A system including a plurality of networked machines managed by a management system is disclosed. In the system, the machines and the management system each form nodes of a distributed ledger network. Further, the machines each have machine properties stored as a data record on a memory of the machine. Additionally, the machines each also have a standardized smart contract on the same or a further memory. The management system includes an integration contract configured to match standardized smart contracts to previous smart contracts already available in the distributed ledger network and transform the standardized smart contracts into the distributed ledger network. Further, a transformed smart contract controls a collaboration model between the networked machines and is executed so as to be implemented in the distributed ledger network computer.

A system including a plurality of networked machines managed by a management system is disclosed. In the system, the machines and the management system each form nodes of a distributed ledger network. Further, the machines each have machine properties stored as a data record on a memory of the machine. Additionally, the machines each also have a standardized smart contract on the same or a further memory. The management system includes an integration contract configured to match standardized smart contracts to previous smart contracts already available in the distributed ledger network and transform the standardized smart contracts into the distributed ledger network. Further, a transformed smart contract controls a collaboration model between the networked machines and is executed so as to be implemented in the distributed ledger network computer.

Through a cloud-based centralized user interface, a federated compliance system presents a policy of interest and representations of disparate systems that match the policy of interest to a user. The disparate systems, which operate in a distributed network computing environment, can include cloud-based repositories and off-cloud repositories. The federated compliance system can pull the cloud-based repositories through a cloud orchestrator and the off-cloud repositories through an off-cloud orchestrator over a secure tunnel. The federated compliance system utilizes user-provided information on the policy of interest to determine various categories of attributes from different repository schemas employed by the disparate systems. A federated retention policy mapper, implemented as a compliance service, maps the attributes to a common schema, creates a federated retention policy, and stores it in a federated space in the distributed network computing environment. A policy change can be automatically propagated across the disparate systems using the federated retention policy.

Through a cloud-based centralized user interface, a federated compliance system presents a policy of interest and representations of disparate systems that match the policy of interest to a user. The disparate systems, which operate in a distributed network computing environment, can include cloud-based repositories and off-cloud repositories. The federated compliance system can pull the cloud-based repositories through a cloud orchestrator and the off-cloud repositories through an off-cloud orchestrator over a secure tunnel. The federated compliance system utilizes user-provided information on the policy of interest to determine various categories of attributes from different repository schemas employed by the disparate systems. A federated retention policy mapper, implemented as a compliance service, maps the attributes to a common schema, creates a federated retention policy, and stores it in a federated space in the distributed network computing environment. A policy change can be automatically propagated across the disparate systems using the federated retention policy.

Log processing provides a status message of a storage node cluster is obtained by a first node. The status message marks a master storage node of the storage node cluster. The first node can send a first write operation request to the master storage node based on the status message so that the master storage node agrees on a first write operation after agreeing on a received log with a slave storage node in the storage node cluster. The first node receives a feedback message sent after the master storage node agrees on the first write operation with the slave storage node in the storage node cluster. The feedback message includes identification information and a response to the first write operation request. The first node can send to the master storage node a target message including a current iteration identifier, and the master storage node can use the current iteration identifier to determine whether the target message is from a latest master compute node.

Technology related to application deployment across network devices including smart network interface cards. In one example, a method includes distributing an application across a plurality of locally connected computing subdomains. The subdomains can include a mixture of general and special purpose computing subdomains, such as for example, a main computer and an associated smart network interface devices or systems, such as for example a smart network interface card (NIC). The subdomains can each run hypervisors that are bridged to allow a single virtual machine to operate across the subdomains. The application can include multiple portions. For example, an application can be split by different functionalities. The application portions can be tagged to indicate which subdomain they are to be executed within. If the chosen subdomain has available the requisite resources, the application can be detached and distributed to the chosen subdomain.

Technology related to application deployment across network devices including smart network interface cards. In one example, a method includes distributing an application across a plurality of locally connected computing subdomains. The subdomains can include a mixture of general and special purpose computing subdomains, such as for example, a main computer and an associated smart network interface devices or systems, such as for example a smart network interface card (NIC). The subdomains can each run hypervisors that are bridged to allow a single virtual machine to operate across the subdomains. The application can include multiple portions. For example, an application can be split by different functionalities. The application portions can be tagged to indicate which subdomain they are to be executed within. If the chosen subdomain has available the requisite resources, the application can be detached and distributed to the chosen subdomain.

A system and method for providing emergency access control for a unified data platform allowing a user to request access to a segregated data set of the unified data platform where the user can automatically be granted the minimum required access permission, therefore providing the user limited access only to the necessary data required for maintenance purposes, and where the access permission is based off authorization information associated with the user for various segregated data sets and associated parameters.

A method and system are disclosed herein for accepting multimodal inputs and deriving synchronized and processed information. A reusable multimodal application is provided on the mobile device. A user transmits a multimodal command to the multimodal platform via the mobile network. The one or more modes of communication that are inputted are transmitted to the multimodal platform(s) via the mobile network(s) and thereafter synchronized and processed at the multimodal platform. The synchronized and processed information is transmitted to the multimodal application. If required, the user verifies and appropriately modifies the synchronized and processed information. The verified and modified information are transferred from the multimodal application to the visual application. The final result(s) are derived by inputting the verified and modified results into the visual application.

A method and system are disclosed herein for accepting multimodal inputs and deriving synchronized and processed information. A reusable multimodal application is provided on the mobile device. A user transmits a multimodal command to the multimodal platform via the mobile network. The one or more modes of communication that are inputted are transmitted to the multimodal platform(s) via the mobile network(s) and thereafter synchronized and processed at the multimodal platform. The synchronized and processed information is transmitted to the multimodal application. If required, the user verifies and appropriately modifies the synchronized and processed information. The verified and modified information are transferred from the multimodal application to the visual application. The final result(s) are derived by inputting the verified and modified results into the visual application.