| Convey Computer Patent applications |
| Patent application number | Title | Published |
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| 20120079177 | MEMORY INTERLEAVE FOR HETEROGENEOUS COMPUTING - A memory interleave system for providing memory interleave for a heterogeneous computing system is provided. The memory interleave system effectively interleaves memory that is accessed by heterogeneous compute elements in different ways, such as via cache-block accesses by certain compute elements and via non-cache-block accesses by certain other compute elements. The heterogeneous computing system may comprise one or more cache-block oriented compute elements and one or more non-cache-block oriented compute elements that share access to a common main memory. The cache-block oriented compute elements access the memory via cache-block accesses (e.g., 64 bytes, per access), while the non-cache-block oriented compute elements access memory via sub-cache-block accesses (e.g., 8 bytes, per access). A memory interleave system is provided to optimize the interleaving across the system's memory banks to minimize hot spots resulting from the cache-block oriented and non-cache-block oriented accesses of the heterogeneous computing system. | 03-29-2012 |
| 20100115237 | CO-PROCESSOR INFRASTRUCTURE SUPPORTING DYNAMICALLY-MODIFIABLE PERSONALITIES - A co-processor is provided that comprises one or more application engines that can be dynamically configured to a desired personality. For instance, the application engines may be dynamically configured to any of a plurality of different vector processing instruction sets, such as a single-precision vector processing instruction set and a double-precision vector processing instruction set. The co-processor further comprises a common infrastructure that is common across all of the different personalities, such as an instruction decode infrastructure, memory management infrastructure, system interface infrastructure, and/or scalar processing unit (that has a base set of instructions). Thus, the personality of the co-processor can be dynamically modified (by reconfiguring one or more application engines of the co-processor), while the common infrastructure of the co-processor remains consistent across the various personalities. | 05-06-2010 |
| 20100115233 | DYNAMICALLY-SELECTABLE VECTOR REGISTER PARTITIONING - The present invention is directed generally to dynamically-selectable vector register partitioning, and more specifically to a processor infrastructure (e.g., co-processor infrastructure in a multi-processor system) that supports dynamic setting of vector register partitioning to any of a plurality of different vector partitioning modes. Thus, rather than being restricted to a fixed vector register partitioning mode, embodiments of the present invention enable a processor to be dynamically set to any of a plurality of different vector partitioning modes. Thus, for instance, different vector register partitioning modes may be employed for different applications being executed by the processor, and/or different vector register partitioning modes may even be employed for use in processing different vector oriented operations within a given applications being executed by the processor, in accordance with certain embodiments of the present invention. | 05-06-2010 |
| 20100037024 | MEMORY INTERLEAVE FOR HETEROGENEOUS COMPUTING - A memory interleave system for providing memory interleave for a heterogeneous computing system is provided. The memory interleave system effectively interleaves memory that is accessed by heterogeneous compute elements in different ways, such as via cache-block accesses by certain compute elements and via non-cache-block accesses by certain other compute elements. The heterogeneous computing system may comprise one or more cache-block oriented compute elements and one or more non-cache-block oriented compute elements that share access to a common main memory. The cache-block oriented compute elements access the memory via cache-block accesses (e.g., 64 bytes, per access), while the non-cache-block oriented compute elements access memory via sub-cache-block accesses (e.g., 8 bytes, per access). A memory interleave system is provided to optimize the interleaving across the system's memory banks to minimize hot spots resulting from the cache-block oriented and non-cache-block oriented accesses of the heterogeneous computing system. | 02-11-2010 |
