| Patent application number | Description | Published |
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| 20090210626 | METHOD, SYSTEM AND COMPUTER PROGRAM PRODUCT FOR CACHE COHERENCY PROTOCOL WITH BUILT IN AVOIDANCE FOR CONFLICTING RESPONSES - The method includes initiating a processor request to a cache in a requesting node and broadcasting the processor request to remote nodes when the processor request encounters a local cache miss, performing a directory search of each remote cache to determine a state of a target line's address and an ownership slate of a specified address, returning the state of the target line to the requesting node and forming a combined response, and broadcasting the combined response to each remote node. During a fetch operation, when the directory search indicates an IM or a Target Memory node on a remote node, data is sourced from the respective remote cache and forwarded to the requesting node while protecting the data, and during a store operation, the data is sourced from the requesting node and protected while being forwarded to the IM or the Target Memory node after coherency has been established. | 08-20-2009 |
| 20110320731 | ON DEMAND ALLOCATION OF CACHE BUFFER SLOTS - Dynamic allocation of cache buffer slots includes receiving a request to perform an operation that requires a storage buffer slot, the storage buffer slot residing in a level of storage. The dynamic allocation of cache buffer slots also includes determining availability of the storage buffer slot for the cache index as specified by the request. Upon determining the storage buffer slot is not available, the dynamic allocation of cache buffer slots includes evicting data stored in the storage buffer slot, and reserving the storage buffer slot for data associated with the request. | 12-29-2011 |
| 20110320732 | USER-CONTROLLED TARGETED CACHE PURGE - User-controlled targeted cache purging includes receiving a request to perform an operation to purge data from a cache, the request including an index identifier identifying an index associated with the cache. The index specifies a portion of the cache to be purged. The user-controlled targeted cache purging also includes purging the data from the cache, and providing notification of successful completion of the operation. | 12-29-2011 |
| 20110320866 | DYNAMIC PIPELINE CACHE ERROR CORRECTION - Dynamic pipeline cache error correction includes receiving a request to perform an operation that requires a storage cache slot, the storage cache slot residing in a cache. The dynamic pipeline cache error correction also includes accessing the storage cache slot, determining a cache hit for the storage cache slot, identifying and correcting any correctable soft errors associated with the storage cache slot. The dynamic cache error correction further includes updating the cache with results of corrected data. | 12-29-2011 |
| Patent application number | Description | Published |
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| 20110314183 | SYSTEM AND METHOD FOR MANAGING DATAFLOW IN A TEMPORARY MEMORY - A method of managing a temporary memory includes: receiving a request to transfer data from a source location to a destination location, the data transfer request associated with an operation to be performed, the operation selected from an input into an intermediate temporary memory and an output; checking a two-state indicator associated with the temporary memory, the two-state indicator having a first state indicating that an immediately preceding operation on the temporary memory was an input to the temporary memory and a second state indicating that the immediately preceding operation was an output from the temporary memory; and performing the operation responsive to one of: the operation being an input operation and the two-state indicator being in the second state, indicating that the immediately preceding operation was an output; and the operation being an output operation and the two-state indicator being in the first state, indicating that the immediately preceding operation was an input. | 12-22-2011 |
| 20110320659 | DYNAMIC MULTI-LEVEL CACHE INCLUDING RESOURCE ACCESS FAIRNESS SCHEME - An apparatus for controlling access to a resource includes a shared pipeline configured to communicate with the resource, a plurality of command queues configured to form instructions for the shared pipeline and an arbiter coupled between the shared pipeline and the plurality of command queues configured to grant access to the shared pipeline to a one of the plurality of command queues based on a first priority scheme in a first operating mode. The apparatus also includes interface logic coupled to the arbiter and configured to determine that contention for access to the resource exists among the plurality of command queues and to cause the arbiter to grant access to the shared pipeline based on a second priority scheme in second operating mode. | 12-29-2011 |
| 20110320744 | DIAGNOSTIC DATA COLLECTION AND STORAGE PUT-AWAY STATION IN A MULTIPROCESSOR SYSTEM - A computer-implemented method for collecting diagnostic data within a multiprocessor system that includes capturing diagnostic data via a plurality of collection points disposed at a source location within the multiprocessor system, routing the captured diagnostic data to a data collection station at the source location, providing a plurality of buffers within the data collection station, and temporarily storing the captured diagnostic data on at least one of the plurality of buffers, and transferring the captured diagnostic data to a target storage location on a same chip as the source location or another storage location on a same node. | 12-29-2011 |
| 20110320779 | PERFORMANCE MONITORING IN A SHARED PIPELINE - A pipelined processing device includes: a device controller configured to receive a request to perform an operation; a plurality of subcontrollers configured to receive at least one instruction associated with the operation, each of the plurality of subcontrollers including a counter configured to generate an active time value indicating at least a portion of a time taken to process the at least one instruction; a pipeline processor configured to receive and process the at least one instruction, the pipeline processor configured to receive the active time value; and a shared pipeline storage area configured to store the active time value for each of the plurality of subcontrollers. | 12-29-2011 |
| 20110320855 | ERROR DETECTION AND RECOVERY IN A SHARED PIPELINE - A pipelined processing device includes: a processor configured to receive a request to perform an operation; a plurality of processing controllers configured to receive at least one instruction associated with the operation, each of the plurality of processing controllers including a memory to store at least one instruction therein; a pipeline processor configured to receive and process the at least one instruction, the pipeline processor including shared error detection logic configured to detect a parity error in the at least one instruction as the at least one instruction is processed in a pipeline and generate an error signal; and a pipeline bus connected to each of the plurality of processing controllers and configured to communicate the error signal from the error detection logic. | 12-29-2011 |
| 20110320919 | HIGH PERFORMANCE CACHE DIRECTORY ERROR CORRECTION CODE - Defining a set of correctable error and uncorrectable error syndrome code points, generating an error correction code (ECC) syndrome decode, regarding the uncorrectable error syndrome code points as “don't cares” and logically minimizing the ECC syndrome decode for the determination of the correctable error syndrome code points based on the regarding of the uncorrectable error syndrome code points as the “don't cares” whereby output data can be ignored for the uncorrectable error syndrome code points. | 12-29-2011 |
| 20110321053 | MULTIPLE LEVEL LINKED LRU PRIORITY - A method that includes providing LRU selection logic which controllably pass requests for access to computer system resources to a shared resource via a first level and a second level, determining whether a request in a request group is active, presenting the request to LRU selection logic at the first level, when it is determined that the request is active, determining whether the request is a LRU request of the request group at the first level, forwarding the request to the second level when it is determined that the request is the LRU request of the request group, comparing the request to an LRU request from each of the request groups at the second level to determine whether the request is a LRU request of the plurality of request groups, and selecting the LRU request of the plurality of request groups to access the shared resource. | 12-29-2011 |
