摘要:
In a cryptographically-segmented network, a server establishes a cryptographically-segmented communication channel for use by authorized endpoints in an operationally-deployed configuration. In response to a received endpoint-isolation command to isolate a first endpoint, the server de-authorizes the first endpoint from the channel of the operationally-deployed configuration. In response to the de-authorization, the server issues a configuration instruction to the first endpoint to join a first cryptographically-segmented isolation communication channel that is communicatively coupled with at least one monitoring endpoint configured to monitor operation of the first endpoint via the first cryptographically-segmented isolation communication channel.
摘要:
This application relates in general to a method, apparatus, and article of manufacture for providing secure and redundant communications and processing for a collection of Internet of Things. An extreme way of providing high availability network functionality would be to duplicate every component of the network in a High Availability (HA) style cold standby mode. As long as there is some component, even one that is already in use performing other functions in the IoT network that can pinch hit for the failing component, then uptime can still be achieved and in a more cost effective way than completely duplicate HA fashion.
摘要:
A crossbar structure for use in a multi-processor computer system to connect a plurality of processors to at least one shared resource. The crossbar structure comprises for each processor, a storage location for receiving from a respective processor a memory address of a lock control structure associated with the shared resource. When the processor needs to acquire a lock thereto, the crossbar structure, on behalf of the processor, performs memory operations on the lock control structure at the address specified in the storage location in order to acquire the lock on behalf of the processor.
摘要:
In general, techniques for performing decentralized hardware partitioning within a multiprocessing computing system are described herein. More specifically, the multiprocessing computing system comprises first and second independent computing cells, where the first cell comprises a first processor that calculates a partition identifier. The partition identifier uniquely identifies a partition to which the first cell belongs. The first cell also comprises a second processor that establishes the partition within the multiprocessing computing system based on the partition identifier, and executes a single operating system across the partition. In the event the established partition successfully includes the first and second cells, the first and second cells execute the single operating system across the partition. Because the cells themselves perform the partitioning process, scalability may be achieved more easily. Moreover, the overall cost of the system may be reduced because a dedicated processor may no longer be required to perform partitioning.
摘要:
A fabric computer method and system for recovering fabric computer node function. The fabric computer method includes monitoring a processing environment operating on a first Processor and Memory node within the fabric computer complex, detecting a failure of the first Processor and Memory node, and transferring the processing environment from the first Processor and Memory node to a second Processor and Memory node within the fabric computer complex in response to the detection of a failure of the first Processor and Memory node. The fabric computer system includes a first Processor and Memory node, a second Processor and Memory node coupled to the first Processor and Memory node, at least one input/output (I/O) and Networking node coupled to the first and second Processor and Memory nodes, and a fabric manager coupled to the first and second Processor and Memory nodes and the at least one I/O and Networking node. The fabric manager is configured to monitor a processing environment operating on the first Processor and Memory node, to receive notification of a failure of the first Processor and Memory node, and to transfer the processing environment from the first Processor and Memory node to the second Processor and Memory node in response to the detection of a failure of the first Processor and Memory node.
摘要:
This application relates in general to a method, apparatus, and article of manufacture for providing secure and redundant communications and processing for a collection of Internet of Things. An extreme way of providing high availability network functionality would be to duplicate every component of the network in a High Availability (HA) style cold standby mode. As long as there is some component, even one that is already in use performing other functions in the IoT network that can pinch hit for the failing component, then uptime can still be achieved and in a more cost effective way than completely duplicate HA fashion.
摘要:
Apparatus and method that incorporate bussed test access port interface into a system control interface for testing and controlling system logic boards in a manner that is fully compliant with the IEEE 1149.1 standard, while conserving system controller card signals. The apparatus incorporates six signals per interface, which includes the five standard signals as defined by IEEE 1149.1 standard plus a maintenance enable (ME) signal. Four of the standard signals, TCK, TMS, TDI and TRST* are bussed among multiple system logic boards, while the ME signals and the TDO signals are connected in a point-to-point manner between the system controller card and system logic boards. Instruction and data on the TCK, TMS, TDI, and TRST* signals are simultaneously bussed to all system logic boards. These four signals are received by each system logic board through an interface enable circuit, controlled by the ME signal line. If the instructions or data are intended for a specific system logic board, its corresponding ME signal line will be enabled to permit the passage of these signals and the resulting TDO signal through the interface enable circuit. This arrangement permits the incorporation of a bussed TAP interface into a system control interface for testing and controlling system logic boards that comply fully with the IEEE 1149.1 standard, while conserving the system controller card backplane pins dedicated to TAP signals, to two pins per system logic board plus four pins for the bussed TAP interface.