Patent application number | Description | Published |
20090024884 | MEMORY CONTROLLER METHOD AND SYSTEM COMPENSATING FOR MEMORY CELL DATA LOSSES - A computer system includes a memory controller coupled to a memory module containing several DRAMs. The memory module also includes a non-volatile memory storing row addresses identifying rows containing DRAM memory cells that are likely to lose data during normal refresh of the memory cells. Upon power-up, the data from the non-volatile memory are transferred to a comparator in the memory controller. The comparator compares the row addresses to row addresses from a refresh shadow counter that identify the rows in the DRAMs being refreshed. When a row of memory cells is being refreshed that is located one-half of the rows away from a row that is likely to loose data, the memory controller causes the row that is likely to loose data to be refreshed. The memory controller also includes error checking circuitry for identifying the rows of memory cells that are likely to lose data during refresh. | 01-22-2009 |
20090132790 | SYSTEM AND METHOD FOR PROCESSOR WITH PREDICTIVE MEMORY RETRIEVAL ASSIST - A system and method are described for a memory management processor which, using a table of reference addresses embedded in the object code, can open the appropriate memory pages to expedite the retrieval of information from memory referenced by instructions in the execution pipeline. A suitable compiler parses the source code and collects references to branch addresses, calls to other routines, or data references, and creates reference tables listing the addresses for these references at the beginning of each routine. These tables are received by the memory management processor as the instructions of the routine are beginning to be loaded into the execution pipeline, so that the memory management processor can begin opening memory pages where the referenced information is stored. Opening the memory pages where the referenced information is located before the instructions reach the instruction processor helps lessen memory latency delays which can greatly impede processing performance. | 05-21-2009 |
20090146047 | Apparatus and method for resonant lens focusing - A method and apparatus for focusing an image on a pixel array. The method includes the steps of continuously changing the distance between a lens and a pixel array between a first distance and a second distance and obtaining an image projected onto the pixel array through the distance is changing. The apparatus includes a lens and an electromechanical structure to continuously change the distance between the lens and the pixel array between the first distance and the second distance. | 06-11-2009 |
20090147608 | POWER MANAGEMENT CONTROL AND CONTROLLING MEMORY REFRESH OPERATIONS - A memory device providing signals indicating when refresh operations are complete. The signals from a number of memory devices can be combined, such as by Oring, to provide a refresh complete signal to a power management controller. Dynamic factors can affect the refresh operation and the memory may be refreshed without restoring the entire system to a high power state. The time required to perform a refresh operation can be determined dynamically, allowing the system to be returned to a low power state as soon as refresh is complete. Ambient temperatures can be monitored to dynamically determine when to perform a refresh operation. | 06-11-2009 |
20090265504 | MEMORY, COMPUTING SYSTEM AND METHOD FOR CHECKPOINTING - Embodiments of the present invention provide local checkpoint memories that are closely coupled to the processor of a computing system used during normal operation. The checkpoint memory may be coupled to the processor through a peripheral bus or a memory bus. The checkpoint memory may be located on a same semiconductor substrate or circuit board as the processor. The checkpoint memory may be located on a same semiconductor substrate as a main memory used by the processor during normal operation. The checkpoint memory may be included in a memory hub configuration, with a checkpoint memory hub provided for access to the checkpoint memory. | 10-22-2009 |
20090265509 | MEMORY SYSTEM AND METHOD HAVING VOLATILE AND NON-VOLATILE MEMORY DEVICES AT SAME HIERARCHICAL LEVEL - A processor-based system includes a processor coupled to core logic through a processor bus. This includes a dynamic random access memory (“DRAM”) memory buffer controller. The DRAM memory buffer controller is coupled through a memory bus to a plurality of a dynamic random access memory (“DRAM”) modules and a flash memory module, which are at the same hierarchical level from the processor. Each of the DRAM modules includes a memory buffer to the memory bus and to a plurality of dynamic random access memory devices. The flash memory module includes a flash memory buffer coupled to the memory bus and to at least one flash memory device. The flash memory buffer includes a DRAM-to-flash memory converter operable to convert the DRAM memory requests to flash memory requests, which are then applied to the flash memory device. | 10-22-2009 |
