Abstract: This disclosure describes systems and methods for implementing immutable governance within a technology platform having an N-dimensional blockchain structure and graph technologies. The technology platform creates a blockchain with immutable governance to cover each unique entity, behavior, and relationship. This approach to governance allows the platform to provide robust and resilient performance at extreme scales while providing interoperability between all blockchains and off-chain structures.
Abstract: This disclosure describes systems and methods for employing interlinking multiple independent and separately-scalable blockchains to create globally verifiable unique identifiers. The disclosed systems and methods facilitate the creation of the globally verifiable unique identifiers to a level of scalability unattainable without employing the underlying two-dimensional blockchain structure, metadata, and cryptographic information stored on the blockchain. Moreover, the system avoids collisions and name conflicts among the globally verifiable unique identifiers, supports post-creation verification of the globally verifiable unique identifiers, and provides a variety of ancillary functions using the globally verifiable unique identifiers.
Abstract: This disclosure describes systems and methods for employing interlinking multiple independent and separately-scalable blockchains to create globally verifiable unique identifiers. The disclosed systems and methods facilitate the creation of the globally verifiable unique identifiers to a level of scalability unattainable without employing the underlying two-dimensional blockchain structure, metadata, and cryptographic information stored on the blockchain. Moreover, the system avoids collisions and name conflicts among the globally verifiable unique identifiers, supports post-creation verification of the globally verifiable unique identifiers, and provides a variety of ancillary functions using the globally verifiable unique identifiers.
Abstract: This disclosure describes systems and methods for interlinking multiple independent and separately-scalable blockchains to provide transactional provenance. The disclosed systems and methods leverage a combination of blockchain and graph data structures to interoperate between blockchains without requiring a single data structure while still providing a single chain of custody and provenance for a particular set of actions.
Abstract: This disclosure describes systems and methods for interlinking multiple independent and separately-scalable blockchains to provide transactional provenance. The disclosed systems and methods leverage a combination of blockchain and graph data structures to interoperate between blockchains without requiring a single data structure while still providing a single chain of custody and provenance for a particular set of actions.
Abstract: This disclosure describes systems and methods for employing interlinking multiple independent and separately-scalable blockchains to create globally verifiable unique identifiers. The disclosed systems and methods facilitate the creation of the globally verifiable unique identifiers to a level of scalability unattainable without employing the underlying two-dimensional blockchain structure, metadata, and cryptographic information stored on the blockchain. Moreover, the system avoids collisions and name conflicts among the globally verifiable unique identifiers, supports post-creation verification of the globally verifiable unique identifiers, and provides a variety of ancillary functions using the globally verifiable unique identifiers.
Abstract: This disclosure describes systems and methods for employing interlinking multiple independent and separately-scalable blockchains to create globally verifiable unique identifiers. The disclosed systems and methods facilitate the creation of the globally verifiable unique identifiers to a level of scalability unattainable without employing the underlying two-dimensional blockchain structure, metadata, and cryptographic information stored on the blockchain. Moreover, the system avoids collisions and name conflicts among the globally verifiable unique identifiers, supports post-creation verification of the globally verifiable unique identifiers, and provides a variety of ancillary functions using the globally verifiable unique identifiers.
Abstract: This disclosure describes systems and methods for employing interlinking multiple independent and separately-scalable blockchains to create globally verifiable unique identifiers. The disclosed systems and methods facilitate the creation of the globally verifiable unique identifiers to a level of scalability unattainable without employing the underlying two-dimensional blockchain structure, metadata, and cryptographic information stored on the blockchain. Moreover, the system avoids collisions and name conflicts among the globally verifiable unique identifiers, supports post-creation verification of the globally verifiable unique identifiers, and provides a variety of ancillary functions using the globally verifiable unique identifiers.
Abstract: This disclosure describes systems and methods for interlinking multiple independent and separately-scalable blockchains to provide transactional provenance. The disclosed systems and methods leverage a combination of blockchain and graph data structures to interoperate between blockchains without requiring a single data structure while still providing a single chain of custody and provenance for a particular set of actions.