| Patent application number | Description | Published |
|---|
| 20080320175 | METHODS AND APPARATUS FOR IDENTIFYING OPERATING MODES FOR PERIPHERAL DEVICES - Apparatus and methods provide for configuring a peripheral device in response to applying defined sets of signals to input/output terminals of the peripheral device, sensing the signals at those input/output terminals after applying the defined sets of signals, and comparing the sensed signals with the defined sets of signals. | 12-25-2008 |
| 20090204750 | DIRECT LOGICAL BLOCK ADDRESSING FLASH MEMORY MASS STORAGE ARCHITECTURE - A nonvolatile semiconductor mass storage system and architecture can be substituted for a rotating hard disk. The system and architecture avoid an erase cycle each time information stored in the mass storage is changed. Erase cycles are avoided by programming an altered data file into an empty mass storage block rather than over itself as a hard disk would. Periodically, the mass storage will need to be cleaned up. These advantages are achieved through the use of several flags, and a map to correlate a logical block address of a block to a physical address of that block. In particular, flags are provided for defective blocks, used blocks, and old versions of a block. An array of volatile memory is addressable according to the logical address and stores the physical address. | 08-13-2009 |
| 20100228890 | MEMORY DEVICES CONFIGURED TO IDENTIFY AN OPERATING MODE - Memory devices having a memory module, an interface, identification circuitry and a controller coupled to the memory module and the identification circuitry. The identification circuitry is configured to identify a selected operating mode from a plurality of signals sensed at the interface in response to a plurality of signals previously applied to the interface by the identification circuitry. The controller is operable to configure the memory device to the selected operating mode responsive to the identification circuitry. | 09-09-2010 |
| 20100293324 | DIRECT LOGICAL BLOCK ADDRESSING FLASH MEMORY MASS STORAGE ARCHITECTURE - A nonvolatile semiconductor mass storage system and architecture can be substituted for a rotating hard disk. The system and architecture avoid an erase cycle each time information stored in the mass storage is changed. Erase cycles are avoided by programming an altered data file into an empty mass storage block rather than over itself as a hard disk would. Periodically, the mass storage will need to be cleaned up. These advantages are achieved through the use of several flags, and a map to correlate a logical block address of a block to a physical address of that block. In particular, flags are provided for defective blocks, used blocks, and old versions of a block. An array of volatile memory is addressable according to the logical address and stores the physical address. | 11-18-2010 |
