Patent application number | Description | Published |
20090216994 | PROCESSOR, METHOD AND COMPUTER PROGRAM PRODUCT FOR FAST SELECTIVE INVALIDATION OF TRANSLATION LOOKASIDE BUFFER - A processor including a microarchitecture adapted for invalidating mapping of at least one logical address to at least one absolute address, includes: at least one translation lookaside buffer (TLB) and a plurality of copies thereof; logic for independent indexing of each copy of the TLB; a plurality of comparators, each comparator associated with a respective output of each TLB set output for each TLB port, wherein each of the comparators is adapted for identifying mappings for invalidation; and logic for invalidating each identified mapping. A method and a computer program product are provided. | 08-27-2009 |
20130339617 | AUTOMATIC PATTERN-BASED OPERAND PREFETCHING - Embodiments relate to automatic pattern-based operand prefetching. An aspect includes receiving, by prefetch logic in a processor, an operand cache miss from a pipeline of the processor. Another aspect includes determining that an entry in a history table corresponding to the operand cache miss exists based on an instruction address of the operand cache miss. Yet another aspect includes, based on determining that the entry corresponding to the operand cache miss exists in the history table, issuing a prefetch instruction for a second operand based on the determined entry in the history table, and writing the determined entry into a miss buffer. | 12-19-2013 |
20130339618 | AVOIDING ABORTS DUE TO ASSOCIATIVITY CONFLICTS IN A TRANSACTIONAL ENVIRONMENT - Embodiments relate to a transactional read footprint after a cache line eviction. An aspect includes executing one or more read instructions in an active transaction. A cross invalidate (XI) request for a target cache line is received, and it is determined if the target cache line is part of a congruence class in a local cache. It is further determined whether an extension flag associated with the congruence class is set. The extension flag is used to indicate that cache lines of the congruence class associated with the active transaction have been replaced based only on being least recently used and that the target cache line is not in the cache. Execution of the active transaction continues based on determining that the extension flag is not set. Execution of the active transaction is aborted based on determining that the extension flag is set. | 12-19-2013 |
20130339627 | MONITORING A VALUE IN STORAGE WITHOUT REPEATED STORAGE ACCESS - A technique is provided for monitoring a value without repeated storage access. A processing circuit processes an instruction of a program that specifies a memory address of a memory location to be monitored. The processing circuit configures a monitor station for monitoring the memory location. The memory location includes a state descriptor for the program. The processing circuit receives a cross-invalidate request from a memory controller. The cross-invalidate request indicates to the monitor station that content of the memory location has been changed by another processing circuit. | 12-19-2013 |
20130339628 | DETERMINING THE LOGICAL ADDRESS OF A TRANSACTION ABORT - Embodiments relate to determining the logical address of a transaction abort. In an embodiment, one or more instructions are received are received from an application. The one or more instructions are executed within a first transaction. The first transaction delays committing stores to memory until it has completed. At least one of the one or more instructions includes a first logical memory address. The first logical memory address corresponds to a first memory address in a memory system. It is determined if the first memory address is equal to a second memory address that is stored in a conflict register. Based on determining that they are equal the first logical memory address is saved as a logical address associated with a cross invalidate (XI) signal at a location available to the application. | 12-19-2013 |
20130339629 | TRACKING TRANSACTIONAL EXECUTION FOOTPRINT - Embodiments relate to tracking a transactional execution footprint. An aspect includes receiving a store instruction which includes store data. It is determined if the store instruction is executing within a transaction that effectively delays committing stores to a shared cache until the transaction has completed. The store data is stored to a cache line in a local cache. The cache line is marked as dirty if the transaction is active. The stored data that was marked as dirty in the local cache is invalidated if the transaction has terminated abnormally. The stored data is un-marked if it is determined that the transaction has successfully ended. | 12-19-2013 |
20130339630 | MONITORING A VALUE IN STORAGE WITHOUT REPEATED STORAGE ACCESS - A technique is provided for monitoring a value without repeated storage access. A processing circuit processes an instruction of a program that specifies a memory address of a memory location to be monitored. The processing circuit configures a monitor station for monitoring the memory location. The memory location includes a state descriptor for the program. The processing circuit receives a cross-invalidate request from a memory controller. The cross-invalidate request indicates to the monitor station that content of the memory location has been changed by another processing circuit. | 12-19-2013 |
20130339650 | PREFETCH ADDRESS TRANSLATION USING PREFETCH BUFFER - Embodiments relate to prefetch address translation in a computer processor. An aspect includes issuing, by prefetch logic, a prefetch request comprising a virtual page address. Another aspect includes, based on the prefetch request missing the TLB and the address translation logic of the processor being busy performing a current translation request, comparing a page of the prefetch request to a page of the current translation request. Yet another aspect includes, based on the page of the prefetch request matching the page of the current translation request, storing the prefetch request in a prefetch buffer. | 12-19-2013 |
20130339665 | COLLISION-BASED ALTERNATE HASHING - Embodiments relate to collision-based alternate hashing. An aspect includes receiving an incoming instruction address. Another aspect includes determining whether an entry for the incoming instruction address exists in a history table based on a hash of the incoming instruction address. Another aspect includes based on determining that the entry for the incoming instruction address exists in the history table, determining whether the incoming instruction address matches an address tag in the determined entry. Another aspect includes based on determining that the incoming instruction address does not match the address tag in the determined entry, determining whether a collision exists for the incoming instruction address. Another aspect includes based on determining that the collision exists for the incoming instruction address, activating alternate hashing for the incoming instruction address using an alternate hash buffer. | 12-19-2013 |
20140082252 | Combined Two-Level Cache Directory - Responsive to receiving a logical address for a cache access, a mechanism looks up a first portion of the logical address in a local cache directory for a local cache. The local cache directory returns a set identifier for each set in the local cache directory. Each set identifier indicates a set within a higher level cache directory. The mechanism looks up a second portion of the logical address in the higher level cache directory and compares each absolute address value received from the higher level cache directory to an absolute address received from a translation look-aside buffer to generate a higher level cache hit signal. The mechanism compares the higher level cache hit signal to each set identifier to generate a local cache hit signal and responsive to the local cache hit signal indicating a local cache hit, accesses the local cache based on the local cache hit signal. | 03-20-2014 |
20140223137 | STORING A SYSTEM-ABSOLUTE ADDRESS (SAA) IN A FIRST LEVEL TRANSLATION LOOK-ASIDE BUFFER (TLB) - Embodiments relate to a method, system and computer program product for storing a system-absolute address (SAA) in a first level look-aside buffer (TLB). In one embodiment, the system includes a central processor including the TLB and general purpose registers (GPRS). The TLB is configured for storing the SAA. The central processor is configured for issuing a load system-absolute address (LSAA) instruction. The system includes a translation unit that is in communication with the TLB of the central processor. The system is configured to perform a method including determining, based on the LSAA instruction being issued, whether the SAA is stored in the TLB. The method includes sending a translation request to the translation unit from the central processor based on the SAA not being stored in the TLB. The method includes determining the SAA by the translation unit based on receiving the translation request. | 08-07-2014 |