FinanceVM provides arbitrary-precision arithmetic, ISO standard compliance, and sovereign control, creating a bridge between traditional financial engineering and decentralized technology for institutions.
Traditional smart contracts lack native support for high-precision decimal arithmetic, leading to unacceptable rounding errors in financial calculations.
Running complex risk models (e.g., Monte Carlo simulations for options pricing) on-chain is cost-prohibitive and slow.
Tokens are typically defined by technical interfaces rather than financial definitions, creating a disconnect between code and legal/financial reality.
Zero floating-point errors through arbitrary-precision arithmetic, ensuring accuracy in financial calculations.
Built on ISO financial standards (UPI, vLEI, DTI, ISO 20022).
Sovereign nodes maintain regulatory control, allowing institutions to independently manage their FVM instances.
Standards-based Financial Object Model (FOM) using FINOS CDM.
FVM is designed as a modular, standalone infrastructure that can operate as a single node or a high-performance compute cluster.
Each FVM instance is independently controlled by its operator (e.g., a bank or asset manager) and can be started, stopped, or paused according to local regulatory requirements.
Uses a structured object model: FINOS CDM and ISO 4914 (UPI) for product definition, with financial algorithms handling state transitions.
Different FVM instances communicate via the Model Context Protocol over secure channels, supporting peer-to-peer asset swaps.
Public chains are used solely for transparency and auditing, with key lifecycle events serialized using ISO 20022 XML standards and anchored.
Ensures precision in financial calculations, avoiding the accuracy issues of traditional smart contracts.
Handles complex financial engineering tasks (VaR calculations, Monte Carlo simulations), treating financial engineering as a first-class citizen.
Transport layer designed to upgrade to post-quantum cryptography, ensuring long-term security of financial data.
Moves away from the "One World State" model, adopting a "Network of Sovereign States" architecture.
FVM is built upon the following international standards to ensure integration with legacy banking systems.
Unique Product Identifier
Verifiable Digital Identity
Digital Token Identifier Registry
Messaging and Activity Logging
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