Patent application number | Description | Published |
20090100254 | DEBUG INSTRUCTION FOR USE IN A DATA PROCESSING SYSTEM - A method includes providing a debug instruction and providing a debug control register field, where if the debug control register field has a first value, the debug instruction executes a debug operation and where if the debug control register field has a second value, the debug instruction is to be executed as a no-operation (NOP) instruction. A data processing system includes instruction fetch circuitry for receiving a debug instruction, a debug control register field, and debug execution control circuitry for controlling execution of the debug instruction in a first manner if the debug control register field has a first value and in a second manner if the debug control register field has a second value, where in the first manner a debug operation is performed and in the second manner no debug operation is performed. | 04-16-2009 |
20090100432 | FORWARD PROGRESS MECHANISM FOR A MULTITHREADED PROCESSOR - A processing device includes a storage component configured to store instructions associated with a corresponding thread of a plurality of threads, and an execution unit configured to fetch and execute instructions. The processing device further includes a period timer comprising an output to provide an indicator in response to a count value of the period timer reaching a predetermined value based on a clock signal. The processing device additionally includes a plurality of thread forward-progress counter components, each configured to adjust a corresponding execution counter value based on an occurrence of a forward-progress indicator while instructions of a corresponding thread are being executed. The processing device further includes a thread select module configured to select threads of the plurality of threads for execution by the execution unit based a state of the period timer and a state of each of the plurality of thread forward-progress counter components. | 04-16-2009 |
20090103379 | INTEGRATED CIRCUIT MEMORY HAVING DYNAMICALLY ADJUSTABLE READ MARGIN AND METHOD THEREFOR - A method for dynamically controlling sense amplifier differential margin of a memory during operation, in an integrated circuit, comprising a plurality of addressable units, is provided. The method includes setting the sense amplifier differential margin corresponding to the plurality of addressable units to a first value. The method further includes if a read data error occurs when data is read from a set of the plurality of addressable units, then setting the sense amplifier differential margin corresponding to the plurality of addressable units to a second value, wherein the second value is greater than the first value. | 04-23-2009 |
20090113137 | PSEUDO LEAST RECENTLY USED (PLRU) CACHE REPLACEMENT - A multi-way cache system includes multi-way cache storage circuitry, a pseudo least recently used (PLRU) tree state representative of a PLRU tree, the PLRU tree having a plurality of levels, and PLRU control circuitry coupled to the multi-way cache storage circuitry and the PLRU tree state. The PLRU control circuitry has programmable PLRU tree level update enable circuitry which selects Y levels of the plurality of levels of the PLRU tree to be updated. The PLRU control circuitry, in response to an address hitting or resulting in an allocation in the multi-way cache storage circuitry, updates only the selected Y levels of the PLRU tree state. | 04-30-2009 |
20090132796 | POLLING USING RESERVATION MECHANISM - A first thread enters a polling loop to wait for a signal from a second thread before processing instructions dependent on the polling loop. When entering the polling loop, the first thread sets a reservation for a predetermined memory address. The first thread then executes a reservation-based instruction that can change the execution state of the first thread. Reservation circuitry of the processing device that was executing the first thread monitors the reservation. In the event that the reservation cleared, such as by the second thread modifying data at the predetermined memory address, the first thread is reinstated to its prior execution state. By using a hardware reservation mechanism to monitor for clearing of a set reservation, repeated memory accesses to the memory address by the first thread can be minimized or avoided while in the polling loop and other threads can be allowed to execute at the processing device with reduced interference from the waiting thread. | 05-21-2009 |
20090164737 | SYSTEM AND METHOD FOR PROCESSING POTENTIALLY SELF-INCONSISTENT MEMORY TRANSACTIONS - A processor provides memory request and a coherency state value for a coherency granule associated with a memory request. The processor further provides either a first indicator or a second indicator depending on whether the coherency state value represents a cumulative coherency state for a plurality of caches of the processor. The first indicator and the second indicator identify the coherency state value as representing a cumulative coherency state or a potentially non-cumulative coherency state, respectively. If the second indicator is provided, a transaction management module determines whether to request the cumulative coherency state for the coherency granule in response to receiving the second indicator. The transaction management module then provides an indicator of the request for the cumulative coherency state to the processor in response to determining to request the cumulative coherency state. Otherwise, the transaction management module processes the memory transaction without requesting the cumulative coherency state. | 06-25-2009 |
