Patent application number | Description | Published |
20130297911 | CHECKPOINTED BUFFER FOR RE-ENTRY FROM RUNAHEAD - Embodiments related to re-dispatching an instruction selected for re-execution from a buffer upon a microprocessor re-entering a particular execution location after runahead are provided. In one example, a microprocessor is provided. The example microprocessor includes fetch logic, one or more execution mechanisms for executing a retrieved instruction provided by the fetch logic, and scheduler logic for scheduling the retrieved instruction for execution. The example scheduler logic includes a buffer for storing the retrieved instruction and one or more additional instructions, the scheduler logic being configured, upon the microprocessor re-entering at a particular execution location after runahead, to re-dispatch, from the buffer, an instruction that has been previously dispatched to one of the execution mechanisms. | 11-07-2013 |
20140122805 | SELECTIVE POISONING OF DATA DURING RUNAHEAD - Embodiments related to selecting a runahead poison policy from a plurality of runahead poison policies during microprocessor operation are provided. The example method includes causing the microprocessor to enter runahead upon detection of a runahead event and implementing a first runahead poison policy selected from a plurality of runahead poison policies operative to manage runahead poison injection during runahead. The example method also includes during microprocessor operation, selecting a second runahead poison policy operative to manage runahead poison injection differently from the first runahead poison policy. | 05-01-2014 |
20140136891 | MANAGING POTENTIALLY INVALID RESULTS DURING RUNAHEAD - Embodiments related to managing potentially invalid results generated/obtained by a microprocessor during runahead are provided. In one example, a method for operating a microprocessor includes causing the microprocessor to enter runahead upon detection of a runahead event. The example method also includes, during runahead, determining that an operation associated with an instruction referencing a storage location would produce a potentially invalid result based on a value of an architectural poison bit associated with the storage location and performing a different operation in response. | 05-15-2014 |
20140164736 | LAZY RUNAHEAD OPERATION FOR A MICROPROCESSOR - Embodiments related to managing lazy runahead operations at a microprocessor are disclosed. For example, an embodiment of a method for operating a microprocessor described herein includes identifying a primary condition that triggers an unresolved state of the microprocessor. The example method also includes identifying a forcing condition that compels resolution of the unresolved state. The example method also includes, in response to identification of the forcing condition, causing the microprocessor to enter a runahead mode. | 06-12-2014 |
20140164738 | INSTRUCTION CATEGORIZATION FOR RUNAHEAD OPERATION - Embodiments related to methods and devices operative, in the event that execution of an instruction produces a runahead-triggering event, to cause a microprocessor to enter into and operate in a runahead without reissuing the instruction are provided. In one example, a microprocessor is provided. The example microprocessor includes fetch logic for retrieving an instruction, scheduling logic for issuing the instruction retrieved by the fetch logic for execution, and runahead control logic. The example runahead control logic is operative, in the event that execution of the instruction as scheduled by the scheduling logic produces a runahead-triggering event, to cause the microprocessor to enter into and operate in a runahead mode without reissuing the instruction, and carry out runahead policies while the microprocessor is in the runahead mode that governs operation of the microprocessor and cause the microprocessor to operate differently than when not in the runahead mode. | 06-12-2014 |
20140189313 | QUEUED INSTRUCTION RE-DISPATCH AFTER RUNAHEAD - Various embodiments of microprocessors and methods of operating a microprocessor during runahead operation are disclosed herein. One example method of operating a microprocessor includes identifying a runahead-triggering event associated with a runahead-triggering instruction and, responsive to identification of the runahead-triggering event, entering runahead operation and inserting the runahead-triggering instruction along with one or more additional instructions in a queue. The example method also includes resuming non-runahead operation of the microprocessor in response to resolution of the runahead-triggering event and re-dispatching the runahead-triggering instruction along with the one or more additional instructions from the queue to the execution logic. | 07-03-2014 |
20150026443 | Branching To Alternate Code Based on Runahead Determination - The description covers a system and method for operating a micro-processing system having a runahead mode of operation. In one implementation, the method includes providing, for a first portion of code, a runahead correlate. When the first portion of code is encountered by the micro-processing system, a determination is made as to whether the system is operating in the runahead mode. If so, the system branches to the runahead correlate, which is specifically configured to identify and resolve latency events likely to occur when the first portion of code is encountered outside of runahead. Branching out of the first portion of code may also be performed based on a determination that a register is poisoned. | 01-22-2015 |
20150186284 | CACHE ELEMENT PROCESSING FOR ENERGY USE REDUCTION - A method for accessing a cache memory structure includes dividing a multiple cache elements of a cache memory structure into multiple groups. A serial probing process of the multiple groups is performed. Upon a tag hit resulting from the serial probing process, the probing process for remaining groups exits. | 07-02-2015 |
20150187043 | VIRTUALIZING STORAGE STRUCTURES WITH UNIFIED HEAP ARCHITECTURE - A method for storage allocation for a graphical processing unit includes maintaining a unified storage structure for the graphical processing unit. Multiple physical storage structures are virtualized in the unified storage structure by dynamically forming multiple logical storage structures from the unified storage structure for the multiple physical storage structures. | 07-02-2015 |