) on x 1024 followers Created: 2025-07-24 06:31:44 UTC 🔹 Day 3: The zk Stack Circuits, Proofs & Compute Thanks again for following along, Yesterday we talked about why proving is broken. Today, I want to walk you through the actual zk stack because if you don’t understand this, the rest of Cysic won’t fully click. Let’s start simple zk-proofs feel magical But behind the magic is a 3-layer stack that’s all math, all logic, and a lot of heavy lifting. Let me show you what’s under the hood and where Cysic steps in. 🧩 Layer 1: Circuits Imagine circuits like the logic puzzles of the zk world. They’re not electrical they’re mathematical. You write them to describe something that needs to be proven: A transaction is valid An AI model made the right prediction A game state followed all the rules But here’s the thing: these circuits get big. Fast. And if they’re not optimized? The rest of the stack suffers. Cysic doesn’t just accept your circuits they help reshape them to fit the hardware like a glove. 🌀 Layer 2: Proof Generation Now this is where the real pain kicks in Once you have your circuit, you run the prover basically, a machine that chews through billions of math operations to produce a tiny zk-proof. This is the bottleneck This is where projects slow down, costs spike, and users feel the lag. This is where Cysic’s custom hardware makes it feel instant. ✅ Layer 3: Verification The final proof is tiny, elegant, fast to verify. That’s what goes onchain. But none of that matters if you can't generate the proof in the first place. And right now? Most zk systems are held back because the prover runs on machines never meant for this work. So here’s the truth: Even the smartest zk logic in the world will fail if your hardware can’t keep up. Cysic’s role is to make sure the stack doesn’t collapse under its own weight. Tomorrow in Day 4, we go deeper: What does Cysic’s custom hardware actually look like? Because once you see the silicon design itself, you'll understand why this is way more than just a speed boost it's a whole new proving paradigm. $CYS #kaito @KaitoAI @cysic_xyz  XXX engagements  **Related Topics** [cysic](/topic/cysic) [if you](/topic/if-you) [stack](/topic/stack) [investment](/topic/investment) [Post Link](https://x.com/xSilentInvestor/status/1948269852952592784)
[GUEST ACCESS MODE: Data is scrambled or limited to provide examples. Make requests using your API key to unlock full data. Check https://lunarcrush.ai/auth for authentication information.]
SILENT INVESTOR 💼 @xSilentInvestor on x 1024 followers
Created: 2025-07-24 06:31:44 UTC
🔹 Day 3: The zk Stack Circuits, Proofs & Compute
Thanks again for following along, Yesterday we talked about why proving is broken. Today, I want to walk you through the actual zk stack because if you don’t understand this, the rest of Cysic won’t fully click.
Let’s start simple
zk-proofs feel magical But behind the magic is a 3-layer stack that’s all math, all logic, and a lot of heavy lifting.
Let me show you what’s under the hood and where Cysic steps in.
🧩 Layer 1: Circuits
Imagine circuits like the logic puzzles of the zk world.
They’re not electrical they’re mathematical. You write them to describe something that needs to be proven:
A transaction is valid
An AI model made the right prediction
A game state followed all the rules
But here’s the thing: these circuits get big. Fast. And if they’re not optimized? The rest of the stack suffers.
Cysic doesn’t just accept your circuits they help reshape them to fit the hardware like a glove.
🌀 Layer 2: Proof Generation
Now this is where the real pain kicks in
Once you have your circuit, you run the prover basically, a machine that chews through billions of math operations to produce a tiny zk-proof.
This is the bottleneck This is where projects slow down, costs spike, and users feel the lag.
This is where Cysic’s custom hardware makes it feel instant.
✅ Layer 3: Verification
The final proof is tiny, elegant, fast to verify. That’s what goes onchain.
But none of that matters if you can't generate the proof in the first place.
And right now? Most zk systems are held back because the prover runs on machines never meant for this work.
So here’s the truth:
Even the smartest zk logic in the world will fail if your hardware can’t keep up.
Cysic’s role is to make sure the stack doesn’t collapse under its own weight.
Tomorrow in Day 4, we go deeper:
What does Cysic’s custom hardware actually look like?
Because once you see the silicon design itself, you'll understand why this is way more than just a speed boost it's a whole new proving paradigm.
$CYS #kaito @KaitoAI @cysic_xyz
XXX engagements
Related Topics cysic if you stack investment