Abstract: Embodiments of apparatuses and methods for processing virtualization events in a layered virtualization architecture are disclosed. In one embodiment, an apparatus includes a event logic and evaluation logic. The event logic is to recognize a virtualization event. The evaluation logic is to determine whether to transfer control from a child guest to a parent guest in response to the virtualization event.

Abstract: A system to synchronize processors includes one or more subsystems to receive an interrupt command, instruct a plurality of processors to enter an entry synchronization loop of an interrupt handler, determine by each of the plurality of processors whether all of the plurality of processors have entered their respective interrupt handler before exiting the entry synchronization loop, determine whether a timeout value has been reached, determine type of the interrupt command received and in response to the type of interrupt command received, determine whether to exit the entry synchronization loop after the timeout value has been reached.

Abstract: Various technologies and techniques are disclosed that provide fast context switching. One embodiment provides a method for a context switch comprising preloading a host virtual machine context in a first portion of a processor, operating a guest virtual machine in a second portion of the processor, writing parameters of the host virtual machine context to a memory location shared by the host virtual machine and the guest virtual machine, and operating the host virtual machine in the processor. In this manner, a fast context switch may be accomplished by preloading the new context in a virtual processor, thus reducing the delay to switch to the new context.

Abstract: A hypervisor receives an interrupt that includes a target address and, in turn, branches to an administrating interrupt vector. Next, the administrating interrupt vector determines whether to branch to a piggyback interrupt handler corresponding to a piggyback interrupt vector. Based upon the determination, the hypervisor either branches to the piggyback interrupt handler or to an administrating interrupt handler that corresponds to the administrating interrupt vector.

Abstract: This disclosure describes a processor system that allows non-real time code to execute normally, while permitting a real time interrupt in hardware or software to execute with minimal added latency.

Abstract: A method for efficiently handling interrupts in a virtual technology environment with integrity services is provided. The method comprises assigning an interrupt to a virtual machine that is running a software agent; suspending the software agent; invoking a protected interrupt handler; copying the interrupt's memory content to a protected location, in response to successfully verifying the integrity of the content; replacing the interrupt's return address with a return address for a protected function; switching from the software agent's protected context to its active context; executing the original interrupt handler; returning control to the protected function to ensure that execution of the software agent resumes safely; switching back to the software agent's protected context, in response to successfully verifying the integrity of the content; and passing control back to the software agent to resume execution.

Abstract: The present invention provides a data processing system having excellent immediacy of interrupting process. Different interrupt request signals are supplied from a circuit module which can be commonly used by a plurality of central processing units to a plurality of interrupt controllers assigned to central processing units, respectively. In response to the input interrupt request signal, each of the interrupt controllers notifies the corresponding central processing unit of an interrupt. The circuit module selects an interrupt controller for supplying an interrupt request signal from the plural interrupt controllers. For example, the circuit module identifies a central processing unit which instructed a start request and supplies an interrupt request signal to an interrupt controller corresponding to the central processing unit. The burden of the interrupting process of the single central processing unit can be lessened.

Abstract: In an embodiment, a system comprises a memory system configured to store a data structure. The data structure stores at least an interrupt request state for each destination in each of a plurality of guests executable on the system. The interrupt request state identifies which interrupts have been requested at the corresponding interrupt controller in the corresponding guest of the plurality of guests. A guest interrupt manager is coupled to receive an interrupt message targeted at a first destination in a first guest of the plurality of guests, and the guest interrupt manager is configured to update the interrupt request state in the data structure that corresponds to the first destination and the first guest.

Abstract: A method for managing states by a Media Access Control (MAC) layer in a wireless network is disclosed. The method includes determining next occurable physical interrupts for each of the states; configuring a link of the states according to the determination result; transitioning to a state to be linked next if a physical interrupt occurs in each state; and transitioning to an initial state if an timer interrupt occurs in each state. The MAC layer transitions to the initial state if a physical interrupt occurs in a last state among the linked states. The physical interrupt occurs in association with a physical event, and the timer interrupt occurs in association with a timer event.