| 20100036997 | MULTIPLE DATA CHANNEL MEMORY MODULE ARCHITECTURE - The present invention is directed generally to systems and methods which provide a memory module having multiple data channels that are independently accessible (i.e., a multi-data channel memory module). According to one embodiment, the multi-data channel memory module enables a plurality of independent sub-cache-block accesses to be serviced simultaneously. In addition, the memory architecture also supports cache-block accesses. For instance, multiple ones of the data channels may be employed for servicing a cache-block access. In one embodiment a DIMM architecture that comprises multiple data channels is provided. Each data channel supports a sub-cache-block access, and multiple ones of the data channels may be used for supporting a cache-block access. The plurality of data channels to a given DIMM may be used simultaneously to support different, independent memory access operations. | 02-11-2010 |
| 20090177843 | MICROPROCESSOR ARCHITECTURE HAVING ALTERNATIVE MEMORY ACCESS PATHS - The present invention is directed to a system and method which employ two memory access paths: 1) a cache-access path in which block data is fetched from main memory for loading to a cache, and 2) a direct-access path in which individually-addressed data is fetched from main memory. The system may comprise one or more processor cores that utilize the cache-access path for accessing data. The system may further comprise at least one heterogeneous functional unit that is operable to utilize the direct-access path for accessing data. In certain embodiments, the one or more processor cores, cache, and the at least one heterogeneous functional unit may be included on a common semiconductor die (e.g., as part of an integrated circuit). Embodiments of the present invention enable improved system performance by selectively employing the cache-access path for certain instructions while selectively employing the direct-access path for other instructions. | 07-09-2009 |
| 20090070553 | DISPATCH MECHANISM FOR DISPATCHING INSTURCTIONS FROM A HOST PROCESSOR TO A CO-PROCESSOR - A dispatch mechanism is provided for dispatching instructions of an executable from a host processor to a heterogeneous co-processor. According to certain embodiments, cache coherency is maintained between the host processor and the heterogeneous co-processor, and such cache coherency is leveraged for dispatching instructions of an executable that are to be processed by the co-processor. For instance, in certain embodiments, a designated portion of memory (e.g., “UCB”) is utilized, wherein a host processor may place information in such UCB and the co-processor can retrieve information from the UCB (and vice-versa). The UCB may thus be used to dispatch instructions of an executable for processing by the co-processor. In certain embodiments, the co-processor may comprise dynamically reconfigurable logic which enables the co-processor's instruction set to be dynamically changed, and the dispatching operation may identify one of a plurality of predefined instruction sets to be loaded onto the co-processor. | 03-12-2009 |
| 20090064095 | COMPILER FOR GENERATING AN EXECUTABLE COMPRISING INSTRUCTIONS FOR A PLURALITY OF DIFFERENT INSTRUCTION SETS - A software compiler is provided that is operable for generating an executable that comprises instructions for a plurality of different instruction sets as may be employed by different processors in a multi-processor system. The compiler may generate an executable that includes a first portion of instructions to be processed by a first instruction set (such as a first instruction set of a first processor in a multi-processor system) and a second portion of instructions to be processed by a second instruction set (such as a second instruction set of a second processor in a multi-processor system). Such executable may be generated for execution on a multi-processor system that comprises at least one host processor, which may comprise a fixed instruction set, such as the well-known x86 instruction set, and at least one co-processor, which comprises dynamically reconfigurable logic that enables the co-processor's instruction set to be dynamically reconfigured. | 03-05-2009 |
| 20090055596 | MULTI-PROCESSOR SYSTEM HAVING AT LEAST ONE PROCESSOR THAT COMPRISES A DYNAMICALLY RECONFIGURABLE INSTRUCTION SET - A multi-processor system comprises at least one host processor, which may comprise a fixed instruction set, such as the well-known x86 instruction set. The system further comprises at least one co-processor, which comprises dynamically reconfigurable logic that enables the co-processor's instruction set to be dynamically reconfigured. In this manner, the at least one host processor and the at least one dynamically reconfigurable co-processor are heterogeneous processors having different instruction sets. Further, cache coherency is maintained between the heterogeneous host and co-processors. And, a single executable file may contain instructions that are processed by the multi-processor system, wherein a portion of the instructions are processed by the host processor and a portion of the instructions are processed by the co-processor. | 02-26-2009 |