20100020247 | METHOD FOR ASSISTING VIDEO COMPRESSION IN A COMPUTER SYSTEM - One embodiment of the present invention provides a method that facilitates compression of video data in a computer system by performing the time-consuming task of computing the difference between successive frames of video data independently from the central processing unit. This frees the often-overburdened central processing unit from performing this time-consuming compression operation and can thereby improve the handling of video data. Thus, one embodiment of the present invention can be characterized as a method thr compressing video data in a computer system. This method includes receiving a stream of data from a current video frame in the computer system. It also includes computing a difference frame from the current video frame and a previous video frame “on-the-fly” as the current video frame streams into the computer system. The method additionally includes storing the difference frame in a memory in the computer system. | 01-28-2010 |
20100054070 | METHOD AND SYSTEM FOR CONTROLLING REFRESH TO AVOID MEMORY CELL DATA LOSSES - A DRAM includes a register storing subsets of row addresses corresponding to rows containing at least one memory cell that is unable to store a data bit during a normal refresh cycle. Each subset includes all but the most significant bit of a corresponding row address. A refresh counter in the DRAM generates refresh row addresses that are used to refresh rows of memory cells. The refresh row addresses are compared to the subsets of row addresses that are stored in the register. In the event of a match, the row of memory cells corresponding to the matching subset of bits is refreshed. The number of refreshes occurring each refresh cycle will depend upon the number of bits in the subset that are omitted from the row address. The memory cells that are unable to retain data bits are identified by a modified sense amplifier. | 03-04-2010 |
20100066940 | ASSEMBLIES AND METHODS FOR ILLUMINATING A DISPLAY - A computer display is disclosed. The computer display includes a LCD housing, a light source coupled to the LCD housing, and a LCD coupled to the LCD housing. The LCD housing conducts light from the light source to the LCD. A method for conducting light is also disclosed. The method includes generating light and conducting the generated light through a LCD housing. | 03-18-2010 |
20100115221 | SYSTEM AND METHOD FOR PROCESSOR WITH PREDICTIVE MEMORY RETRIEVAL ASSIST - A system and method are described for a memory management processor which, using a table of reference addresses embedded in the object code, can open the appropriate memory pages to expedite the retrieval of information from memory referenced by instructions in the execution pipeline. A suitable compiler parses the source code and collects references to branch addresses, calls to other routines, or data references, and creates reference tables listing the addresses for these references at the beginning of each routine. These tables are received by the memory management processor as the instructions of the routine are beginning to be loaded into the execution pipeline, so that the memory management processor can begin opening memory pages where the referenced information is stored. Opening the memory pages where the referenced information is located before the instructions reach the instruction processor helps lessen memory latency delays which can greatly impede processing performance. | 05-06-2010 |
20100306461 | MEMORY SYSTEM AND METHOD HAVING VOLATILE AND NON-VOLATILE MEMORY DEVICES AT SAME HIERARCHICAL LEVEL - A processor-based system includes a processor coupled to core logic through a processor bus. This includes a dynamic random access memory (“DRAM”) memory buffer controller. The DRAM memory buffer controller is coupled through a memory bus to a plurality of a dynamic random access memory (“DRAM”) modules and a flash memory module, which are at the same hierarchical level from the processor. Each of the DRAM modules includes a memory buffer to the memory bus and to a plurality of dynamic random access memory devices. The flash memory module includes a flash memory buffer coupled to the memory bus and to at least one flash memory device. The flash memory buffer includes a DRAM-to-flash memory converter operable to convert the DRAM memory requests to flash memory requests, which are then applied to the flash memory device. | 12-02-2010 |
20110055527 | METHOD AND SYSTEM FOR GENERATING OBJECT CODE TO FACILITATE PREDICTIVE MEMORY RETRIEVAL - A method and system are described for generating reference tables in object code which specify the addresses of branches, routines called, and data references used by routines in the code. In a suitably equipped processing system, the reference tables can be passed to a memory management processor which can open the appropriate memory pages to expedite the retrieval of data referenced in the execution pipeline. The disclosed method and system create such reference tables at the beginning of each routine so that the table can be passed to the memory management processor in a suitably equipped processor. Resulting object code also allows processors lacking a suitable memory management processor to skip the reference table, preserving upward compatibility. | 03-03-2011 |
