[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.]  LiquídStrång3r ⊙ [@0xStrang3r](/creator/twitter/0xStrang3r) on x XXX followers Created: 2025-07-25 10:21:44 UTC Been drafting out content for @cysic_xyz this week — figured I’d share the topics in case it helps someone dive deeper. These are the pillars we’re building on: — ZK Hardware Acceleration: ASICs, FPGAs — custom silicon made to speed up proving — Proof-of-Hardware: Cryptographic guarantees that computations ran on secure, verified hardware — Trusted Execution Environments (TEEs): Secure enclaves for private off-chain execution — Zero-Knowledge Proofs (ZKPs): The backbone — verifiable computation without leaking data — ZK + TEE Hybrid Architecture: Performance of hardware + the verifiability of ZK — Onchain Verifiability: If it runs, it proves. Computation with auditable receipts — Decentralized Hardware Network: Globally distributed, permissionless nodes running trusted hardware — Permissionless Proving: Open participation, with hard security guarantees — Proof Aggregation: Scaling throughput by batching proofs — AI-Proof Verification: Cryptographically validating AI outputs — MEV Resistance: Fair execution, backed by hardware integrity — Hardware-Level Security: Trust anchored at the silicon—not the OS This is what the next phase of verifiable computing looks like. gMsor.  XXXXX engagements  **Related Topics** [grind](/topic/grind) [$7936t](/topic/$7936t) [asics](/topic/asics) [topics](/topic/topics) [Post Link](https://x.com/0xStrang3r/status/1948690119730266206)
[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.]
LiquídStrång3r ⊙ @0xStrang3r on x XXX followers
Created: 2025-07-25 10:21:44 UTC
Been drafting out content for @cysic_xyz this week — figured I’d share the topics in case it helps someone dive deeper.
These are the pillars we’re building on: — ZK Hardware Acceleration: ASICs, FPGAs — custom silicon made to speed up proving
— Proof-of-Hardware: Cryptographic guarantees that computations ran on secure, verified hardware
— Trusted Execution Environments (TEEs): Secure enclaves for private off-chain execution
— Zero-Knowledge Proofs (ZKPs): The backbone — verifiable computation without leaking data
— ZK + TEE Hybrid Architecture: Performance of hardware + the verifiability of ZK
— Onchain Verifiability: If it runs, it proves. Computation with auditable receipts
— Decentralized Hardware Network: Globally distributed, permissionless nodes running trusted hardware
— Permissionless Proving: Open participation, with hard security guarantees
— Proof Aggregation: Scaling throughput by batching proofs
— AI-Proof Verification: Cryptographically validating AI outputs
— MEV Resistance: Fair execution, backed by hardware integrity
— Hardware-Level Security: Trust anchored at the silicon—not the OS This is what the next phase of verifiable computing looks like. gMsor.
XXXXX engagements
