Patent application number | Description | Published |
20090070510 | PROCESSOR SELECTION FOR AN INTERRUPT BASED ON WILLINGNESS TO ACCEPT THE INTERRUPT AND ON PRIORITY - In some embodiments, an apparatus includes processors, signal storage circuitry, and processor selection logic. The signal storage circuitry is to hold willingness indication signals each indicative of a willingness level of an associated one of the processors to receive an interrupt and to hold priority indication signals each indicative of a processor priority level of an associated one of the processors, wherein there are multiple possible willingness levels and multiple possible processor priority levels. The processor selection logic is to select one of the processors to receive an interrupt based at least on the willingness indication signals. Other embodiments are described. | 03-12-2009 |
20090070511 | PROCESSOR SELECTION FOR AN INTERRUPT IDENTIFYING A PROCESSOR CLUSTER - In some embodiments, an apparatus includes processor selection logic to receive logical destination identification numbers that are associated with interrupts each having a processor cluster identification number to identify a cluster of processors to which the interrupts are directed. The logical destination identification numbers are each to identify which processors within the identified cluster of processors are available to receive the corresponding one of interrupts. The processor selection logic is to select one of the available processors to receive the interrupt, and the selected one of the available processors is identified through a relative position of a corresponding bit in the logical destination identification numbers. Other embodiments are described. | 03-12-2009 |
20090070551 | CREATION OF LOGICAL APIC ID WITH CLUSTER ID AND INTRA-CLUSTER ID - In some embodiments, an apparatus includes logical interrupt identification number creation logic to receive physical processor identification numbers and create logical processor identification numbers through using the physical processor identification numbers. Each of the logical processor identification numbers corresponds to one of the physical processor identification numbers, and the logical processor identification numbers each include a processor cluster identification number and an intra-cluster identification number. The processor cluster identification numbers are each formed to include a group of bits from the corresponding physical processor identification number shifted in position, and the intra-cluster identification numbers are each formed in response to values of others of the bits of the corresponding physical processor identification number. Other embodiments are described. | 03-12-2009 |
20090106471 | APPARATUS AND METHOD FOR ENUMERATION OF PROCESSORS DURING HOT-PLUG OF A COMPUTE NODE - An apparatus and method for enumeration of processors during hot-plug of a compute node are described. The method includes the enumeration, in response to a hot-plug reset, of one or more processors. The enumeration is provided to a system architecture operating system in which a compute node is hot-plugged. Once enumeration is complete, the compute node is started in response to an operating system activation request. Accordingly, once device enumeration, as well as resource enumeration are complete, the one or more processors of the processor memory node are activated, such that the operating system may begin utilizing the processors of the hot-plugged compute node. | 04-23-2009 |
20110087867 | PRIMITIVES TO ENHANCE THREAD-LEVEL SPECULATION - A processor may include an address monitor table and an atomic update table to support speculative threading. The processor may also include one or more registers to maintain state associated with execution of speculative threads. The processor may support one or more of the following primitives: an instruction to write to a register of the state, an instruction to trigger the committing of buffered memory updates, an instruction to read the a status register of the state, and/or an instruction to clear one of the state bits associated with trap/exception/interrupt handling. Other embodiments are also described and claimed. | 04-14-2011 |
20120017221 | Mechanism for Monitoring Instruction Set Based Thread Execution on a Plurality of Instruction Sequencers - A technique to monitor software thread performance and update software that issues or uses the thread(s) to reduce performance-inhibiting events. At least one embodiment of the invention uses hardware and/or software timers or counters to monitor various events associated with executing user-level threads and report these events back to a user-level software program, which can use the information to avoid or at least reduce performance-inhibiting events associated with the user-level threads. | 01-19-2012 |
20120084536 | PRIMITIVES TO ENHANCE THREAD-LEVEL SPECULATION - A processor may include an address monitor table and an atomic update table to support speculative threading. The processor may also include one or more registers to maintain state associated with execution of speculative threads. The processor may support one or more of the following primitives: an instruction to write to a register of the state, an instruction to trigger the committing of buffered memory updates, an instruction to read the a status register of the state, and/or an instruction to clear one of the state bits associated with trap/exception/interrupt handling. Other embodiments are also described and claimed. | 04-05-2012 |
20130054940 | MECHANISM FOR INSTRUCTION SET BASED THREAD EXECUTION ON A PLURALITY OF INSTRUCTION SEQUENCERS - In an embodiment, a method is provided. The method includes managing user-level threads on a first instruction sequencer in response to executing user-level instructions on a second instruction sequencer that is under control of an application level program. A first user-level thread is run on the second instruction sequencer and contains one or more user level instructions. A first user level instruction has at least 1) a field that makes reference to one or more instruction sequencers or 2) implicitly references with a pointer to code that specifically addresses one or more instruction sequencers when the code is executed. | 02-28-2013 |
20130073835 | PRIMITIVES TO ENHANCE THREAD-LEVEL SPECULATION - A processor may include an address monitor table and an atomic update table to support speculative threading. The processor may also include one or more registers to maintain state associated with execution of speculative threads. The processor may support one or more of the following primitives: an instruction to write to a register of the state, an instruction to trigger the committing of buffered memory updates, an instruction to read the a status register of the state, and/or an instruction to clear one of the state bits associated with trap/exception/interrupt handling. Other embodiments are also described and claimed. | 03-21-2013 |
20140115594 | MECHANISM TO SCHEDULE THREADS ON OS-SEQUESTERED SEQUENCERS WITHOUT OPERATING SYSTEM INTERVENTION - Method, apparatus and system embodiments to schedule OS-independent “shreds” without intervention of an operating system. For at least one embodiment, the shred is scheduled for execution by a scheduler routine rather than the operating system. A scheduler routine may run on each enabled sequencer. The schedulers may retrieve shred descriptors from a queue system. The sequencer associated with the scheduler may then execute the shred described by the descriptor. Other embodiments are also described and claimed. | 04-24-2014 |