20110060961 | MEMORY CONTROLLER METHOD AND SYSTEM COMPENSATING FOR MEMORY CELL DATA LOSSES - A computer system includes a memory controller coupled to a memory module containing several DRAMs. The memory module also includes a non-volatile memory storing row addresses identifying rows containing DRAM memory cells that are likely to lose data during normal refresh of the memory cells. Upon power-up, the data from the non-volatile memory are transferred to a comparator in the memory controller. The comparator compares the row addresses to row addresses from a refresh shadow counter that identify the rows in the DRAMs being refreshed. When a row of memory cells is being refreshed that is located one-half of the rows away from a row that is likely to loose data, the memory controller causes the row that is likely to loose data to be refreshed. The memory controller also includes error checking circuitry for identifying the rows of memory cells that are likely to lose data during refresh. | 03-10-2011 |
20110134708 | METHOD AND SYSTEM FOR CONTROLLING REFRESH TO AVOID MEMORY CELL DATA LOSSES - A DRAM includes a register storing subsets of row addresses corresponding to rows containing at least one memory cell that is unable to store a data bit during a normal refresh cycle. Each subset includes all but the most significant bit of a corresponding row address. A refresh counter in the DRAM generates refresh row addresses that are used to refresh rows of memory cells. The refresh row addresses are compared to the subsets of row addresses that are stored in the register. In the event of a match, the row of memory cells corresponding to the matching subset of bits is refreshed. The number of refreshes occurring each refresh cycle will depend upon the number of bits in the subset that are omitted from the row address. The memory cells that are unable to retain data bits are identified by a modified sense amplifier. | 06-09-2011 |
20110167207 | MEMORY SYSTEM AND METHOD HAVING VOLATILE AND NON-VOLATILE MEMORY DEVICES AT SAME HIERARCHICAL LEVEL - A processor-based system includes a processor coupled to core logic through a processor bus. This includes a dynamic random access memory (“DRAM”) memory buffer controller. The DRAM memory buffer controller is coupled through a memory bus to a plurality of a dynamic random access memory (“DRAM”) modules and a flash memory module, which are at the same hierarchical level from the processor. Each of the DRAM modules includes a memory buffer to the memory bus and to a plurality of dynamic random access memory devices. The flash memory module includes a flash memory buffer coupled to the memory bus and to at least one flash memory device. The flash memory buffer includes a DRAM-to-flash memory converter operable to convert the DRAM memory requests to flash memory requests, which are then applied to the flash memory device. | 07-07-2011 |
20110219167 | NON-VOLATILE HARD DISK DRIVE CACHE SYSTEM AND METHOD - A non-volatile hard disk drive cache system is coupled between a processor and a hard disk drive. The cache system includes a control circuit, a non-volatile memory and a volatile memory. The control circuit causes a subset of the data stored in the hard disk drive to be written to the non-volatile memory. In response to a request to read data from the hard disk drive, the control circuit first determines if the requested read data are stored in the non-volatile memory. If so, the requested read data are provided from the non-volatile memory. Otherwise, the requested read data are provided from the hard disk drive. The volatile memory is used as a write buffer and to store disk access statistics, such as the disk drive locations that are most frequently read, which are used by the control circuit to determine which data to store in the non-volatile memory. | 09-08-2011 |
20120011374 | DATA SECURITY FOR DIGITAL DATA STORAGE - A computing system includes data encryption in the data path between a data source and data storage devices. The data encryption may utilize a key which is derived at least in part from an identification code stored in a nonvolatile memory. The key may also be derived at least in part from user input to the computer. | 01-12-2012 |
20120173808 | MEMORY, COMPUTING SYSTEM AND METHOD FOR CHECKPOINTING - Embodiments of the present invention provide local checkpoint memories that are closely coupled to the processor of a computing system used during normal operation. The checkpoint memory may be coupled to the processor through a peripheral bus or a memory bus. The checkpoint memory may be located on a same semiconductor substrate or circuit board as the processor. The checkpoint memory may be located on a same semiconductor substrate as a main memory used by the processor during normal operation. The checkpoint memory may be included in a memory hub configuration, with a checkpoint memory hub provided for access to the checkpoint memory. | 07-05-2012 |
