Patent application number | Description | Published |
20080288691 | METHOD AND APPARATUS OF LOCK TRANSACTIONS PROCESSING IN SINGLE OR MULTI-CORE PROCESSOR - The present invention relates to a method and apparatus of lock transactions processing in a single or multi-core processor. An embodiment of the present invention is a processor with one or more processing cores, an address arbitrator, where one or more processing cores are configured to submit a lock transaction request to the address arbitrator corresponding to a specific instruction in response to the execution of the specific instruction. The lock transaction request includes a lock variable address asserted on an address bus. The processor further includes a lock controller for performing lock transaction processing in response to the lock transaction request, and notifying processing result to the processing core from which the lock transaction request was sent. The processor further includes a switching device, coupled to the address arbitrator and the lock controller, for identifying the lock transaction request and notifying the lock transaction request to the lock controller. | 11-20-2008 |
20090193159 | BUS ENCODING/DECODING METHOD AND BUS ENCODER/DECODER - An encoding method and an encoder for encoding data transmitted in a manner of bursts via a parallel bus and a decoding method and a decoder. The encoding method includes organizing data of the bursts into matrixes, determining for each of the matrixes whether a transform mode capable of decreasing the bus transition number exists, determining that the matrix needs to be transformed, determining a transform mode for transforming the matrix, and replacing the initial matrix with the transformed matrix. Then, forming a new matrix to be transmitted from matrixes which do not need to be transformed and matrixes which have been transformed. Thereafter, first generating a transform information word indicating transform states of the respective matrixes and then attaching the transform information word to the matrix to be transmitted to form an encoded matrix for actual transmission. | 07-30-2009 |
20090193319 | DATA BUS SYSTEM, ITS ENCODER/DECODER AND ENCODING/DECODING METHOD - The present application relates to a data bus system, its encoder/decoder and encoding/decoding method. The data bus encoder comprises: a bus-invert encoder for generating encoded data and invert-indication information by performing bus-invert encoding on data according to a predetermined bus-invert encoding scheme; a virtual bit-group generator for converting the invert-indication information into a virtual bit-group according to a predetermined code mapping; and an error-checking-and-correction encoder for generating an error-checking-and-correction code for a virtual word according to a predetermined error-checking-and-correction encoding scheme, wherein the number of error-checking bits is more than the number of error-correction bits at least by one in the predetermined error-checking-and-correction encoding scheme, the mapping is such that the Hamming distance between any possible value of the virtual bit-group and a reference virtual bit-group which cannot be converted into under the mapping is a fixed value, and not greater than the number of error-correction bits of the error-checking-and-correction encoding scheme, and the virtual word includes the data to be output, the virtual bit-group corresponding to the data, and at least one padding bit of a fixed value, which is configured as required by the error-checking-and-correction encoding scheme. | 07-30-2009 |
20090193424 | METHOD OF PROCESSING INSTRUCTIONS IN PIPELINE-BASED PROCESSOR AND CORRESPONDING PROCESSOR - The present invention discloses a method of processing instructions in a pipeline-based central processing unit, wherein the pipeline is partitioned into base pipeline stages and enhanced pipeline stages according to functions, the base pipeline stages being activated all the while, and the enhanced pipeline stages being activated or shutdown according to requirements for performance of a workload. The present invention further discloses a method of processing instructions in a pipeline-based central processing unit, wherein the pipeline is partitioned into base pipeline stages and enhanced pipeline stages according to functions, each pipeline stage being partitioned into a base module and at least one enhanced module, the base module being activated all the while, and the enhanced module being activated or shutdown according to requirements for performance of a workload. | 07-30-2009 |
20090248934 | INTERRUPT DISPATCHING METHOD IN MULTI-CORE ENVIRONMENT AND MULTI-CORE PROCESSOR - Disclosed is an interrupt dispatching system and method in a multi-core processor environment. The processor includes an interrupt dispatcher and N cores capable of interrupt handling which are divided into a plurality of groups of cores, where N is a positive integer greater than one. The method generates a token in response to an arriving interrupt; determines a group of cores to be preferentially used to handle the interrupt as a hot group in accordance with the interrupt; and sends the token to the hot group, determines sequentially from the first core in the hot group whether an interrupt dispatch termination condition is satisfied, and determines the current core as a response core to be used to handle the interrupt upon determining satisfaction of the interrupt dispatch termination condition. With the invention, delay in responding to an interrupt by the processor is reduced providing optimized performance of the processor. | 10-01-2009 |
20100211707 | METHOD AND APPARATUS FOR LOWERING I/O POWER OF A COMPUTER SYSTEM AND COMPUTER SYSTEM - The present invention provides a method and an apparatus for lowering I/O power of a computer system and a computer system. According to an aspect of the present invention, there is provided a method for lowering I/O power of a computer system, comprising: buffering a plurality of ways of data to be sent to a bus; encoding each of the plurality of ways of data buffered from n bits to n+m bits based on an encoding rule, wherein n and m are both an integer larger than or equal to 1, the encoding rule is used to lower code switching frequency; and sending the plurality of ways of data encoded to the bus. | 08-19-2010 |
20120204082 | DATA BUS SYSTEM, ITS ENCODER/DECODER AND ENCODING/DECODING METHOD - The present application relates to a data bus system, its encoder/decoder and encoding/decoding method. The data bus encoder comprises: a bus-invert encoder for generating encoded data and invert-indication information by performing bus-invert encoding on data according to a predetermined bus-invert encoding scheme; a virtual bit-group generator for converting the invert-indication information into a virtual bit-group according to a predetermined code mapping; and an error-checking-and-correction encoder for generating an error-checking-and-correction code for a virtual word according to a predetermined error-checking-and-correction encoding scheme, wherein the number of error-checking bits is more than the number of error-correction bits at least by one in the predetermined error-checking-and-correction encoding scheme, and the virtual word includes the data to be output, the virtual bit-group corresponding to the data, and at least one padding bit of a fixed value, which is configured as required by the error-checking-and-correction encoding scheme. | 08-09-2012 |
20120210106 | METHOD OF PROCESSING INSTRUCTIONS IN PIPELINE-BASED PROCESSOR - The present invention discloses a method of processing instructions in a pipeline-based central processing unit, wherein the pipeline is partitioned into base pipeline stages and enhanced pipeline stages according to functions, the base pipeline stages being activated all the while, and the enhanced pipeline stages being activated or shutdown according to requirements for performance of a workload. The present invention further discloses a method of processing instructions in a pipeline-based central processing unit, wherein the pipeline is partitioned into base pipeline stages and enhanced pipeline stages according to functions, each pipeline stage being partitioned into a base module and at least one enhanced module, the base module being activated all the while, and the enhanced module being activated or shutdown according to requirements for performance of a workload. | 08-16-2012 |