Patent application number | Description | Published |
20110066806 | System and method for memory bandwidth friendly sorting on multi-core architectures - In some embodiments, the invention involves utilizing a tree merge sort in a platform to minimize cache reads/writes when sorting large amounts of data. An embodiment uses blocks of pre-sorted data residing in “leaf nodes” residing in memory storage. A pre-sorted block of data from each leaf node is read from memory and stored in faster cache memory. A tree merge sort is performed on the nodes that are cache resident until a block of data migrates to a root node. Sorted blocks reaching the root node are written to memory storage in an output list until all pre-sorted data blocks have been moved to cache and merged upward to the root. The completed output list in memory storage is a list of the fully sorted data. Other embodiments are described and claimed. | 03-17-2011 |
20110078340 | VIRTUAL ROW BUFFERS FOR USE WITH RANDOM ACCESS MEMORY - Methods, apparatuses and systems to decrease the energy consumption of a memory chip while increasing its effect bandwidth during the execution of any workload. Methods, apparatuses and systems may allow a memory chip utilize a plurality of virtual row buffers to respond to requests for data included in a memory array block. Methods, apparatuses and systems may further eliminate or reduce the cost associated with transferring unnecessary data from a memory array block to row buffers by altering the data transfer size between a memory array block and a row buffer. | 03-31-2011 |
20110138122 | GATHER AND SCATTER OPERATIONS IN MULTI-LEVEL MEMORY HIERARCHY - Methods and apparatus relating to gather or scatter operations in a multi-level cache are described. In some embodiments, a logic may determine whether to perform gather or scatter operations at a first memory or a second memory, based in part on a relative performance of performing the gather or scatter operations at the first memory and the second memory. Other embodiments are also described and claimed. | 06-09-2011 |
20110161060 | Optimization-Based exact formulation and solution of crowd simulation in virtual worlds - A method of computing a collision-free velocity ( | 06-30-2011 |
20120290799 | GATHER AND SCATTER OPERATIONS IN MULTI-LEVEL MEMORY HIERARCHY - Methods and apparatus relating to gather or scatter operations in a multi-level cache are described. In some embodiments, a logic may determine whether to perform gather or scatter operations at a first memory or a second memory, based in part on a relative performance of performing the gather or scatter operations at the first memory and the second memory. Other embodiments are also described and claimed. | 11-15-2012 |
20130297878 | GATHER AND SCATTER OPERATIONS IN MULTI-LEVEL MEMORY HIERARCHY - Methods and apparatus relating to gather or scatter operations in a multi-level cache are described. In some embodiments, a logic may determine whether to perform gather or scatter operations at a first memory or a second memory, based in part on a relative performance of performing the gather or scatter operations at the first memory and the second memory. Other embodiments are also described and claimed. | 11-07-2013 |
20140337580 | GATHER AND SCATTER OPERATIONS IN MULTI-LEVEL MEMORY HIERARCHY - Methods and apparatus relating to gather or scatter operations in a multi-level cache are described. In some embodiments, a logic may determine whether to perform gather or scatter operations at a first memory or a second memory, based in part on a relative performance of performing the gather or scatter operations at the first memory and the second memory. Other embodiments are also described and claimed. | 11-13-2014 |
Patent application number | Description | Published |
20120156109 | SYSTEMS FOR FUEL PRODUCTION - Presented are one or more aspects and/or one or more embodiments of catalysts, methods of preparation of catalyst, methods of deoxygenation, and methods of fuel production. | 06-21-2012 |
20120157297 | CATALYSTS AND METHODS OF PREPARATION OF CATALYST - Presented are one or more aspects and/or one or more embodiments of catalysts, methods of preparation of catalyst, methods of deoxygenation, and methods of fuel production. | 06-21-2012 |
20120157299 | METHOD OF MAKING A CATALYST - Presented are one or more aspects and/or one or more embodiments of catalysts, methods of preparation of catalyst, methods of deoxygenation, and methods of fuel production. | 06-21-2012 |
20120157727 | METHODS OF DEOXYGENATION AND SYSTEMS FOR FUEL PRODUCTION - Presented are one or more aspects and/or one or more embodiments of catalysts, methods of preparation of catalyst, methods of deoxygenation, and methods of fuel production. | 06-21-2012 |
20130142700 | FLOW DISTRIBUTION FOR MONOLITHIC REACTORS - Systems, apparatus, and methods for distributing a mixed phase fluid to a monolith catalyst bed within a reactor, wherein a mixed phase fluid may be generated by a nozzle tray comprising a plurality of nozzles, the mixed phase fluid may be distributed by the nozzles to a mixed phase distributor system, and the mixed phase fluid may be further distributed by the mixed phase distributor system to a plurality of monolith channels within the reactor. | 06-06-2013 |
20140183275 | FLOW DISTRIBUTION FOR MONOLITHIC REACTORS - Systems, apparatus, and methods for distributing a mixed phase fluid to a monolith catalyst bed within a reactor, wherein a mixed phase fluid may be generated by a nozzle tray comprising a plurality of nozzles, the mixed phase fluid may be distributed by the nozzles to a mixed phase distributor system, and the mixed phase fluid may be further distributed by the mixed phase distributor system to a plurality of monolith channels within the reactor. | 07-03-2014 |
20140183282 | FLOW DISTRIBUTION FOR MONOLITHIC REACTORS - Systems, apparatus, and methods for distributing a mixed phase fluid to a monolith catalyst bed within a reactor, wherein a mixed phase fluid may be generated by a nozzle tray comprising a plurality of nozzles, the mixed phase fluid may be distributed by the nozzles to a mixed phase distributor system, and the mixed phase fluid may be further distributed by the mixed phase distributor system to a plurality of monolith channels within the reactor. | 07-03-2014 |