20120297129 | MEMORY SYSTEM AND METHOD HAVING VOLATILE AND NON-VOLATILE MEMORY DEVICES AT SAME HIERARCHICAL LEVEL - A processor-based system includes a processor coupled to core logic through a processor bus. This includes a dynamic random access memory (“DRAM”) memory buffer controller. The DRAM memory buffer controller is coupled through a memory bus to a plurality of a dynamic random access memory (“DRAM”) modules and a flash memory module, which are at the same hierarchical level from the processor. Each of the DRAM modules includes a memory buffer to the memory bus and to a plurality of dynamic random access memory devices. The flash memory module includes a flash memory buffer coupled to the memory bus and to at least one flash memory device. The flash memory buffer includes a DRAM-to-flash memory converter operable to convert the DRAM memory requests to flash memory requests, which are then applied to the flash memory device. | 11-22-2012 |
20130003467 | DIGIT LINE COMPARISON CIRCUITS - A DRAM includes a register storing subsets of row addresses corresponding to rows containing at least one memory cell that is unable to store a data bit during a normal refresh cycle. Each subset includes all but the most significant bit of a corresponding row address. A refresh counter in the DRAM generates refresh row addresses that are used to refresh rows of memory cells. The refresh row addresses are compared to the subsets of row addresses that are stored in the register. In the event of a match, the row of memory cells corresponding to the matching subset of bits is refreshed. The number of refreshes occurring each refresh cycle will depend upon the number of bits in the subset that are omitted from the row address. The memory cells that are unable to retain data bits are identified by a modified sense amplifier. | 01-03-2013 |
20130283230 | METHOD AND SYSTEM FOR GENERATING OBJECT CODE TO FACILITATE PREDICTIVE MEMORY RETRIEVAL - A method and system are described for generating reference tables in object code which specify the addresses of branches, routines called, and data references used by routines in the code. In a suitably equipped processing system, the reference tables can be passed to a memory management processor which can open the appropriate memory pages to expedite the retrieval of data referenced in the execution pipeline. The disclosed method and system create such reference tables at the beginning of each routine so that the table can be passed to the memory management processor in a suitably equipped processor. Resulting object code also allows processors lacking a suitable memory management processor to skip the reference table, preserving upward compatibility. | 10-24-2013 |
20140025923 | MEMORY MANAGEMENT FOR A HIERARCHICAL MEMORY SYSTEM - Disclosed are systems and methods for managing memory. A memory management system may include a table having multiple virtual memory addresses. Each virtual memory address may correspond to a physical memory address and data that identifies a type of memory device corresponding to the physical memory address. The physical memory device can be used to access the memory device when a table hit occurs. | 01-23-2014 |
20140082375 | DATA SECURITY FOR DIGITAL DATA STORAGE - A computing system includes data encryption in the data path between a data source and data storage devices. The data encryption may utilize a key which is derived at least in part from an identification code stored in a nonvolatile memory. The key may also be derived at least in part from user input to the computer. | 03-20-2014 |
20140112087 | POWER MANAGEMENT CONTROL AND CONTROLLING MEMORY REFRESH OPERATIONS - A memory device providing signals indicating when refresh operations are complete. The signals from a number of memory devices can be combined, such as by logically ORing, to provide a refresh complete signal to a power management controller. Dynamic factors can affect the refresh operation and the memory may be refreshed without restoring the entire system to a high power state. The time required to perform a refresh operation can be determined dynamically, allowing the system to be returned to a low power state as soon as refresh is complete. Ambient temperatures can be monitored to dynamically determine when to perform a refresh operation. | 04-24-2014 |
20140181613 | MEMORY CONTROLLER METHOD AND SYSTEM COMPENSATING FOR MEMORY CELL DATA LOSSES - A computer system includes a memory controller coupled to a memory module containing several DRAMs. The memory module also includes a non-volatile memory storing row addresses identifying rows containing DRAM memory cells that are likely to lose data during normal refresh of the memory cells. Upon power-up, the data from the non-volatile memory are transferred to a comparator in the memory controller. The comparator compares the row addresses to row addresses from a refresh shadow counter that identify the rows in the DRAMs being refreshed. When a row of memory cells is being refreshed that is located one-half of the rows away from a row that is likely to loose data, the memory controller causes the row that is likely to loose data to be refreshed. The memory controller also includes error checking circuitry for identifying the rows of memory cells that are likely to lose data during refresh. | 06-26-2014 |