Patent application number | Description | Published |
20110154104 | Controlling Memory Redundancy In A System - In one embodiment, the present invention provides an ability to handle an error occurring during a memory migration operation in a high availability system. In addition, a method can be used to dynamically remap a memory page stored in a non-mirrored memory region of memory to a mirrored memory region. This dynamic remapping may be responsive to a determination that the memory page has been accessed more than a threshold number of times, indicating a criticality of information on the page. Other embodiments are described and claimed. | 06-23-2011 |
20110161592 | Dynamic system reconfiguration - In some embodiments system reconfiguration code and data to be used to perform a dynamic hardware reconfiguration of a system including a plurality of processor cores is cached and any direct or indirect memory accesses during the dynamic hardware reconfiguration are prevented. One of the processor cores executes the cached system reconfiguration code and data in order to dynamically reconfigure the hardware. Other embodiments are described and claimed. | 06-30-2011 |
20110179311 | INJECTING ERROR AND/OR MIGRATING MEMORY IN A COMPUTING SYSTEM - In some embodiments a request is received to perform an error injection or a memory migration, a mode is entered that blocks requests from agents other than a current processor core or thread, the error is injected or the memory is migrated, and the mode that blocks requests from the agents other than the current processor core or thread is exited. Other embodiments are described and claimed. | 07-21-2011 |
20130212426 | Controlling Memory Redundancy In A System - In one embodiment, the present invention provides an ability to handle an error occurring during a memory migration operation in a high availability system. In addition, a method can be used to dynamically remap a memory page stored in a non-mirrored memory region of memory to a mirrored memory region. This dynamic remapping may be responsive to a determination that the memory page has been accessed more than a threshold number of times, indicating a criticality of information on the page. Other embodiments are described and claimed. | 08-15-2013 |
20130290759 | ENHANCED SYSTEM SLEEP STATE SUPPORT IN SERVERS USING NON-VOLATILE RANDOM ACCESS MEMORY - A non-volatile random access memory (NVRAM) is used in a computer system to enhance support to sleep states. The computer system includes a processor, a non-volatile random access memory (NVRAM) that is byte-rewritable and byte-erasable, and power management (PM) module. A dynamic random access memory (DRAM) provides a portion of system address space. The PM module intercepts a request initiated by an operating system for entry into a sleep state, copies data from the DRAM to the NVRAM, maps the portion of the system address space from the DRAM to the NVRAM, and turns off the DRAM when transitioning into the sleep state. Upon occurrence of a wake event, the PM module returns control to the operating system such that the computer system resumes working state operations without the operating system knowing that the portion of the system address space has been mapped to the NVRAM. | 10-31-2013 |
20130304980 | AUTONOMOUS INITIALIZATION OF NON-VOLATILE RANDOM ACCESS MEMORY IN A COMPUTER SYSTEM - A non-volatile random access memory (NVRAM) is used in a computer system to store information that allows the NVRAM to autonomously initialize itself at power-on. The computer system includes a processor, an NVRAM controller coupled to the processor, and an NVRAM that comprises the NVRAM controller. The NVRAM is byte-rewritable and byte-erasable by the processor. The NVRAM stores a memory interface table containing information for the NVRAM controller to autonomously initialize the NVRAM upon power-on of the computer system without interacting with the processor and firmware outside of the NVRAM. The information is provided by the NVRAM controller to the processor to allow the processor to access the NVRAM. | 11-14-2013 |
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 |
20140082262 | APPARATUS, METHOD AND SYSTEM THAT STORES BIOS IN NON-VOLATILE RANDOM ACCESS MEMORY - A non-volatile random access memory (NVRAM) is used in a computer system to perform multiple roles in the platform storage hierarchy. The NVRAM is byte-rewritable and byte-erasable by the processor. The NVRAM is coupled to the processor to be directly accessed by the processor without going through an I/O subsystem. The NVRAM stores a Basic Input and Output System (BIOS). During a Pre-Extensible Firmware Interface (PEI) phase of the boot process, the cache within the processor can be used in a write-back mode for execution of the BIOS. | 03-20-2014 |
20140143577 | POWER CONSERVATION BY WAY OF MEMORY CHANNEL SHUTDOWN - A method is described that includes deciding to enter a lower power state, and, shutting down a memory channel in a computer system in response where thereafter other memory channels in the computer system remain active so that computer remains operative while the memory channel is shutdown. | 05-22-2014 |
20140195876 | Memory Module Architecture - In accordance with some embodiments, memory modules containing phase change memory elements may be organized so that each memory integrated circuit includes both data and error correcting code. As a result of including the error correcting code in each integrated circuit, extra accesses of the memory module to extract the error correcting code can be avoided, improving the performance of the overall memory module in some embodiments. | 07-10-2014 |
20140297919 | APPARATUS AND METHOD FOR IMPLEMENTING A MULTI-LEVEL MEMORY HIERARCHY - A system and method are described for intelligently flushing data from a processor cache. For example, a system according to one embodiment of the invention comprises: a processor having a cache from which data is flushed, the data associated with a particular system address range; and a PCM memory controller for managing access to data stored in a PCM memory device corresponding to the particular system address range; the processor determining whether memory flush hints are enabled for the specified system address range, wherein if memory flush hints are enabled for the specified system address range then the processor sending a memory flush hint to a PCM memory controller of the PCM memory device and wherein the PCM memory controller uses the memory flush hint to determine whether to save the flushed data to the PCM memory device. | 10-02-2014 |