Abstract: A method, processor, and system are disclosed. In one embodiment method includes a first processor core among several processor cores entering into a system management mode. At least one of the other additional processor cores apart from the first processor core remain operational and do not enter the system management mode. Then, once in the system management mode, the first processor core responds to an inter-processor interrupt.

Abstract: An interrupt detection apparatus includes a detection address region storing unit configured to store an address region, as a detection address region, to be detected in accordance with a first interrupt message having address information, an issuance interrupt information storing unit configured to store address information of a second interrupt message as issuance interrupt information, an interrupt message detection unit configured to determine that the first interrupt message corresponds to the detection address region, and an interrupt issuing unit configured to issue the second interrupt message having the issuance interrupt information when it is determined that the first interrupt message corresponds to the detection address region.

Abstract: Machine-readable media, methods, and apparatus are described to issue message signaled interrupts. In some disclosed embodiments, a device generates message signaled interrupts in a manner that enables a device driver written with level-sensitive semantics to properly service the device despite the edge-triggered characteristics message signaled interrupts.

Abstract: A method, processor, and system are disclosed. In one embodiment method includes a first processor core among several processor cores entering into a system management mode. At least one of the other additional processor cores apart from the first processor core remain operational and do not enter the system management mode. Then, once in the system management mode, the first processor core responds to an inter-processor interrupt.

Abstract: In accordance with certain embodiments of the present disclosure, an information handling system is provided. The information handling system may include a plurality of processors, each processor comprising multiple cores, a memory system coupled to the plurality of processors, and a controller coupled to the plurality of processors. The controller may be configured to: receive a local system management interrupt (SMI) signal regarding an error associated with at least one of the multiple cores, determine that the received local SMI signal triggers a global SMI based on a global SMI trigger rule, cause the plurality of processors to enter a global system management mode (SMM), and log the error in a shared resource shared by the plurality of processors during the global SMM.

Abstract: A processor system with an application and a maintenance function that would interfere with the application if concurrently executed. The processor system comprises a set of processor cores operable in different security and context-related modes, said processors having at least one interrupt input and at least one wait for interrupt output. The processor system also comprises a wait for interrupt expansion circuit responsive to the at least one wait for interrupt output to provide an interrupt signal, at least one of said processor cores operable in response to the interrupt signal to schedule a maintenance function separated in time from execution of the application.

Abstract: A technique to enable efficient interrupt communication within a computer system. In one embodiment, an advanced programmable interrupt controller (APIC) is interfaced via a set of of bits within an APIC interface register using various interface instructions or operations, without using memory-mapped input/output (MMIO).

Abstract: A processing system operable in various execution environments. The system comprises plural processor cores having respective interrupt inputs, respective wait for interrupt outputs, and respective security outputs. The system also comprises a register coupled to at least one of the processor cores for identifying active execution environments. The system also comprises a global interrupt handler operable to selectively route interrupts to one or more of the interrupt inputs of said plural processor cores. The system also comprises a conversion circuit having plural interrupt-related output lines, and said conversion circuit fed with at least some of said respective wait for interrupt outputs and respective security outputs and fed by said register.

Abstract: A computer system which shortens standby time of CPUs and improves CPU processing efficiency of a performance mode upon switching from the performance mode (parallel operation) to a safety mode (master/checker operation) is provided. In a computer system including: at least two CPUs; a programmable interrupt controller for interrupting the CPUs; and a comparator for mutually comparing outputs of the CPUs, switching between the performance mode of executing mutually different processes by the CPUs, respectively, to improve performance and the safety mode of executing mutually the same processes by the CPUs and collating results by the comparator to detect failure can be carried out; CPUs to be interrupted can be set for each interrupt factor; and whether the performance mode is to be executed or the safety mode is to be executed can be set for each interrupt factor.

Abstract: In an embodiment of the invention, an apparatus and method for a target thread selection in a multi-threaded process perform the steps of receiving a signal that may or may not be masked by threads in the process; and searching a thread subset for a target thread that can handle the signal. A signal daemon may search for the target thread if the target thread is not found in the thread subset.

