Patent application number | Description | Published |
20100169616 | REDUCING INSTRUCTION COLLISIONS IN A PROCESSOR - An embodiment of a technique for selecting instructions for execution from an issue queue at multiple function units while reducing the chances of instruction collisions. Each function unit in a processor may include a selection logic circuit that selects a specific instruction from the issue queue for execution. In order to avoid instruction collision, a function unit may have a selection logic circuit that may select two instructions from an instruction queue: one according to a first selection technique and one according to a second selection technique. Then, by comparing the instruction selected by the first selection technique to the instruction selected by the selection logic circuit of another function unit, the instruction selected by the second technique may be used instead if there will be an instruction collision because the instruction selected by the first selection technique is the same as the instruction selected at a different function unit. | 07-01-2010 |
20100169617 | POWER EFFICIENT SYSTEM FOR RECOVERING AN ARCHITECTURE REGISTER MAPPING TABLE - A system for recovering an architecture register mapping table (ARMT). The system includes a first number of collection circuits and decode circuits, a second number of selection circuits, and an enable circuit. Information related to the mapping between each physical register and an appropriate architecture register is obtained from a physical register mapping table (PRMT) by one and only one collection circuit during only one of a fourth number of instruction cycles. Each decode circuit has its input coupled to the output of one different collection circuit and is capable of converting its input into a third number bit wide binary string selection code at its output. Each selection circuit is configured to receive from each selection code a bit from a bit position associated with that selection circuit. The enable circuit is configured to appropriately enable mapping of information from the PRMT to the ARMT. | 07-01-2010 |
20100205387 | APPARATUS UTILIZING EFFICIENT HARDWARE IMPLEMENTATION OF SHADOW REGISTERS AND METHOD THEREOF - Embodiments of a processor architecture efficiently implement shadow registers in hardware. A register system in a processor includes a set of physical data registers coupled to register renaming logic. The register renaming logic stores data in and retrieves data from the set of physical registers when the processor is in a first processor state. The register renaming logic identifies ones of the set of physical registers that have a first operational state as a first group of registers and identifies the remaining ones of the set of physical registers as a second group of registers in response to an indication that the processor is to enter a second processor state from the first processor state. The register renaming logic stores data in and retrieves data from the second group of registers but not the first group of registers when the processor is in the second processor state. | 08-12-2010 |
20100205409 | NOVEL REGISTER RENAMING SYSTEM USING MULTI-BANK PHYSICAL REGISTER MAPPING TABLE AND METHOD THEREOF - Embodiments of a processor architecture utilizing multi-bank implementation of physical register mapping table are provided. A register renaming system to correlate architectural registers to physical registers includes a physical register mapping table and a renaming logic. The physical register mapping table has a plurality of entries each indicative of a state of a respective physical register. The mapping table has a plurality of non-overlapping sections each of which having respective entries of the mapping table. The renaming logic is coupled to search a number of the sections of the mapping table in parallel to identify entries that indicate the respective physical registers have a first state. The renaming logic selectively correlates each of a plurality of architectural registers to a respective physical register identified as being in the first state. Methods of utilizing the multi-bank implementation of physical register mapping table are also provided. | 08-12-2010 |
20120157769 | CAPSULE ENDOSCOPE - An embodiment comprises and apparatus having an image capture device with an image axis and a gyroscope operable to indicate the orientation of the image axis. An embodiment of a capsule endoscopy system comprises an imaging capsule and an external unit. The imaging capsule may comprise an image capture device having an image axis and a gyroscope operable to indicate the orientation of the image axis. The external unit may comprise a gyroscope operable to indicate an orientation of a subject and a harness wearable by a subject and operable to align the gyroscope with the subject. The imaging capsule may send and image to an external unit for processing and display, and the external unit may provide for calculation of the image-axis orientation relative to the body. | 06-21-2012 |
20120172681 | SUBJECT MONITOR - An embodiment comprises includes an apparatus with a housing wearable by a subject and a first sensor operable to detect a position of the subject. An embodiment of the apparatus includes a second sensor operable to detect a body state of the subject, where the first body state may be a vital sign such as heart rate, blood pressure, body temperature or respiratory rate. The apparatus may also include a wireless module, and be operable to transmit body state data and position data to a remote device. The apparatus may include a gyroscope or an accelerometer, and may be operable to detect rotational change in the subject's position about and axis, linear acceleration of the subject along an axis, a change in position of the subject, or a rate of change in position of the subject. | 07-05-2012 |
20120173846 | METHOD TO REDUCE THE ENERGY COST OF NETWORK-ON-CHIP SYSTEMS - In a network-on-chip (NoC) system, multiple data messages may be transferred among modules of the system. Power consumption due to the transfer of the messages may affect a cost and overall performance of the system. A described technique provides a way to reduce a volume of data transferred in the NoC system by exploiting redundancy of data messages. Thus, if a data message to be sent from a source in the NoC includes so-called “zero” bytes that are bytes including only bits set to “0,” such zero bytes may not be transmitted in the NoC. Information on whether each byte of the data message is a zero byte may be recorded in a storage such as a data structure. This information, together with non-zero bytes of the data message, may form a compressed version of the data message. The information may then be used to uncompress the compressed data message at a destination. | 07-05-2012 |
20120173848 | PIPELINE FLUSH FOR PROCESSOR THAT MAY EXECUTE INSTRUCTIONS OUT OF ORDER - An embodiment of an instruction pipeline includes first and second sections. The first section is operable to provide first and second ordered instructions, and the second section is operable, in response to the second instruction, to read first data from a data-storage location, is operable, in response to the first instruction, to write second data to the data-storage location after reading the first data, and is operable, in response to the writing the second data after reading the first data, to cause the flushing of a some, but not all, of the pipeline. Such an instruction pipeline may reduce the processing time lost and the energy expended due to a pipeline flush by flushing only a portion of the pipeline instead of flushing the entire pipeline. | 07-05-2012 |
20140122837 | NOVEL REGISTER RENAMING SYSTEM USING MULTI-BANK PHYSICAL REGISTER MAPPING TABLE AND METHOD THEREOF - Embodiments of a processor architecture utilizing multi-bank implementation of physical register mapping table are provided. A register renaming system to correlate architectural registers to physical registers includes a physical register mapping table and a renaming logic. The physical register mapping table has a plurality of entries each indicative of a state of a respective physical register. The mapping table has a plurality of non-overlapping sections each of which having respective entries of the mapping table. The renaming logic is coupled to search a number of the sections of the mapping table in parallel to identify entries that indicate the respective physical registers have a first state. The renaming logic selectively correlates each of a plurality of architectural registers to a respective physical register identified as being in the first state. Methods of utilizing the multi-bank implementation of physical register mapping table are also provided. | 05-01-2014 |