| Patent application number | Description | Published |
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| 20080244242 | Using a Register File as Either a Rename Buffer or an Architected Register File - A computer implemented method, apparatus, and computer usable program code are provided for implementing a set of architected register files as a set of temporary rename buffers. An instruction dispatch unit receives an instruction that includes instruction data. The instruction dispatch unit determines a thread mode under which a processor is operating. Responsive to determining the thread mode, the instruction dispatch unit determines an ability to use the set of architected register files as the set of temporary rename buffers. Responsive to the ability to use the set of architected register files as the set of temporary rename buffers, the instruction dispatch unit analyzes the instruction to determine an address of an architected register file in the set of architected register files where the instruction data is to be stored. The architected register file operating as a temporary rename buffer stores the instruction data as finished data. | 10-02-2008 |
| 20090006817 | Mechanisms for Placing a Processor into a Gradual Slow Mode of Operation - Mechanisms for placing a processor into a gradual slow down mode of operation are provided. The gradual slow down mode of operation comprises a plurality of stages of slow down operation of an issue unit in a processor in which the issuance of instructions is slowed in accordance with a staging scheme. The gradual slow down of the processor allows the processor to break out of livelock conditions. Moreover, since the slow down is gradual, the processor may flexibly avoid various degrees of livelock conditions. The mechanisms of the illustrative embodiments impact the overall processor performance based on the severity of the livelock condition by taking a small performance impact on less severe livelock conditions and only increasing the processor performance impact when the livelock condition is more severe. | 01-01-2009 |
| 20090006820 | Issue Unit for Placing a Processor into a Gradual Slow Mode of Operation - An issue unit for placing a processor into a gradual slow down mode of operation is provided. The gradual slow down mode of operation comprises a plurality of stages of slow down operation of an issue unit in a processor in which the issuance of instructions is slowed in accordance with a staging scheme. The gradual slow down of the processor allows the processor to break out of livelock conditions. Moreover, since the slow down is gradual, the processor may flexibly avoid various degrees of livelock conditions. The mechanisms of the illustrative embodiments impact the overall processor performance based on the severity of the livelock condition by taking a small performance impact on less severe livelock conditions and only increasing the processor performance impact when the livelock condition is more severe. | 01-01-2009 |
| 20090043995 | Handling Data Cache Misses Out-of-Order for Asynchronous Pipelines - An apparatus and method for handling data cache misses out-of-order for asynchronous pipelines are provided. The apparatus and method associates load tag (LTAG) identifiers with the load instructions and uses them to track the load instruction across multiple pipelines as an index into a load table data structure of a load target buffer. The load table is used to manage cache “hits” and “misses” and to aid in the recycling of data from the L2 cache. With cache misses, the LTAG indexed load table permits load data to recycle from the L2 cache in any order. When the load instruction issues and sees its corresponding entry in the load table marked as a “miss,” the effects of issuance of the load instruction are canceled and the load instruction is stored in the load table for future reissuing to the instruction pipeline when the required data is recycled. | 02-12-2009 |
| 20090113182 | System and Method for Issuing Load-Dependent Instructions from an Issue Queue in a Processing Unit - A system and method for issuing load-dependent instructions from an issue queue in a processing unit in a data processing system. In response to a LSU determining that a load request from a load instruction missed a first level in a memory hierarchy, a LMQ allocates a load-miss queue entry corresponding to the load instruction. The LMQ associates at least one instruction dependent on the load request with the load-miss queue entry. Once data associated with the load request is retrieved, the LMQ selects at least one instruction dependent on the load request for execution on the next cycle. At least one instruction dependent on the load request is executed and a result is outputted. | 04-30-2009 |
