Vendia, Inc. Secures Patent for Asynchronous Blockchain Technology

Company: Vendia, Inc.

Patent Title: Creating a block for a blockchain in an asynchronous blockchain environment

Abstract: Systems and methods are disclosed for generating a block for a blockchain in an asynchronous blockchain environment. A participant node receives an instruction to generate a block for the blockchain, identifies transactions to be processed, processes the identified transactions asynchronously, and creates a block based on the processed transactions.

Swanson Reed’s Patent of the Month

This remarkable development has been recognized as Swanson Reed’s Patent of the Month for February 2026. It earned this prestigious award because it represents an outstanding and highly disruptive invention in the Artificial Intelligence, Software, Cryptocurrency, and Cloud industry, fundamentally changing how blockchain nodes process transactions at scale.

Meeting the U.S. R&D Tax Credit Rules

The development of this technology strongly aligns with the four-part test of the U.S. Research and Development (R&D) Tax Credit:

• Permitted Purpose: The research aimed to create a new, improved software architecture to enhance the performance, scalability, and speed of blockchain transaction processing.
• Technological in Nature: The development process relied fundamentally on the hard sciences, specifically computer science, distributed systems engineering, and advanced cryptography.
• Elimination of Uncertainty: Vendia faced significant technical uncertainty at the project’s outset regarding how to maintain ledger integrity and achieve consensus when processing blocks outside of a traditional synchronous order.
• Process of Experimentation: The engineering team underwent a rigorous process of evaluating different architectural models, testing node behaviors under load, and refining algorithms to successfully achieve asynchronous block generation.

3 Practical Applications Qualifying for R&D Tax Credits

1. Multi-Cloud Enterprise Data Sharing Platforms: Engineering a cross-cloud distributed ledger that seamlessly connects AWS, Azure, and Google Cloud environments. The R&D process would involve resolving latency issues and testing the asynchronous node architecture to allow separate enterprise systems to share and validate data concurrently without synchronous bottlenecks.
2. High-Throughput Supply Chain Tracking: Designing a customized blockchain application capable of ingesting millions of simultaneous IoT sensor pings globally. Developing this application involves iteratively testing load distribution and asynchronous block creation to handle massive, unpredictable data spikes without network failure.
3. Decentralized Finance (DeFi) Settlement Engines: Creating a high-speed trading layer for decentralized exchanges (DEXs). R&D activities would involve designing, simulating, and auditing new smart contract protocols to ensure that high volumes of micro-transactions can be processed asynchronously while maintaining absolute financial security before settling on a mainnet.