Patent application number | Description | Published |
20120278594 | PERFORMANCE BOTTLENECK IDENTIFICATION TOOL - A computer program product for identifying bottlenecks includes a computer readable storage medium with stored computer readable program instructions. The computer readable program instructions, when executed, provide a data collector module, a mapper module, and an analyzer module that are collectively configured to read mapped data and configuration files, and identify, based upon the mapped data and the configuration files, an undesirable bottleneck condition that causes a computer program to run inefficiently. A method includes reading a configuration file that includes data regarding processor components, and collecting data from hardware activity counters based upon the configuration file. The method also includes mapping the collected data to corresponding sections of code of a computer program, reading the mapped data and the configuration file, and identifying, based upon the reading of the mapped data and the configuration file, an undesirable bottleneck condition that causes the processor to run the computer program inefficiently. | 11-01-2012 |
20120324208 | Effective Validation of Execution Units Within a Processor - A mechanism is provided for effectively validating execution units within a processor. A branch test pattern is generated for execution by an execution unit that is under validation testing. An execution pattern is selected from a set of execution patterns thereby forming a selected execution pattern. The selected execution pattern is loaded into a condition register. The branch test pattern is executed by an execution unit based on the selected execution pattern in the condition register. Responsive to the branch test pattern ending, values output from the execution unit during execution of the branch test pattern are compared to a set of expected results. Responsive to a match of the comparison, the process is repeated for each execution pattern in the set of execution patterns. Responsive to a match of the comparison for the execution patterns in the set of execution patterns, the execution unit is validated. | 12-20-2012 |
20130117588 | Run-Time Task-Level Dynamic Energy Management - A mechanism is provided for run-time task-level dynamic energy management. An instruction address for a first instruction of the application is mapped to a portion of application code in the application in response to an application being marked for energy management. A monitoring of the hardware resource activities is done for the portion of the application code. A level of energy management is then implemented for the portion of the application code based on a value of the tick indicator, resource activities, and an intensity indicator. | 05-09-2013 |
20140059383 | Effective Validation of Execution Units Within a Processor - A mechanism is provided for effectively validating execution units within a processor. A branch test pattern is generated for execution by an execution unit that is under validation testing. An execution pattern is selected from a set of execution patterns thereby forming a selected execution pattern. The selected execution pattern is loaded into a condition register. The branch test pattern is executed by an execution unit based on the selected execution pattern in the condition register. Responsive to the branch test pattern ending, values output from the execution unit during execution of the branch test pattern are compared to a set of expected results. Responsive to a match of the comparison, the process is repeated for each execution pattern in the set of execution patterns. Responsive to a match of the comparison for the execution patterns in the set of execution patterns, the execution unit is validated. | 02-27-2014 |
20140075158 | IDENTIFYING LOAD-HIT-STORE CONFLICTS - A computing device identifies a load instruction and store instruction pair that causes a load-hit-store conflict. A processor tags a first load instruction that instructs the processor to load a first data set from memory. The processor stores an address at which the first load instruction is located in memory in a special purpose register. The processor determines where the first load instruction has a load-hit-store conflict with a first store instruction. If the processor determines the first load instruction has a load-hit store conflict with the first store instruction, the processor stores an address at which the first data set is located in memory in a second special purpose register, tags the first data set being stored by the first store instruction, stores an address at which the first store instruction is located in memory in a third special purpose register and increases a conflict counter. | 03-13-2014 |
20140075219 | Run-Time Task-Level Dynamic Energy Management - A mechanism is provided for run-time task-level dynamic energy management. An instruction address for a first instruction of the application is mapped to a portion of application code in the application in response to an application being marked for energy management. A monitoring of the hardware resource activities is done for the portion of the application code. A level of energy management is then implemented for the portion of the application code based on a value of the tick indicator, resource activities, and an intensity indicator. | 03-13-2014 |
20140108770 | IDENTIFYING LOAD-HIT-STORE CONFLICTS - A computing device identifies a load instruction and store instruction pair that causes a load-hit-store conflict. A processor tags a first load instruction that instructs the processor to load a first data set from memory. The processor stores an address at which the first load instruction is located in memory in a special purpose register. The processor determines where the first load instruction has a load-hit-store conflict with a first store instruction. If the processor determines the first load instruction has a load-hit store conflict with the first store instruction, the processor stores an address at which the first data set is located in memory in a second special purpose register, tags the first data set being stored by the first store instruction, stores an address at which the first store instruction is located in memory in a third special purpose register and increases a conflict counter. | 04-17-2014 |
20150127984 | Tightly-Coupled Context-Aware Irritator Thread Creation for Verification of Microprocessors - A mechanism is provided for context-aware irritation of a micro-processor. At each executed phase in a set of phases of a test case being executed on a set of micro-processors, a determination is made of a set of characteristics associated with the given executed phase of the test case. Based on the set of determined set of characteristics associated with the given executed phase, a determination is made of an irritation to be executed alongside the given executed phase of the test case. The determined irritation is then executed alongside the given executed phase of the test case. | 05-07-2015 |