Decentralized Layer 1 post-quantum ledger built for the computational threats of tomorrow. Secure local operations console for keygen routing, CPU block miners, custom assets, and VM smart contracts.
Mathematically proven and production-grade technologies driving the L1 architecture.
Traditional cryptography will fall to Shor's algorithm. Native ML-DSA-87 module-lattice digital signatures derived via double SHA3-512 public hashing ensure absolute safety in the quantum era.
A 1 MiB memory-hard Proof of Measurable Work (PoMW) algorithm enforces RAM bandwidth bounds over 16 complex scratchpad rounds, ensuring CPU fairness and ASIC resistance.
The ZK-Shield subsystem processes zero-knowledge range proofs optimized over the Goldilocks Prime Field, wrapping native coins into private note commitments for untraceable transactions.
Visual layout representing the flow of data from this front-end interface through the Secure JSON-RPC HTTP Gateway into the local C++ Daemon, and its gossip propagation across peer-to-peer validation networks:
e48d89a9efd7b844fae2398d16bd3ab8968cd5bb
Submit transfers signed with your ML-DSA-87 private key client-side and verified by L1 nodes in real-time.
Compute randomized RAM allocation mixing puzzles on active CPU threads, verifying scratchpad hash boundaries and submitting block solutions directly to the C++ node validator.
Configure custom cryptocurrency metadata and minting caps. Deploy assets directly into the decentralized Layer 1 state ledger.
Shield public coins into private note commitments using ZK range proofs modulo the Goldilocks Field.
Directly control the L1 daemon process using local endpoint TCP wrappers inside your powershell shell sessions:
Invoke-RestMethod -Uri "http://127.0.0.1:8545/api/rpc" -Method Post -ContentType "application/json" -Body '{"jsonrpc": "2.0", "method": "getinfo", "params": [], "id": 1}'
Invoke-RestMethod -Uri "http://127.0.0.1:8545/api/rpc" -Method Post -ContentType "application/json" -Body '{"jsonrpc": "2.0", "method": "mine", "params": ["e48d89a9efd7b844fae2398d16bd3ab8968cd5bb"], "id": 1}'
Invoke-RestMethod -Uri "http://127.0.0.1:8545/api/rpc" -Method Post -ContentType "application/json" -Body '{"jsonrpc": "2.0", "method": "getbalance", "params": ["e48d89a9efd7b844fae2398d16bd3ab8968cd5bb"], "id": 1}'
MetaMask operates strictly on classic ECDSA signatures and does not support L1 post-quantum keys directly. Users bridge assets through the secure Ethereum escrow vault: ERC-20 tokens are locked, and wrapped equivalents are dynamically minted on the ADDITION L1 network.
Keep cryptographic keys offline. Our specialized Ledger applet computes post-quantum lattice public keys and signs transactions securely on-device using standard MuSig2 aggregation, combining hardware isolation with quantum immunity.
Confidential transactions are validated using trace polynomial checks modulo the Goldilocks Field ($GF(2^{64}-2^{32}+1)$). Generating nullifiers secures note spending with mathematically complete double-spend protection.
Derived securely using module-lattice structures. Unlike classical systems vulnerable to quantum factorization, ML-DSA relies on the hardness of high-dimensional lattice vector mathematical problems, establishing full cryptographical safety.
Deploy custom, post-quantum secure cryptocurrencies natively on the L1 state. By issuing a token_create_ex call, the platform creates a distinct asset class tracked by the ledger's core database. Mint, burn, and transfer logic are fully managed with post-quantum security guarantees, allowing developers to configure max caps, decimals, and burnable policies.
The ADDITION Virtual Machine evaluates Turing-complete state validation scripts on-chain. Using persistent key-value storage (set, add, get operators), smart contracts are assigned a distinct SHA3-512 identifier. Developers deploy contract logic through contract_deploy and trigger transaction state transitions securely using contract_call with automated VM checks.