Abstract: A system to synchronize processors includes one or more subsystems to receive an interrupt command, instruct a plurality of processors to enter an entry synchronization loop of an interrupt handler, determine by each of the plurality of processors whether all of the plurality of processors have entered their respective interrupt handler before exiting the entry synchronization loop, determine whether a timeout value has been reached, determine type of the interrupt command received and in response to the type of interrupt command received, determine whether to exit the entry synchronization loop after the timeout value has been reached.

Abstract: In a computer system according to the present invention, a switch-source OS controller unit includes: a OS switch request receiver unit configured to receive an OS switch request for requesting that the switch-destination OS in a suspend status becomes the OS in the active status; a switch event notifying unit configured to notify event information to the switch-destination OS or an application on the switch-destination OS, the event information being included in the received OS switch request, and requesting the switch-destination OS or the application on the switch-destination OS to perform a process; and a switch controller unit configured to call the OS switching function, by using the event information as an argument, so that the switch-destination OS becomes the OS in the active status.

Abstract: A network control device including a network controller for transmitting/receiving data through a network and storing received data in a storage and a network processor for processing data stored in the storage is provided with a usage information acquiring section for acquiring usage information indicating usage state of a CPU, a determining section for determining load state of the CPU from the usage information based on a determination condition, and a mode setting section for setting an interrupt mode to the network processor when the determined load state is low and setting a polling mode when the determined load state is high, the network processor processes data stored in the storage when receiving interrupt notification of the network controller during the interrupt mode, deters the interrupt notification of the network controller during the polling mode and processing data stored in the storage at predetermined intervals.

Abstract: A method of grouping interrupts from a time-dependent data storage means in accordance with the types of the interrupts, the method comprising the steps of providing each part of the data storage means with an indicator of an event associated with the part, generating interrupts upon the occurrence of events in different parts of the data storage means, allocating interrupts associated with substantially the same part of the data storage means to a same processing means.

Abstract: A system to synchronize processors includes one or more subsystems to receive an interrupt command, instruct a plurality of processors to enter an entry synchronization loop of an interrupt handler, determine by each of the plurality of processors whether all of the plurality of processors have entered their respective interrupt handler before exiting the entry synchronization loop, determine whether a timeout value has been reached, determine type of the interrupt command received and in response to the type of interrupt command received, and determine whether to exit the entry synchronization loop after the timeout value has been reached.

Abstract: A method, apparatus, and computer usable program code for logical partitioning and virtualization in heterogeneous computer architecture. In one illustrative embodiment, a portion of a first set of processors of a first type is allocated to a partition in a heterogeneous logically partitioned system and a portion of a second set of processors of a second type is allocated to the partition.

Abstract: A system (150) and method are disclosed that provide for the transfer of at least one packet (194) comprising data between a user space (152) and a kernel space (154) associated with a server (156) that is positioned in a distributed network arrangement (192) with a plurality of clients (158, 160, 162, 164). A distribution program (168) associated with the user space (152) is operable to accumulate the at least one packet (194). An application program interface (174) associated with the user space (152) transfers the at least one packet (194) to the kernel space (154) with a number of software interrupts (204). A driver (176) associated with the kernel space (154) is operable to distribute the at least one packet (194) to a subset of the plurality of clients (158, 160, 162, 164) in response to receiving the number of software interrupts (204). The number of software interrupts (204) is less than one software interrupt per packet per client.

Abstract: A multi-threaded processor is disclosed that includes a sequencer adapted to provide instructions associated with one or more threads of a multi-threaded processor. The sequencer includes an interrupt controller adapted to receive one or more interrupts and to selectively allow a first thread of the one or more threads to service at least one interrupt. The interrupt controller includes logic to preclude a second thread of the one or more threads from responding to the at least one interrupt.

Abstract: A multi-processor system with a plurality of unit processors includes: a request accepting section for accepting a first request and a second request, wherein the first request is a request to execute a program that can be executed in any of said unit processors and the second request is a request to execute a program that can be executed only in a specified unit processor among said unit processors; and a unit processor allocating section for allocating the first request and the second request accepted by said request accepting section to said unit processors according to priority of the first request and the second request.