20090172361 | COMPLETION CONTINUE ON THREAD SWITCH MECHANISM FOR A MICROPROCESSOR - A thread switch mechanism and technique for a microprocessor is disclosed wherein a processing of a first thread is completed, and a continuation of a second thread is initiated during completion of the first thread. In one form, the technique includes processing a first thread at a pipeline of a processing device, and initiating processing of a second thread at a front end of the pipeline in response to an occurrence of a context switch event. The technique can also include initiating a instruction progress metric in response the context switch event. The technique can further include enabling completion of processing of instructions of the first thread that are at a back end of the pipeline at the occurrence of the context switch event until an expiry of the instruction progress metric. | 07-02-2009 |
20090323446 | MEMORY OPERATION TESTING - Test circuitry for determining whether a memory can operate at a lower operating voltage. The test circuitry includes a sense circuit having a delayed sensing characteristic as compared to other sense amplifier circuits of the memory. With this circuitry the test circuitry can determine if the sense circuit can provide valid data under more severe sensing conditions. In one example, the sense circuit includes a delay circuit in the sense enable signal path. If sense circuit can provide data at more server operating conditions, then the memory operating voltage can be lowered. | 12-31-2009 |
20100049955 | DEBUG INSTRUCTION FOR USE IN A MULTI-THREADED DATA PROCESSING SYSTEM - For use in a data processing system comprising a processor configured to execute a first set of instructions corresponding to a first thread and a second set of instructions corresponding to a second thread, a method is provided. The method comprises in response to execution of a debug related instruction by the first thread while executing the first set of instructions, generating a debug event for processing by the second thread, wherein processing the debug event comprises causing a halting operation related to the processor. | 02-25-2010 |
20100049956 | DEBUG INSTRUCTION FOR USE IN A MULTI-THREADED DATA PROCESSING SYSTEM - For use in a data processing system comprising a processor configured to execute a first set of instructions corresponding to a first thread and a second set of instructions corresponding to a second thread, a method is provided. The method comprises in response to execution of a debug instruction by the first thread while executing the first set of instructions, generating a debug event for processing by the second thread. | 02-25-2010 |
20100095039 | INTERRUPT ACKNOWLEDGMENT IN A DATA PROCESSING SYSTEM - A data processing system has an interrupt controller which provides an interrupt request along with a corresponding interrupt identifier and a corresponding interrupt vector to a processor. If the processor accepts the interrupt, the processor returns the same interrupt identifier value by way of interrupt identifier, along with interrupt acknowledge, to the interrupt controller. An interrupt taken/not taken indicator may also be provided. The communications interface used to coordinate interrupt processing between the interrupt controller and the processor may be asynchronous. | 04-15-2010 |
20100106872 | DATA PROCESSOR FOR PROCESSING A DECORATED STORAGE NOTIFY - A data processing system having a processor and a target device processes decorated instructions (i.e. an instruction having a decoration value). A device of the data processing system such as the processor sends transactions to the target device over a system interconnect. A decorated storage notify (DSN) transaction includes an indication of an instruction operation, an address associated with the instruction operation, and a decoration value (i.e. a command to the target device to perform a function in addition to a store or a load). The transaction on the system interconnect includes an address phase and no data phase, thereby improving system bandwidth. In one form the target device (e.g. a memory with functionality in addition to storage functionality) performs a read-modify-write operation using information at a storage location of the target device. | 04-29-2010 |
20100107243 | PERMISSIONS CHECKING FOR DATA PROCESSING INSTRUCTIONS - A data processing system having a processor and a target device processes decorated instructions (i.e. an instruction having a decoration value). A device of the data processing system such as the processor sends transactions to the target device over a system interconnect. The transactions include an indication of an instruction operation, an address associated with the instruction operation, a decoration value (i.e. a command to the target device to perform a function in addition to a primary function of the executed instruction), and access permissions associated with the address. The target device (e.g. a memory with functionality in addition to storage functionality) determines whether a decoration operation specified by the decoration value is permissible based on the received access permissions. The target device performs the decoration operation if appropriate permissions exist. | 04-29-2010 |
