The present invention realizes a functional safety of a multiprocessor system without tightly coupling processor elements. When causing a plurality of processor elements to execute the same data processing and realizing a functional safety of the processor element, there is adopted a bus interface unit that performs control of performing safety measure processing when the non-coincidence of access requests issued from the processor elements has been fixed, and of starting access processing responding the access request when these access requests coincide with one another.

A fail-operational control system includes a migrating controller having a non-volatile memory, a RAM, and a CPU. The migrating controller includes software code stored in the non-volatile memory of the migrating controller. The software code stored in the non-volatile memory of the migrating controller executed by the CPU of the migrating controller is dedicated to a respective system. The respective system is not under the control of a primary controller from another system. In response to an enablement of a system operation of the primary controller of another system that requires a backup controller during execution of the system operation, fail-operational software code stored in the non-volatile memory of the primary controller of the other system is transferred to the RAM of the migrating controller. The migrating controller temporarily functions as a backup controller during the execution of the system operation in the primary controller of the other system.

A processor system includes a master processor that successively processes a plurality of tasks, a checker processor that successively processes at least one of the plurality of tasks, and a control circuit that performs control so that the checker processor operates when the master processor and the checker processor perform a lock-step operation, and the checker processor stops its operation when the master processor and the checker processor do not perform the lock-step operation, the lock-step operation being an operation in which each of the master and checker processors processes the same task, in which the control circuit performs control so that a period from when a task is processed by the lock-step operation to when another task is processed in the next lock-step operation is equal to or shorter than a maximum test period, the maximum test period being a test period acceptable to the processor system.

An application may store data to a dataset comprising a plurality of volumes stored on a plurality of storage systems. The application may request a dataset image of the dataset, the dataset image comprising a volume image of each volume of the dataset. A dataset image manager operates with a plurality of volume image managers in parallel to produce the dataset image, each volume image manager executing on a storage system. The plurality of volume image managers respond by performing requested operations and sending responses to the dataset image manager in parallel. Each volume image manager on a storage system may manage and produce a volume image for each volume of the dataset stored to the storage system. If a volume image for any volume of the dataset fails, or a timeout period expires, a cleanup procedure is performed to delete any successful volume images.

A storage system is provided. The storage system includes a plurality of storage units, each having a controller and solid-state storage memory. The storage system further includes one or more first pathways that couple processing devices of a plurality of storage nodes and is configured to couple to a network external to the storage system and one or more second pathways that couple the plurality of storage nodes to the plurality of storage units, wherein the one or more second pathways enable multiprocessing applications.

An apparatus for processing data includes a data detector configured to detect data values in data sectors to yield detected data, a data decoder configured to decode the detected data, wherein the data detector and the data decoder are configured to process the data sectors in a series of global iterations, a memory configured to store parity sector soft information, and a scheduler configured to control overlapping reprocessing of a failed sector in the data detector and the data decoder based on the parity sector soft information with processing of another data sector in the data detector and the data decoder.

A system includes a processor having first and second processing units and a memory coupled to the processor. The memory includes processor executable code to implement an application to execute a first process to provide first application output information and to execute a second process to provide second application output information, a selector to provide a first indication that the first process is a critical process and a second indication that the second process is a non-critical process, and an application program interface (API) to run on the first processing unit. The API directs the processor to run the application on the second processing unit, executes the first process to provide first API output information in response to the first indication; determines if the first application output information matches the first API output information, and determines to not execute the second process in response to the second indication.

A system for maintaining a two-site configuration for continuous availability over long distances may include a first computing site configured to execute a first instance associated with a priority workload, the first instance being designated as an active instance; a second computing site configured to execute a second instance of the priority workload, the second instance being designated as a standby instance; a software replication module configured to replicate a unit of work data associated with the priority workload from a first data object associated with the active instance to a second data object associated with the standby instance, and a hardware replication module configured to replicate an image from a first storage volume to a copy on a second storage volume, wherein the first storage volume is associated with the first computing site, and the second storage volume is associated with a third computing site.

An information handling system and method allows implementation of fault-tolerant storage subsystems using multiple storage controllers not themselves originally designed to support the redundancy of such fault-tolerant storage subsystems. In accordance with one embodiment, uncommitted data is efficiently and rapidly replicated across multiple commodity storage controllers, enabling faster and less expensive fault-tolerant storage subsystems. A redundant storage controller system using non-redundant storage controllers can improve the efficiency of data replication while providing failure protection against controller failure. A redundant storage controller system using non-redundant storage controllers and shared memory commonly accessible to the storage controllers can be enhanced to replicate data within host memory regions to protect against non-volatile memory failure. In accordance with at least one embodiment, an efficient data replication mechanism can be provided between storage controllers using off-the-shelf hardware.

A data processing network is for performing a plurality of successive data processing steps in a redundant and validated manner. The data processing steps are each used to generate output data from input data. At least some output data from a first data processing step are at the same time input data of a further data processing step. At least a first data processing module and a second data processing module are provided for performing each data processing step. The data processing network includes a comparator module. The first data processing module and the second data processing module are configured to perform the data processing steps, optionally in a first working mode with parallel operation, or in a second working mode with an upstream data processing module and a downstream data processing module.