Abstract: Methods, systems, apparatuses and program products are disclosed for managing interrupt services in hypervisor and hypervisor-related environments in Message Signaled Interrupts are emulated as other type(s) of interrupt. According to an aspect of the present invention, a method of executing a program includes receiving a MSI (message signaled interrupt). Responsively, a virtual interrupt is generated and an ISR (interrupt service routine) is invoked that handles a line-based virtual interrupt transaction. A surrogate or virtual peripheral device status may also be provided and may be associated with the virtual interrupt. A single device interrupt event may, in certain circumstances, be serviced both as a line-based interrupt and also as an MSI, or as either responsive to run-time context. Embodiments of the present invention enable superior tradeoffs in regards to the interrupt sharing to a greater and more flexible extent than with previous implementations.

Abstract: An electronic power management system comprising plural processors operable in different security and context-related modes and having respective supply voltage inputs and clock inputs, said processors having at least one interrupt input and at least one wait for interrupt output. The system further comprises a power control circuit operable to configurably adjust supply voltages and clock rates for said supply voltage inputs and clock inputs. The system further comprises a wait for interrupt expansion circuit responsive to the at least one wait for interrupt output to provide an interrupt signal, at least one of said processors operable to configure said power control circuit in response to the interrupt signal.

Abstract: A method and apparatus for balancing power savings and performance in handling interrupts is herein described. When an amount of interrupt activity is above a threshold, a performance mode of interrupt handling is selected. During the performance mode, interrupts and/or interrupt sources are distributed among multiple physical sockets, i.e. multiple physical processors. However, if the interrupt activity is below a threshold for a number of periods, which denotes low interrupt activity, then a power save mode is selected. Here, interrupts and/or sources are primarily assigned to a single processor to allow other physical processors to save power. Furthermore, after interrupts are assigned to a physical processor, the interrupts may be further distributed among cache domains of the processor. In addition, high activity classes, interrupt sources, interrupts, or categories may be further assigned to specific processing elements for servicing.

Abstract: Disclosed is an interrupt dispatching system and method in a multi-core processor environment. The processor includes an interrupt dispatcher and N cores capable of interrupt handling which are divided into a plurality of groups of cores, where N is a positive integer greater than one. The method generates a token in response to an arriving interrupt; determines a group of cores to be preferentially used to handle the interrupt as a hot group in accordance with the interrupt; and sends the token to the hot group, determines sequentially from the first core in the hot group whether an interrupt dispatch termination condition is satisfied, and determines the current core as a response core to be used to handle the interrupt upon determining satisfaction of the interrupt dispatch termination condition. With the invention, delay in responding to an interrupt by the processor is reduced providing optimized performance of the processor.

Abstract: An electronic interrupt circuit includes an interrupt-related input line, a security-related status input line, a context-related status input line, and a conversion circuit having plural interrupt-related output lines and selectively operable in response to an interrupt-related signal on said interrupt-related input line depending on an active or inactive status of each of said security-related status input line and said context-related status input line.

Abstract: A system including an event monitor for monitoring at least one transmission link. Each event monitor receives transmission link addresses from an address sequencer and transmits related event data to a centralized storage register. The address sequencer also transmits the addresses to the storage register. The event monitor compares new event data for each address with old event data stored by the event monitor. If a difference is detected, the event monitor sends a strobe signal to the storage register, which stores the event data reflecting the difference and the related address data. The strobe signal is also sent to a signaling device, which sends an interrupt signal to cause a microprocessor to read the event and address data from the storage register. Optionally, the signaling device does not send an interrupt signal until a threshold number of strobe signals have been received.

Abstract: Described embodiments provide a transceiver for transferring data between a media controller and a host device through a communication link. The transceiver includes a first interrupt generator configured to i) generate a first interrupt when a command is received from the host device and ii) provide the received command to a receive buffer. A command processing module i) retrieves the received command from the receive buffer, ii) processes the received command, and iii) provides data request data in response to the received command to a transmit buffer. A datagram generator is configured to provide datagram data to the transmit buffer and a second interrupt generator is configured to generate a second interrupt when data in the transmit buffer is ready for transmission. The transmit buffer interleaves i) the data request data in response to the received command and ii) the datagram data, when provided to the communication link.

