Patent application number | Description | Published |
20080288757 | Communicating Instructions and Data Between a Processor and External Devices - A mechanism for communicating instructions and data between a processor and external devices are provided. The mechanism makes use of a channel interface as the primary mechanism for communicating between the processor and a memory flow controller. The channel interface provides channels for communicating with processor facilities, memory flow control facilities, machine state registers, and external processor interrupt facilities, for example. These channels may be designated as blocking or non-blocking. With blocking channels, when no data is available to be read from the corresponding registers, or there is no space available to write to the corresponding registers, the processor is placed in a low power “stall” state. The processor is automatically awakened, via communication across the blocking channel, when data becomes available or space is freed. Thus, the channels of the present invention permit the processor to stay in a low power state. | 11-20-2008 |
20090070654 | Design Structure For A Processor System With Background Error Handling Feature - A design structure for a processor system may be embodied in a machine readable medium for designing, manufacturing or testing a processor integrated circuit. The design structure may embody a processor system that integrates error correcting code (ECC) detection and correction hardware within an memory management circuit. The design structure may specify ECC hardware circuitry that provides detection, correction and generation of ECC data bits in conjunction with memory data read and writes. The design structure for the processor system may permit the detection and correction of soft single bit errors read from local memory in-line while using read modify write DMA circuit logic to correct local memory data. The design structure may provide for local memory data error detection and correction in a background memory scrub process without the need for additional in-line data logic. | 03-12-2009 |
20090217300 | Communicating with a Processor Event Facility - A system and method for communicating with a processor event facility are provided. The system and method make use of a channel interface as the primary mechanism for communicating with the processor event facility. The channel interface provides channels for communicating with processor facilities, memory flow control facilities, machine state registers, and external processor interrupt facilities, for example. These channels may be designated as blocking or non-blocking. With blocking channels, when no data is available to be read from the corresponding registers, or there is no space available to write to the corresponding registers, the processor is placed in a low power “stall” state. The processor is automatically awakened, via communication across the blocking channel, when data becomes available or space is freed. Thus, the channels of the present invention permit the processor to stay in a low power state. | 08-27-2009 |
20100161846 | Multithreaded Programmable Direct Memory Access Engine - A mechanism programming a direct memory access engine operating as a multithreaded processor is provided. A plurality of programs is received from a host processor in a local memory associated with the direct memory access engine. A request is received in the direct memory access engine from the host processor indicating that the plurality of programs located in the local memory is to be executed. The direct memory access engine executes two or more of the plurality of programs without intervention by a host processor. As each of the two or more of the plurality of programs completes execution, the direct memory access engine sends a completion notification to the host processor that indicates that the program has completed execution. | 06-24-2010 |
20100161848 | Programmable Direct Memory Access Engine - A mechanism for programming a direct memory access engine operating as a single thread processor is provided. A program is received from a host processor in a local memory associated with the direct memory access engine. A request is received in the direct memory access engine from the host processor indicating that the program located in the local memory is to be executed. The direct memory access engine executes the program without intervention by a host processor. Responsive to the program completing execution, the direct memory access engine sends a completion notification to the host processor that indicates that the program has completed execution. | 06-24-2010 |
20100250943 | METHOD FOR SECURITY IN ELECTRONICALLY FUSED ENCRYPTION KEYS - A method for electronically fused encryption key security includes inserting a plurality of inverters between a bank of security fuses and a fuse sense logic module. The method also includes sensing an activated set of the bank of security fuses and the plurality of inverters. The method further includes comparing the sensed activated set of the bank of security fuses and the plurality of inverters with a software key to determine whether at least a substantial match is made. | 09-30-2010 |
20110066769 | Multithreaded Programmable Direct Memory Access Engine - A mechanism programming a direct memory access engine operating as a multithreaded processor is provided. A plurality of programs is received from a host processor in a local memory associated with the direct memory access engine. A request is received in the direct memory access engine from the host processor indicating that the plurality of programs located in the local memory is to be executed. The direct memory access engine executes two or more of the plurality of programs without intervention by a host processor. As each of the two or more of the plurality of programs completes execution, the direct memory access engine sends a completion notification to the host processor that indicates that the program has completed execution. | 03-17-2011 |
20120246354 | Multithreaded Programmable Direct Memory Access Engine - A mechanism programming a direct memory access engine operating as a multithreaded processor is provided. A plurality of programs is received from a host processor in a local memory associated with the direct memory access engine. A request is received in the direct memory access engine from the host processor indicating that the plurality of programs located in the local memory is to be executed. The direct memory access engine executes two or more of the plurality of programs without intervention by a host processor. As each of the two or more of the plurality of programs completes execution, the direct memory access engine sends a completion notification to the host processor that indicates that the program has completed execution. | 09-27-2012 |
20140059099 | REDUCING BIAS IN HARDWARE GENERATED RANDOM NUMBERS - A random number generator of a processor comprises a whitener for reducing the bias in random numbers generated by the random number generator. The whitener receives a random number of a first length read by an array of latches with inputs from an array of oscillators. The whitener dynamically creates a mask of the first length based on a parity of at least one previous random number read from the array of latches during at least one cycle prior to reading the random number. The whitener applies a compare operation between the random number and the mask to generate a whitened random number of the first length, with reduced bias, without reducing randomness. | 02-27-2014 |
20140059100 | REDUCING BIAS IN HARDWARE GENERATED RANDOM NUMBERS - A random number generator of a processor comprises a whitener for reducing the bias in random numbers generated by the random number generator. The whitener receives a random number of a first length read by an array of latches with inputs from an array of oscillators. The whitener dynamically creates a mask of the first length based on a parity of at least one previous random number read from the array of latches during at least one cycle prior to reading the random number. The whitener applies a compare operation between the random number and the mask to generate a whitened random number of the first length, with reduced bias, without reducing randomness. | 02-27-2014 |