Patent application number | Description | Published |
20110153993 | Add Instructions to Add Three Source Operands - A method in one aspect may include receiving an add instruction. The add instruction may indicate a first source operand, a second source operand, and a third source operand. A sum of the first, second, and third source operands may be stored as a result of the add instruction. The sum may be stored partly in a destination operand indicated by the add instruction and partly a plurality of flags. Other methods are also disclosed, as are apparatus, systems, and instructions on machine-readable medium. | 06-23-2011 |
20110161635 | Rotate instructions that complete execution without reading carry flag - A method of one aspect may include receiving a rotate instruction. The rotate instruction may indicate a source operand and a rotate amount. A result may be stored in a destination operand indicated by the rotate instruction. The result may have the source operand rotated by the rotate amount. Execution of the rotate instruction may complete without reading a carry flag. | 06-30-2011 |
20130227252 | Add Instructions to Add Three Source Operands - A method in one aspect may include receiving an add instruction. The add instruction may indicate a first source operand, a second source operand, and a third source operand. A sum of the first, second, and third source operands may be stored as a result of the add instruction. The sum may be stored partly in a destination operand indicated by the add instruction and partly a plurality of flags. Other methods are also disclosed, as are apparatus, systems, and instructions on machine-readable medium. | 08-29-2013 |
20130275733 | MULTI-LEVEL TRACKING OF IN-USE STATE OF CACHE LINES - This disclosure includes tracking of in-use states of cache lines to improve throughput of pipelines and thus increase performance of processors. Access data for a number of sets of instructions stored in an instruction cache may be tracked using an in-use array in a first array until the data for one or more of those sets reach a threshold condition. A second array may then be used as the in-use array to track the sets of instructions after a micro-operation is inserted into the pipeline. When the micro-operation retires from the pipeline, the first array may be cleared. The process may repeat after the second array reaches the threshold condition. During the tracking, an in-use state for an instruction line may be detected by inspecting a corresponding bit in each of the arrays. Additional arrays may also be used to track the in-use state. | 10-17-2013 |
20140059333 | METHOD, APPARATUS, AND SYSTEM FOR SPECULATIVE ABORT CONTROL MECHANISMS - An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software. And to enable testing of such a fallback path, in one implementation, hardware provides software a mechanism to always abort speculative code regions. | 02-27-2014 |
20140189306 | ENHANCED LOOP STREAMING DETECTOR TO DRIVE LOGIC OPTIMIZATION - An enhanced loop streaming detection mechanism is provided in a processor to reduce power consumption. The processor includes a decoder to decode instructions in a loop into micro-operations, and a loop streaming detector to detect the presence of the loop in the micro-operations. The processor also includes a loop characteristic tracker unit to identify hardware components downstream from the decoder that are not to be used by the micro-operations in the loop, and to disable the identified hardware components. The processor also includes execution circuitry to execute the micro-operations in the loop with the identified hardware components disabled. | 07-03-2014 |
20140195790 | PROCESSOR WITH SECOND JUMP EXECUTION UNIT FOR BRANCH MISPREDICTION - A secondary jump execution unit (JEU) is incorporated in a micro-processor to operate concurrently with a primary JEU, enabling the execution of simultaneous branch operations with possible detection of multiple branch mispredicts. When branch operations are executed on both JEUs in a same instruction cycle, mispredict processing for the secondary JEU is skidded into the primary JEU's dispatch pipeline such that the branch processing for the secondary JEU occurs after processing of the branch for the primary JEU and while the primary JEU is not processing a branch. Moreover, in cases when a nuke command is also received from a reorder buffer of the processor, the branch processing for the secondary JEU is further delayed to accommodate processing of the nuke on the primary JEU. Further embodiments support the promotion of the secondary JEU to have access to the mispredict mechanisms of the primary JEU in certain circumstances. | 07-10-2014 |
20150032998 | METHOD, APPARATUS, AND SYSTEM FOR TRANSACTIONAL SPECULATION CONTROL INSTRUCTIONS - An apparatus and method is described herein for providing speculation control instructions. An xAcquire and xRelease instruction are provided to define a critical section. In one embodiment, the xAcquire instruction includes a lock instruction with an elision prefix and the xRelease instruction includes a lock release instruction with an elision prefix. As a result, a processor is able to elide locks and transactionally execute a critical section defined in software by xAcquire and xRelease. But by adding only prefix hints, legacy processor are able to execute the same code by just ignoring the hints and executing the critical section traditionally with locks to guarantee mutual exclusion. Moreover, xBegin and xEnd are similarly provided for in an Instruction Set Architecture (ISA) to define a transactional code region. In addition, other control speculation instructions, such as xAbort to enable explicit abort of a critical or transactional code section and xTest to test a state of speculative execution is also provided in the ISA. | 01-29-2015 |
20150089199 | ROTATE INSTRUCTIONS THAT COMPLETE EXECUTION EITHER WITHOUT WRITING OR READING FLAGS - A method of one aspect may include receiving a rotate instruction. The rotate instruction may indicate a source operand and a rotate amount. A result may be stored in a destination operand indicated by the rotate instruction. The result may have the source operand rotated by the rotate amount. Execution of the rotate instruction may complete without reading a carry flag. | 03-26-2015 |
20150089200 | ROTATE INSTRUCTIONS THAT COMPLETE EXECUTION EITHER WITHOUT WRITING OR READING FLAGS - A method of one aspect may include receiving a rotate instruction. The rotate instruction may indicate a source operand and a rotate amount. A result may be stored in a destination operand indicated by the rotate instruction. The result may have the source operand rotated by the rotate amount. Execution of the rotate instruction may complete without reading a carry flag. | 03-26-2015 |
20150089201 | ROTATE INSTRUCTIONS THAT COMPLETE EXECUTION EITHER WITHOUT WRITING OR READING FLAGS - A method of one aspect may include receiving a rotate instruction. The rotate instruction may indicate a source operand and a rotate amount. A result may be stored in a destination operand indicated by the rotate instruction. The result may have the source operand rotated by the rotate amount. Execution of the rotate instruction may complete without reading a carry flag. | 03-26-2015 |