Abstract: A memory module including a plurality of memory banks, a memory control unit, and a built-in self-test (BIST) control unit is provided. The memory banks store data. The memory control unit accesses the data in accordance with a system command. The BIST control unit generates a BIST command to the memory control unit when a BIST function is enabled in the memory module. While the system command accessing the data in a specific memory bank exists, the memory command control unit has the priority to execute the system command instead of the BIST command testing the specific memory bank. Memory reliability of a system including the memory module is enhanced without reducing the system effectiveness.

Abstract: A method for distributing interrupt load to processors in a multiprocessor system. The method includes executing current transactions with multiple processors (104, 106, 108) where each transaction is associated with one of the processors, generating an interrupt request, estimating a transaction completion time for each processor and directing the interrupt request (102) to the processor having the least estimated transaction completion time. Estimating a transaction completion time occurs periodically so that information pertaining to transaction times is stored and continually updated. According to one aspect of the invention, the step of estimating a transaction completion time for each processor occurs when the interrupt request is generated. According to another aspect of the invention, the step of communicating the interrupt request includes communicating the interrupt request to an intermediary processor prior to estimating the transaction completion time.

Abstract: A power gating device may include a control unit that generates a first interrupt signal based on a mode change signal when a mode of a system is changed from a normal operation mode to a stand-by mode, and generates a second interrupt signal based on the mode change signal when the mode is changed from the stand-by mode to the normal operation mode, a memory unit that stores data of a function block based on the first interrupt signal, and restores the stored data to the function block based on the second interrupt signal, and a power source unit that provides a normal operation power to the function block and the memory unit based on a power down signal in the normal operation mode, and provides a stand-by power to the memory unit based on the power down signal in the stand-by mode.

Abstract: Embodiments of the present invention are directed to methods for virtualizing interrupt modes on behalf of interrupt-generating devices, including I/O-device controllers, so that newer interrupt-generating devices that lack older interrupt modes can be used in systems that continue to rely on older interrupt modes. In one embodiment of the present invention, a PCIe switch or PCIe-based host bridge is modified, or a new component introduced, to provide an interrupt-mode virtualizing function, or virtual interrupt-mode interface, that provides a virtual interrupt mode on behalf of interrupt-generating devices, such as I/O-device controllers, to operating systems, BIOS layers, and other components that communicate with the I/O-device controllers.

Abstract: A method for allowing simultaneous parameter-driven and deterministic simulation during verification of a hardware design, comprising: enabling a plurality of random parameter-driven commands from a random command generator to execute in a simulation environment during verification of the hardware design through a command managing device; and enabling a plurality of deterministic commands from a manually-driven testcase port to execute in the simulation environment simultaneously with the plurality of random parameter-driven commands during verification of the hardware design through the command managing device, the plurality of deterministic commands and the plurality of random parameter-driven commands each verify the functionality of the hardware design.

Abstract: In one embodiment, a method includes transitioning control to a virtual machine (VM) upon receiving a request from a virtual machine monitor (VMM), determining that the request to transition control is associated with a request to be informed of an open event window, performing an event window check to determine whether an even window of the VM is open, and transitioning control to the VMM if the event window check indicates that the event window of the VM is open.

Abstract: A method of reducing the window of malicious exploitation between vulnerability publication and the installation of a software patch. One or more probe points are inserted into a code path in an application (or operating system if applicable) that contains one or more vulnerabilities (or coding errors). The probe points mark locations of the security vulnerabilities utilizing software interrupts to enable the original code base of the code path to remain unmodified. A probe handler utility subsequently monitors the execution of the code path and generates an alert if the execution reaches a probe point in the code path, thus indicating whether the application exhibits a particular vulnerability. The probe handler selectively performs one of multiple customizable corrective actions, thereby securing the application until an applicable software patch can be installed.

Abstract: Low power architecture features and techniques are provided in a scalable array indirect VLIW processor. These features and techniques include power control of a reconfigurable register file, conditional power control of multi-cycle operations and indirect VLIW utilization, and power control of VLIW-based vector processing using the ManArray register file indexing mechanism. These techniques are applicable to all processing elements (PEs) and the array controller sequence processor (SP) to provide substantial power savings.

