Patent application number | Description | Published |
20120254582 | TECHNIQUES AND MECHANISMS FOR LIVE MIGRATION OF PAGES PINNED FOR DMA - Techniques for migrating data from a first range of physical memory locations to a second range of physical memory locations. The second range of physical memory locations is allocated for migration of data from the first range of physical memory locations Pending transactions for the first range of physical memory locations are flushed. One or more address translation entries are reprogrammed. Data is migrated from the first range of physical memory locations to the second range of physical memory locations. Subsequent memory transactions are processed to cause the transactions to be directed to the second range of physical memory locations. | 10-04-2012 |
20130031333 | METHOD AND APPARATUS FOR TLB SHOOT-DOWN IN A HETEROGENEOUS COMPUTING SYSTEM SUPPORTING SHARED VIRTUAL MEMORY - Methods and apparatus are disclosed for efficient TLB (translation look-aside buffer) shoot-downs for heterogeneous devices sharing virtual memory in a multi-core system. Embodiments of an apparatus for efficient TLB shoot-downs may include a TLB to store virtual address translation entries, and a memory management unit, coupled with the TLB, to maintain PASID (process address space identifier) state entries corresponding to the virtual address translation entries. The PASID state entries may include an active reference state and a lazy-invalidation state. The memory management unit may perform atomic modification of PASID state entries responsive to receiving PASID state update requests from devices in the multi-core system and read the lazy-invalidation state of the PASID state entries. The memory management unit may send PASID state update responses to the devices to synchronize TLB entries prior to activation responsive to the respective lazy-invalidation state. | 01-31-2013 |
20130054935 | SYNCHRONIZING A TRANSLATION LOOKASIDE BUFFER WITH AN EXTENDED PAGING TABLE - A processor including logic to execute an instruction to synchronize a mapping from a physical address of a guest of a virtualization based system (guest physical address) to a physical address of the host of the virtualization based system (host physical address), and stored in a translation lookaside buffer (TLB), with a corresponding mapping stored in an extended paging table (EPT) of the virtualization based system. | 02-28-2013 |
20130159579 | VIRTUALIZING INTERRUPT PRIORITY AND DELIVERY - Embodiments of processors, methods, and systems for virtualizing interrupt prioritization and delivery are disclosed. In one embodiment, a processor includes instruction hardware and execution hardware. The instruction hardware is to receive a plurality of instructions, including a first instruction to transfer the processor from a root mode to a non-root mode for executing guest software in a virtual machine, wherein the processor is to return to the root mode upon the detection of any of a plurality of virtual machine exit events. The execution hardware is to execute the first instruction, execution of the first instruction to include determining a first virtual processor-priority value and storing the first virtual processor-priority value in a virtual copy of a processor-priority field, where the virtual copy of the processor-priority field is a virtual resource corresponding to a physical resource associated with an interrupt controller. | 06-20-2013 |
20140059320 | SYNCHRONIZING A TRANSLATION LOOKASIDE BUFFER WITH AN EXTENDED PAGING TABLE - A processor including logic to execute an instruction to synchronize a mapping from a physical address of a guest of a virtualization based system (guest physical address) to a physical address of the host of the virtualization based system (host physical address), and stored in a translation lookaside buffer (TLB), with a corresponding mapping stored in an extended paging table (EPT) of the virtualization based system. | 02-27-2014 |
20140189445 | SIGNALING SOFTWARE RECOVERABLE ERRORS - Embodiments of an invention for signaling software recoverable errors are disclosed. In one embodiment, a processor includes a first unit, a programmable indicator, and a second unit. The first unit is to detect a poison error. The programmable indicator is to indicate whether the poison error is signaled as a machine check error or as one of a fault and a system management interrupt. The second unit is to signal the poison error as one of a fault and a system management error responsive to the programmable indicator. | 07-03-2014 |
20150039850 | SYNCHRONIZING A TRANSLATION LOOKASIDE BUFFER WITH AN EXTENDED PAGING TABLE - A processor including logic to execute an instruction to synchronize a mapping from a physical address of a guest of a virtualization based system (guest physical address) to a physical address of the host of the virtualization based system (host physical address), and stored in a translation lookaside buffer (TLB), with a corresponding mapping stored in an extended paging table (EPT) of the virtualization based system. | 02-05-2015 |
20150058510 | VIRTUALIZING INTERRUPT PRIORITY AND DELIVERY - Embodiments of processors, methods, and systems for virtualizing interrupt prioritization and delivery are disclosed. In one embodiment, a processor includes instruction hardware and execution hardware. The instruction hardware is to receive a plurality of instructions, including a first instruction to transfer the processor from a root mode to a non-root mode for executing guest software in a virtual machine, wherein the processor is to return to the root mode upon the detection of any of a plurality of virtual machine exit events. The execution hardware is to execute the first instruction, execution of the first instruction to include determining a first virtual processor-priority value and storing the first virtual processor-priority value in a virtual copy of a processor-priority field, where the virtual copy of the processor-priority field is a virtual resource corresponding to a physical resource associated with an interrupt controller. | 02-26-2015 |