| Patent application number | Description | Published |
|---|
| 20090177875 | BRANCH TARGET BUFFER ADDRESSING IN A DATA PROCESSOR - A branch target buffer (BTB) receives, from a processor, a current fetch group address which corresponds to a current fetch group including a plurality of instructions. In response to the current fetch group address resulting in a group hit in the BTB, the BTB provides to the processor a branch target address corresponding to a branch instruction within the current fetch group which is indicated by a control field as valid and predicted taken. The BTB generates the branch target address using an unshared lower order target portion, corresponding to the branch instruction and located within the entry of the BTB which caused the group hit, and one of a shared higher order target portion located within the entry of the BTB which caused the group hit or a higher order portion of the current fetch group address based on a value of the control field. | 07-09-2009 |
| 20090187789 | METHOD AND APPARATUS FOR HANDLING SHARED HARDWARE AND SOFTWARE DEBUG RESOURCE EVENTS IN A DATA PROCESSING SYSTEM - For some data processing systems, it is important to be able to handle overlapping debug events generated by a shared set of debug resources which are trying to cause both exception processing and debug mode entry. However, exception processing and debug mode entry generally have conflicting requirements. In one embodiment, exception priority processing is initially given to the software debug event. Normal state saving is performed and the first instruction of the debug exception handler is fetched, but not executed. Priority is then switched from the software debug event to the hardware debug event and a debug halted state is entered. Once processing of the hardware debug event has been completed, priority is returned to the software debug event and the debug exception handler is executed. | 07-23-2009 |
| 20090222645 | METRIC FOR SELECTIVE BRANCH TARGET BUFFER (BTB) ALLOCATION - A method and data processing system allocates entries in a branch target buffer (BTB). Instructions are fetched from a plurality of instructions and one of the plurality of instructions is determined to be a branch instruction. A corresponding branch target address is determined. A determination is made whether the branch target address is stored in a branch target buffer (BTB). When the branch target address is not stored in the branch target buffer, an entry in the branch target buffer is identified for allocation to receive the branch target address based upon stored metrics such as data processing cycle saving information and branch prediction state. In one form the stored metrics are stored in predetermined fields of the entries of the BTB. | 09-03-2009 |
| 20090222648 | SELECTIVE POSTPONEMENT OF BRANCH TARGET BUFFER (BTB) ALLOCATION - A system and method provides branch target buffer (BTB) allocation. When a branch instruction is received, a branch target address that corresponds to the branch instruction is determined. A determination is made whether the branch target address is presently stored in a branch target buffer (BTB). When the branch target address is not presently stored in the branch target buffer, an entry in the branch target buffer is identified to receive the branch target address. A value in a field within the identified entry in the branch target buffer, such as a postponement flag (PF), is used to selectively override a replacement decision defined by predetermined branch target buffer allocation criteria. In one form, if a branch is taken, the identified entry is replaced with the branch target address in response to determining that the value in the field within the identified entry has a predetermined value. | 09-03-2009 |
| 20090276587 | SELECTIVELY PERFORMING A SINGLE CYCLE WRITE OPERATION WITH ECC IN A DATA PROCESSING SYSTEM - A circuit includes a memory having error correction, circuitry which initiates a write operation to memory. When error correction is enabled and the write operation to the memory has the width of N bits, the write operation to the memory is performed in one access to the memory, and when error correction is enabled and the write operation to the memory has the width of M bits, where M bits is less than N bits, the write operation to the memory is performed in more than one access to the memory. In one example, the one access to the memory includes a write access to the memory, and the more than one access to the memory includes a read access to the memory and a write access to the memory. | 11-05-2009 |
| 20090276609 | CONFIGURABLE PIPELINE BASED ON ERROR DETECTION MODE IN A DATA PROCESSING SYSTEM - A method includes providing a data processor having an instruction pipeline, where the instruction pipeline has a plurality of instruction pipeline stages, and where the plurality of instruction pipeline stages includes a first instruction pipeline stage and a second instruction pipeline stage. The method further includes providing a data processor instruction that causes the data processor to perform a first set of computational operations during execution of the data processor instruction, performing the first set of computational operations in the first instruction pipeline stage if the data processor instruction is being executed and a first mode has been selected, and performing the first set of computational operations in the second instruction pipeline stage if the data processor instruction is being executed and a second mode has been selected. | 11-05-2009 |
| 20100031010 | BRANCH TARGET BUFFER ALLOCATION - A data processing system and method are provided for allocating an entry in a branch target buffer (BTB). The method comprises: receiving a branch instruction to be executed in a data processor; determining that the BTB does not include an entry corresponding to the branch instruction; identifying an entry in the BTB for allocation, the identified entry in the BTB comprising a target identifier and a first prediction value for a previously received branch instruction; determining whether to allocate the branch instruction to the identified entry in the BTB based on a comparison of the first prediction value to a second prediction value, wherein the second prediction value is generated from a branch history table (BHT); and allocating the branch instruction to the identified entry if the second prediction value indicates a more strongly taken prediction than the first prediction value. | 02-04-2010 |
| 20100166124 | DIGITAL ARCHITECTURE FOR RADIO-FREQUENCY APPARATUS AND ASSOCIATED METHODS - A radio-frequency (RF) receiver includes a receiver analog circuitry and a receiver digital circuitry. The receiver analog circuitry resides within a first integrated circuit and the receiver digital circuitry resides within a second integrated circuit. The second integrated circuit couples to the first integrated circuit via a one-bit digital interface. The receiver analog circuitry receives an RF signal and processes the received RF signal to generate a digital signal. The receiver analog circuitry provides the digital signal to the receiver digital circuitry. The receiver digital circuitry includes a digital down-converter circuitry that mixes the digital signal with an intermediate frequency (IF) local oscillator (LO) signal to generate a digital down-converted signal. The receiver digital circuitry also includes a digital filter circuitry that filters the digital down-converted signal to generate a filtered digital signal. | 07-01-2010 |
| 20100332940 | CONFIGURABLE PIPELINE BASED ON ERROR DETECTION MODE IN A DATA PROCESSING SYSTEM - A method includes providing a data processor having an instruction pipeline, where the instruction pipeline has a plurality of instruction pipeline stages, and where the plurality of instruction pipeline stages includes a first instruction pipeline stage and a second instruction pipeline stage. The method further includes providing a data processor instruction that causes the data processor to perform a first set of computational operations during execution of the data processor instruction, performing the first set of computational operations in the first instruction pipeline stage if the data processor instruction is being executed and a first mode has been selected, and performing the first set of computational operations in the second instruction pipeline stage if the data processor instruction is being executed and a second mode has been selected. | 12-30-2010 |