Abstract: A method and system is provided for automatically reassigning an interface card and devices associated with the interface card in a programmable logic controller system from a non-deterministic operating environment to a deterministic operating environment so that the change is performed essentially instantaneously to avoid disruption of operations of the PLC devices associated with the interface involved in the reassignment. All operating system registries and configurations are automatically performed. The move provides for an improved response time for devices associated with and controlled by the card.

Abstract: A flexible interrupt controller circuit and methodology are provided which use an interrupt circuit (300) that multiplexes (324) a plurality of interrupt priority registers (321, 322) based on the current context of the system that is identified in mode control selector (326). By using the mode control selector (326) to selectively couple different priority level assignments to a priority encoding module (330), context sensitive switching of the priority levels assigned to each interrupt request can be implemented with reduced latency. The context switch could be based on an OS context ID, power management modes, security modes, and other system defined modes where priority levels would differ. The selected priority level information is used to provide an interrupt request signal (332) which will cause an interrupt to occur in the data processing system.

Abstract: Representative of the various embodiments is a method for implementation during a computer's boot sequence to load a selected operating system (OS) of interest. For purposes of such a method the computer includes a system BIOS, a video BIOS, and a customary boot loader accessible from a pre-determined address pointed to by a system interrupt pointer. During system BIOS execution, the system interrupt pointer is redirected to an alternate address from which a replacement boot loader is accessible. The selected OS of interest is then loaded via the replacement boot loader rather than the customary boot loader.

Abstract: A network control device including a network controller for transmitting/receiving data through a network and storing received data in a storage and a network processor for processing data stored in the storage is provided with a usage information acquiring section for acquiring usage information indicating usage state of a CPU, a determining section for determining load state of the CPU from the usage information based on a determination condition, and a mode setting section for setting an interrupt mode to the network processor when the determined load state is low and setting a polling mode when the determined load state is high, the network processor processes data stored in the storage when receiving interrupt notification of the network controller during the interrupt mode, deters the interrupt notification of the network controller during the polling mode and processing data stored in the storage at predetermined intervals.

Abstract: An apparatus for executing secure code, having a microprocessor coupled to a secure non-volatile memory via a private bus a system memory via a system bus. The microprocessor executes non-secure application programs and a secure application program. The microprocessor accomplishes private bus transactions over the private bus to access the secure application program within the secure non-volatile memory. The private bus transactions are hidden from system bus resources and devices coupled to the system bus. The microprocessor includes normal interrupt logic and secure execution mode interrupt logic. The normal interrupt logic provides non-secure interrupts for interrupting the non-secure application programs when the microprocessor is operating in a non-secure mode.

Abstract: A power control unit (PCU) may reduce the core wake-up latency in a computer system by concurrently waking-up the remaining cores after the first core is woken-up. The power control unit may detect arrival of a first, second, and a third interrupt directed at a first, second, and a third core. The power control unit may check whether the second interrupt occurs within a first period, wherein the first period is counted after waking-up of the first core is complete. The power control unit may then wake-up the second and the third core concurrently if the second interrupt occurs within the first period after the wake-up activity of the first core is complete. The first period may at least equal twice the time required for a first credit to be returned and next credit to be accepted.

Abstract: In a virtual computing machine, a system and method that dynamically patches the interrupt mechanism (in interrupt vector space) of a host computing architecture with guest mode software. Significant increases in performance are achieved without depending on the host code. A patching mechanism evaluates the operating system version, processor, and code to be patched. If patchable, low-level interfaces are created dynamically; a dispatcher is written into an unused location in vector space, and instructions copied from each interrupt vector to be patched to a guest interrupt vector. For an interrupt, the new, patched instructions branch to the dispatcher, which then branches to the appropriate patched interrupt guest code. If the processor is operating as a virtual machine, the guest interrupt code handles the interrupt, otherwise the original copied instructions are replayed, followed by execution at the original host instruction in vector space that exists after the copied and patched instructions.