Deploy and monetize secure enclaves
Treza is building a decentralized network of secure enclaves using TEE-based compute infrastructure. This roadmap outlines our path from initial execution frameworks to a fully decentralized marketplace for secure computation—supporting any sensitive workload that requires hardware-level protection.
Core Execution Framework
Objective
Establish the foundational execution layer with TEE abstraction, secure job scheduling, and cryptographic guarantees for arbitrary computation workloads.
Why It Matters
Before any sensitive workload can run securely, we need hardware-rooted execution primitives that provide mathematical guarantees rather than just contractual promises.
What We're Building
- •TEE-agnostic execution layer supporting Intel SGX, AMD SEV, and ARM TrustZone
- •Secure job orchestration with cryptographic task verification
- •Hardware-secured key management and signing capabilities
- •Developer SDK for deploying workloads to trusted execution environments
Cryptographic Attestation & Verification
Objective
Implement hardware-rooted cryptographic attestation with digitally signed execution proofs, enabling mathematically verifiable computation results across heterogeneous TEE technologies.
Why It Matters
Trust-minimized computation requires cryptographic proofs, not just isolation. Attestation transforms opaque execution into verifiable, auditable processes.
What We're Building
- •Hardware-rooted attestation with digitally signed execution proofs
- •Multi-TEE support with unified attestation across Intel SGX, AMD SEV, and ARM TrustZone
- •Cryptographic verification of code integrity and environment isolation
- •Immutable execution logs with tamper-evident audit trails
Cryptoeconomic Marketplace
Objective
Launch a cryptoeconomic marketplace where hardware providers monetize underutilized TEE capabilities while developers access secure compute resources through TREZA token-based allocation.
Why It Matters
A sustainable decentralized compute network requires economic incentives that align hardware providers, developers, and the protocol. Tokens create programmable resource allocation.
What We're Building
- •TREZA token-based resource allocation and staking mechanisms
- •Hardware provider rewards for contributing TEE capacity to the network
- •Dynamic pricing and priority queues based on compute demand
- •Protocol governance for security parameters and network economics
Permissionless Global Network
Objective
Deploy a permissionless, globally scalable infrastructure supporting heterogeneous TEE technologies — enabling any developer to access verifiable compute without barriers.
Why It Matters
This is the endgame: a fully decentralized, hardware-secure compute economy that eliminates centralized points of failure and provides cryptographic guarantees for any sensitive workload.
What We're Building
- •Permissionless provider onboarding with automated TEE capability discovery
- •Global compute marketplace with multi-vendor TEE support
- •Workload portability across Intel SGX, AMD SEV, ARM TrustZone, and emerging TEEs
- •Self-sovereign execution with cryptographic verification for any sensitive computation
Treza is building protocol infrastructure, not applications.
Our roadmap transforms hardware-secured computation into a decentralized protocol — enabling any sensitive workload to run with cryptographic guarantees. We believe verifiable trusted execution will power the next wave of decentralized infrastructure — and Treza will be the protocol foundation.