20100191990 | VOLTAGE-BASED MEMORY SIZE SCALING IN A DATA PROCESSING SYSTEM - A memory has bits that fail as power supply voltage is reduced to reduce power and/or increase endurance. The bits become properly functional when the power supply voltage is increased back to its original value. With the reduced voltage, portions of the memory that include non-functional bits are not used. Much of the memory may remain functional and use is retained. When the voltage is increased, the portions of the memory that were not used because of being non-functional due to the reduced power supply voltage may then be used again. This is particularly useful in a cache where the decrease in available memory due to power supply voltage reduction can be implemented as a reduction in the number of ways. Thus, for example an eight way cache can simply be reduced to a four way cache when the power is being reduced or endurance increased. | 07-29-2010 |
20100246297 | INTEGRATED CIRCUIT HAVING AN EMBEDDED MEMORY AND METHOD FOR TESTING THE MEMORY - A memory system has a first memory having an array of memory cells that includes a redundant column. The redundant column substitutes for a first column in the array. The first column includes a test memory cell. The array receives a power supply voltage. The test memory cell becomes non-functional at a higher power supply voltage than the memory cells of the array. A memory controller is coupled to the first memory and is for determining if the test memory cell is functional at a first value for the power supply voltage. This is useful in making decisions concerning the value of the power supply voltage applied to the array. | 09-30-2010 |
20100306302 | TECHNIQUE FOR DETERMINING IF A LOGICAL SUM OF A FIRST OPERAND AND A SECOND OPERAND IS THE SAME AS A THIRD OPERAND - A system is used to determine if a sum of a first operand and a second operand is the same as a third operand wherein a comparison to the third operand is of variable length. This is particularly useful in a content addressable memory (CAM) where the likelihood of hit is commonly improved over a set associative cache and allows for the CAM to identify different things. For example, an entry can be one length to identify a page of a memory and another entry be a different length to identify a page of memory. This is better understood by reference to the following description and the drawings. | 12-02-2010 |
20110194325 | ERROR DETECTION IN A CONTENT ADDRESSABLE MEMORY (CAM) - A content addressable memory and method of operation uses a memory array having a plurality of rows of stored content addressable memory data and compare circuitry for comparing received comparand data with the stored content addressable memory data. A hit signal and one or more parity bits is provided for each row. Erroneous hit detection circuitry coupled to the memory array for each row generates a row error indicator in response to a comparison between parity of the comparand data and parity of a row that is correlated to the hit signal as qualified by assertion of a hit signal of that row. The erroneous hit detection circuitry uses the row error indicator for each row to provide an output which indicates whether at least one asserted hit signal corresponds to an erroneous hit. | 08-11-2011 |
20110208949 | HARDWARE THREAD DISABLE WITH STATUS INDICATING SAFE SHARED RESOURCE CONDITION - A technique for indicating a safe shared resource condition with respect to a disabled thread provides a mechanism for providing a fast indication to other hardware threads that a temporarily disabled thread can no longer impact shared resources, such as shared special-purpose registers and translation look-aside buffers within the processor core. Signals from pipelines within the core indicates whether any of the instructions pending in the pipeline impact the shared resources and if not, then the thread disable status is presented to the other threads via a state change in a thread status register. Upon receiving an indication that a particular hardware thread is to be disabled, control logic halts the dispatch of instructions for the particular hardware thread, and then waits until any indication that a shared resource is impacted by an instruction has cleared. Then the control logic updates the thread status to indicate the thread is disabled. | 08-25-2011 |
20120185678 | HARDWARE THREAD DISABLE WITH STATUS INDICATING SAFE SHARED RESOURCE CONDITION - A technique for indicating a safe shared resource condition with respect to a disabled thread provides a mechanism for providing a fast indication to other hardware threads that a temporarily disabled thread can no longer impact shared resources, such as shared special-purpose registers and translation look-aside buffers within the processor core. Signals from pipelines within the core indicates whether any of the instructions pending in the pipeline impact the shared resources and if not, then the thread disable status is presented to the other threads via a state change in a thread status register. Upon receiving an indication that a particular hardware thread is to be disabled, control logic halts the dispatch of instructions for the particular hardware thread, and then waits until any indication that a shared resource is impacted by an instruction has cleared. Then the control logic updates the thread status to indicate the thread is disabled. | 07-19-2012 |