| 20090292892 | Method to Reduce Power Consumption of a Register File with Multi SMT Support - A method for reducing the power consumption of a register file of a microprocessor supporting simultaneous multithreading (SMT) is disclosed. Mapping logic and associated table entries monitor a total number of processing threads currently executing in the processor and signal control logic to disable specific register file entries not required for currently executing or pending instruction threads or register file entries not meeting a minimum access threshold using a least recently used algorithm (LRU). The register file utilization is controlled such that a register file address range selected for deactivation is not assigned for pending or future instruction threads. One or more power saving techniques are then applied to disabled register files to reduce overall power dissipation in the system. | 11-26-2009 |
| 20100058033 | System and Method for Double-Issue Instructions Using a Dependency Matrix and a Side Issue Queue - A method receives a complex instruction comprising a first portion and a second portion. The method sets a single issue queue slot and allocates an execution unit for the complex instruction, and identifies dependencies in the first and second portions. The method sets a dependency matrix slot and a consumers table slot for the first and section portion. In the event the first portion dependencies have been satisfied, the method issues the first portion and then issues the second portion from the single issue queue slot. In the event the second portion dependencies have not been satisfied, the method places the second portion into a side issue queue. The method issues the second portion when the side issue queue indicates that the second portion is eligible for issue. | 03-04-2010 |
| 20100058035 | System and Method for Double-Issue Instructions Using a Dependency Matrix - A method for double-issue complex instructions receives a complex instruction comprising a first portion and a second portion. The method sets a single issue queue slot and allocates an execution unit for the complex instruction, and identifies dependencies in the first and second portions. The method sets a dependency matrix slot and a consumers table slot for the first and section portion. In the event the first portion dependencies have been satisfied, the method issues the first portion and then issues the second portion from the single issue queue slot. In the event the second portion dependencies have not been satisfied, the method cancels the second portion issue. | 03-04-2010 |
| 20100077181 | System and Method for Issuing Load-Dependent Instructions in an Issue Queue in a Processing Unit of a Data Processing System - A system and method for issuing load-dependent instructions in an issue queue in a processing unit. A load miss queue is provided. The load miss queue comprises a physical address field, an issue queue position field, a valid identifier field, a source identifier field, and a data type field. A load instruction that misses a first level cache is dispatched, and both the physical address field and the data type field are set. A load-dependent instruction is identified. In response to indentifying the load-dependent instruction, each of the issue queue position field, valid identifier field, and source identifier field are set. If the issue queue position field refers to a flushed instruction, the valid identifier field is cleared. The load instruction is recycled, and a value of the valid identifier field is determined. The load-dependent instruction is then selected for issue on a next processing cycle independent of an age of the load-dependent instruction. | 03-25-2010 |
| 20100250902 | Tracking Deallocated Load Instructions Using a Dependence Matrix - A mechanism is provided for tracking deallocated load instructions. A processor detects whether a load instruction in a set of instructions in an issue queue has missed. Responsive to a miss of the load instruction, an instruction scheduler allocates the load instruction to a load miss queue and deallocates the load instruction from the issue queue. The instruction scheduler determines whether there is a dependence entry for the load instruction in an issue queue portion of a dependence matrix. Responsive to the existence of the dependence entry for the load instruction in the issue queue portion of the dependence matrix, the instruction scheduler reads data from the dependence entry of the issue queue portion of the dependence matrix that specifies a set of dependent instructions that are dependent on the load instruction and writes the data into a new entry in a load miss queue portion of the dependence matrix. | 09-30-2010 |
| 20100251016 | Issuing Instructions In-Order in an Out-of-Order Processor Using False Dependencies - A mechanism is provided for issuing instructions. An instruction dispatch unit receives an instruction for dispatch to one of a plurality of execution units. The instruction dispatch unit analyzes a tag register to determine whether a previous tag associated with a previous instruction has been stored in the tag register. Responsive to the previous tag associated with the previous instruction failing to be stored in the tag register, the instruction dispatch unit storing a tag corresponding to the instruction in the tag register. The instruction dispatch unit dispatches the instruction to an issue queue for issue to the one of the plurality of execution units. | 09-30-2010 |
