8DX runs on multi-region bare-metal infrastructure with its own nodes and indexers. Shared RPC providers are not used for critical execution paths.The system is designed for high availability and low latency, with active regional coverage in Europe and Asia. Indexing, simulation, and execution layers are horizontally scalable and intentionally isolated to prevent cascading failures.This architecture allows 8DX to process a large number of routes in parallel while maintaining predictable latency and consistent execution quality, even during periods of elevated network activity.
Public access to 8DX is provided through a developer API intended for external integrations.To ensure fairness and system stability, requests are rate-limited to 1 request per second per user. This limit is deliberately conservative and chosen to preserve deterministic performance rather than maximize raw request throughput.A detailed description of the API, available endpoints, and the integration flow is provided in the API documentation section.
By default, 8DX does not apply mandatory platform-level fees.Integrators who wish to introduce their own commission model, deploy branded integrations, or operate a custom contract instance can reach out directly:
We respond within one business day and prepare custom contract setups for partners at no cost.Post-MVP, 8DX plans to introduce a simplified self-serve integration model. This will allow partners to configure fees and deploy integrations independently, while preserving the same execution guarantees.
Ethereum mainnet is currently supported in production.Solana integration is under active testing. Additional EVM-compatible chains and native bridge support are planned as part of the post-MVP roadmap.The API and execution layer are designed to remain free, including future chain expansions.
8DX is built for teams that prioritize execution quality, infrastructure reliability, and long-term maintainability.The system deliberately avoids opaque economics, artificial restrictions, and unnecessary abstraction layers.
