Moduli Chain
The trust and verification layer. Prove that privacy-preserving computation happened correctly, without anyone seeing the underlying data.
The problem it solves
Once computation happens on hidden data, no one can prove it ran correctly. Regulators, partners, and auditors are asked to just trust it.
Every privacy-preserving computation becomes a proof anyone can verify: correctness without ever revealing the underlying data.
Auditable and provable
Security, compliance, and partners can verify outcomes and integrity without access to the data itself.
Quantum-resistant by design
Built on foundations engineered to hold against tomorrow's threats, not just today's.
Trust across organizations
A shared layer of verification lets independent parties collaborate without surrendering control.
Adopt the trust layer your way
Verification API
- Drop-in proofs via one API
- Verify outcomes and integrity
- No chain operations to run
Shared trust layer
- Cross-organization verification
- Independent parties collaborate
- No data shared between them
Full node
- Run the verification layer yourself
- End-to-end control
- Quantum-resistant by design
How Moduli Chain works
Each privacy-preserving computation becomes a proof anyone can check, without seeing the data.
Commit the computation
Each operation is recorded as a cryptographic proof of what ran.
Prove without revealing
Correctness is demonstrated without exposing the underlying data.
Verify independently
Any party checks integrity and outcome without access to the data.
Quantum-resistant record
The trust layer is built to hold against tomorrow's threats.
Wondering if this fits your environment?
Take 15 minutes with a security engineer, against your real workload.
Related use cases
See where this runs in production, across AI, finance, and core enterprise systems.
Frequently asked
Quick answers about this product.
At two layers, yes, with an honest boundary. Data layer: TorusDB's No-Key architecture removes the keys a quantum attack would target, so there is nothing on the server for a Shor-style attack to break. Signing and authentication layer: PrivID uses CRYSTALS-Dilithium (the NIST FIPS 204 standard), so signatures can't be forged even by a quantum adversary. The one thing we don't overclaim is identifier privacy in the identity layer, which is still classical today and is on the roadmap toward full post-quantum privacy.
Yes. Moduli Chain records each privacy-preserving operation as a cryptographic proof, so regulators, partners, and auditors can independently verify the correctness and integrity of a result without ever seeing the underlying data.
Make every computation provable.
See how Moduli Chain underpins verifiable, privacy-preserving workflows.



