Patent application number | Description | Published |
20090006793 | Method And Apparatus To Enable Runtime Memory Migration With Operating System Assistance - In a method for switching to a spare memory module during runtime, a processing system determines that utilization of an active memory module in the processing system should be discontinued. The processing system may then activate a mirror copy mode that causes a memory controller in the processing system to copy data from the active memory module to the spare memory module when the data is accessed in the active memory module. An operating system (OS) in the processing system may then access data in the active memory module to cause the memory controller to copy data from the active memory module to the spare memory module. The processing system may then reconfigure the memory controller to direct reads and writes to the spare memory module instead of the active memory module. Other embodiments are described and claimed. | 01-01-2009 |
20090007121 | Method And Apparatus To Enable Runtime Processor Migration With Operating System Assistance - In a method for switching to a spare processor during runtime, a processing system determines that execution should be migrated off of an active processor. An operating system (OS) scheduler and at least one device are then paused, and the active processor is put into an idle state. State data from writable and substantial non-writable stores in the active processor is loaded into the spare processor. Interrupt routing table logic for the processing system is dynamically reprogrammed to direct external interrupts to the spare processor. The active processor may then be off-lined, and the device and OS scheduler may be unpaused or resumed. Threads may then be dispatched to the spare processor for execution. Other embodiments are described and claimed. | 01-01-2009 |
20090019267 | Method, System, and Apparatus for Dynamic Reconfiguration of Resources - A dynamic reconfiguration to include on-line addition, deletion, and replacement of individual modules of to support dynamic partitioning of a system, interconnect (link) reconfiguration, memory RAS to allow migration and mirroring without OS intervention, dynamic memory reinterleaving, CPU and socket migration, and support for global shared memory across partitions is described. To facilitate the on-line addition or deletion, the firmware is able to quiesce and de-quiesce the domain of interest so that many system resources, such as routing tables and address decoders, can be updated in what essentially appears to be an atomic operation to the software layer above the firmware. | 01-15-2009 |
20090024715 | Method, System, and Apparatus for Dynamic Reconfiguration of Resources - A dynamic reconfiguration to include on-line addition, deletion, and replacement of individual modules of to support dynamic partitioning of a system, interconnect (link) reconfiguration, memory RAS to allow migration and mirroring without OS intervention, dynamic memory reinterleaving, CPU and socket migration, and support for global shared memory across partitions is described. To facilitate the on-line addition or deletion, the firmware is able to quiesce and de-quiesce the domain of interest so that many system resources, such as routing tables and address decoders, can be updated in what essentially appears to be an atomic operation to the software layer above the firmware. | 01-22-2009 |
20090055600 | Method, System, and Apparatus for Dynamic Reconfiguration of Resources - A dynamic reconfiguration to include on-line addition, deletion, and replacement of individual modules of to support dynamic partitioning of a system, interconnect (link) reconfiguration, memory RAS to allow migration and mirroring without OS intervention, dynamic memory reinterleaving, CPU and socket migration, and support for global shared memory across partitions is described. To facilitate the on-line addition or deletion, the firmware is able to quiesce and de-quiesce the domain of interest so that many system resources, such as routing tables and address decoders, can be updated in what essentially appears to be an atomic operation to the software layer above the firmware. | 02-26-2009 |
20130151930 | Injecting A Data Error Into A Writeback Path To Memory - In one embodiment, a processor includes error injection circuitry separate and independent of debug circuitry of the processor. This circuitry can be used by a software developer to seed errors into a write-back path to system memory to emulate errors for purposes of validation of error recovery code of the software. The circuitry can include a register to store an address within the system memory at which an error is to be injected, a detection logic to detect when an instruction associated with the address is issued, and injection logic to cause the error to be injected into the address within the system memory responsive to the detection of the instruction. Other embodiments are described and claimed. | 06-13-2013 |
20130275810 | METHOD AND APPARATUS FOR INJECTING ERRORS INTO MEMORY - Disclosed is an apparatus and a method to inject errors to a memory. In one embodiment, a dedicated interface includes an error injection system address register and an error injection mask register coupled to the error injection system address register. If the error injection system address register includes a system address that matches an incoming write address, the error injection mask register outputs an error to the memory. | 10-17-2013 |
20130304957 | Method, System, and Apparatus for Dynamic Reconfiguration of Resources - A dynamic reconfiguration to include on-line addition, deletion, and replacement of individual modules of to support dynamic partitioning of a system, interconnect (link) reconfiguration, memory RAS to allow migration and mirroring without OS intervention, dynamic memory reinterleaving, CPU and socket migration, and support for global shared memory across partitions is described. To facilitate the on-line addition or deletion, the firmware is able to quiesce and de-quiesce the domain of interest so that many system resources, such as routing tables and address decoders, can be updated in what essentially appears to be an atomic operation to the software layer above the firmware. | 11-14-2013 |
20130332781 | RECOVERY AFTER INPUT/OUPUT ERROR-CONTAINMENT EVENTS - Embodiments of apparatus, computer-implemented methods, systems, devices, and computer-readable media are described herein for a computing device with a platform entity such as an interrupt handier configured to notify an operating system or virtual machine monitor executing on the computing device of an input/output error-containment event. In various embodiments, the interrupt handler may be configured to facilitate recovery of a link to an input/output device that caused the input/output error-containment event, responsive to a directive from the operating system or virtual machine monitor. | 12-12-2013 |
20130339829 | Machine Check Summary Register - In some implementations, a processor may include a machine check architecture having a plurality of error reporting registers able to receive data for machine check errors. A summary register may include a plurality of settable locations that each represents at least one of the error reporting registers. One or more of the settable locations in the summary register may be set to indicate whether one or more of the error reporting registers maintain data for a machine check error. Accordingly, when a machine check error occurs, the summary register may be accessed to identify if any error reporting registers in a processor's view contain valid error data, rather than having to read each of the error reporting registers in the processor's view. | 12-19-2013 |
20140223226 | APPARATUS AND METHOD FOR DETECTING AND RECOVERING FROM DATA FETCH ERRORS - An apparatus and method are described for detecting and correcting data fetch errors within a processor core. For example, one embodiment of an instruction processing apparatus for detecting and recovering from data fetch errors comprises: at least one processor core having a plurality of instruction processing stages including a data fetch stage and a retirement stage; and error processing logic in communication with the processing stages to perform the operations of: detecting an error associated with data in response to a data fetch operation performed by the data fetch stage; and responsively performing one or more operations to ensure that the error does not corrupt an architectural state of the processor core within the retirement stage. | 08-07-2014 |
20140237299 | SECURE ERROR HANDLING - Various embodiments are described herein. Some embodiments include an Operating System and a platform. The platform includes a processor having an error register. The Operating System can write to the error register only via the platform in a secure manner (for example, using platform firmware). Other embodiments are described and claimed. | 08-21-2014 |
20140298140 | APPARATUS AND METHOD FOR IMPLEMENT A MULTI-LEVEL MEMORY HIERARCHY - An apparatus and method are described for detecting and correcting instruction fetch errors within a processor core. For example, in one embodiment, an instruction processing apparatus for detecting and recovering from instruction fetch errors comprises, the instruction processing apparatus performing the operations of: detecting an error associated with an instruction in response to an instruction fetch operation; and determining if the instruction is from a speculative access, wherein if the instruction is not from a speculative access, then responsively performing one or more operations to ensure that the error does not corrupt an architectural state of the processor core. | 10-02-2014 |