Technical solutions are described for providing a redundant processor. An example processing unit includes a source processor coupled with a system communication bus via a first communication line; a backup processor coupled with the system communication bus via a second communication line; and an inter-microprocessor communication channel for communication between the source processor and the backup processor. The backup processor monitors for a failure of the source processor by monitoring the first communication line for communication messages being transmitted by the source processor. The backup processor determines a failure of the source processor in response to an absence of the communication messages on the first communication line for a predetermined duration. The backup processor, in response to a failure of the source processor, takes over control of communication of the processing unit by sending a status update on the inter-microprocessor communication channel.

In a process synchronization control system for performing a synchronization process of synchronizing a process among redundant channels, each of the channels includes an input unit; an output unit; a processing unit; a process execution timer which is used for executing a process in the channels; and a waiting time measurement timer which measures a waiting time in the synchronization process, in which the processing unit executes: a synchronization signal output process of outputting the synchronization signal to other channels at the start of the synchronization process; a synchronization signal input process of waiting for the synchronization signal input from the other channels until a predetermined waiting time by the waiting time measurement timer elapses; and a timer synchronization process of synchronizing the process execution timer if the synchronization signal of the other channels is input after the elapse of the waiting time.

Fence randomization with inter-chip fencing constraints, including: receiving a fencing setup comprising one or more parameters for fencing a plurality of chips in a plurality of drawers; and selecting, based on the one or more parameters and one or more dependencies for implementing the one or more parameters, a subset of the plurality of chips for fencing, wherein the subset of the plurality of chips are selected at least partially randomly; generating a testing configuration indicating the selected subset of the plurality of chips.

A data collection apparatus (10) receives failure information indicating a failed device that is a device (60) in which a failure has been detected. Then, the data collection apparatus (10) identifies a similar device that is the device (60) to be monitored that is similar to the failed device indicated by the failure information. The data collection apparatus (10) sets, as a target monitoring apparatus (70), a monitoring apparatus (70) that monitors the similar device among a plurality of monitoring apparatuses (70), and transmits an instruction signal to increase a transmission amount of operation data of the similar device to the target monitoring apparatus (70).

The method and system of the present invention provides an improved technique for processing email during an unplanned outage. Email messages are redirected from the primary server to a secondary server during an unplanned outage such as, for example, a natural disaster. A notification message is sent to users alerting them that their email messages are available on the secondary server by, for example, Internet access. After the termination of the unplanned outage, email messages received during the unplanned outage are synchronized into the users standard email application.

A device, system, and/or method includes an internal circuit configured to perform at least one function, an input-output terminal set and a repair circuit. The input-output terminal set includes a plurality of normal input-output terminals connected to an external device via a plurality of normal signal paths and at least one repair input-output terminal selectively connected to the external device via at least one repair signal path. The repair circuit repairs at least one failed signal path included in the normal signal paths based on a mode signal and fail information signal, where the mode signal represents whether to use the repair signal path and the fail information signal represents fail information on the normal signal paths. Using the repair circuit, various systems adopting different repair schemes may be repaired and cost of designing and manufacturing the various systems may be reduced.

According to one aspect of the present invention there is provided a system, method, and computer program product for deploying a plurality of virtual network function (VNF) instances in a communication network using network function virtualization (NFV-based network), where the network includes a plurality of computing-related units and communication links in-between, the method including: determining at least one performance value for at least one of the computing-related units and communication links, determining at least one performance requirement for at least one of the VNF instances, and associating the at least one VNF instance with at least one of the computing-related units and the communication links according to the at least one performance requirement and the at least one performance value.

Systems and techniques are described which improve performance, reliability, and predictability of networks. Geographically diverse network control nodes (NCNs) are provided in an adaptive private network (APN) to provide backup NCN operations in the event of a failure. A primary NCN node in a first geographic location is operated according to a primary state machine at an NCN active state. A client node is operated according to a client state machine. A secondary NCN node in a second geographic location that is geographically remote from the first geographic location is operated according to a secondary state machine at a standby state. The three state machines operating parallel and upon detecting a change in APN state information, the secondary state machine transitions from the standby state to a secondary active NCN state and the secondary NCN node provides APN timing calibration and control to the client node.

A safety device includes a first computation unit, a second computation unit, an output control unit, and a first central processing device. The first computation unit is configured to perform a first computation on a detected value detected from a subject to be controlled, thus obtaining a first result value. The second computation unit is configured to perform a second computation on the detected value, thus obtaining a second result value which is to be determined if equal to the first result value. The output control unit is configured to output the first result value in a case that the second computation unit determines that the first result value is equal to the second result value, and not to output the first result value in a case that the second computation unit determines that the first result value is not equal to the second result value.

Embodiments of systems and methods for fault tolerant link width maximization in a data bus are described. Embodiments of methods may include checking a data bus connection to determine if a degraded lane exists on the data bus, determining a first set of one or more lanes that contain the degraded lane, and assigning a second set of lanes for operation, wherein the second set of lanes does not contain the degraded lane.