Patent application number | Description | Published |
20080235444 | SYSTEM AND METHOD FOR PROVIDING SYNCHRONOUS DYNAMIC RANDOM ACCESS MEMORY (SDRAM) MODE REGISTER SHADOWING IN A MEMORY SYSTEM - A system and method for providing SDRAM mode register shadowing in a memory system. A system includes a memory interface device adapted for use in a memory system. The memory interface device includes an interface to one or more ranks of memory devices, and each memory device includes one or more types of mode registers. The memory interface device also includes an interface to a memory bus for receiving commands from a memory controller. The commands include a mode register set command specifying a new mode register setting for one or more ranks of memory devices and a mode register type. The memory interface device further includes a mode register shadow module to capture settings applied to the mode registers. The module includes a shadow register for each type of mode register and a shadow log for each type of mode register. The module also includes mode register shadow logic to detect a mode register set command, to store the new mode register setting in the shadow register corresponding to the specified mode register type, and to set one or more bits in the shadow log corresponding to the specified mode register type to indicate which of the ranks of memory devices have been programmed with the new mode register setting. | 09-25-2008 |
20080320191 | SYSTEM AND METHOD FOR PROVIDING A CONFIGURABLE COMMAND SEQUENCE FOR A MEMORY INTERFACE DEVICE - A system and method for providing a configurable command sequence for a memory interface device (MID). The system includes a MID intended for use in a cascade interconnect system and in communication with one or more memory devices. The MID includes a first connection to a high speed bus operating at a first data rate, a second connection to the high speed bus, an alternate communication means and logic. The first connection to the high speed bus includes receiver circuitry operating at the first data rate. The alternate communication means operates at a second data rate that is slower than the first data rate. The logic facilitates receiving commands via the first connection from the high speed bus operating at the first data rate and using a first command sequence. The logic also facilitates receiving the commands via the alternate communication means using a second command sequence which differs from the first command sequence in the speed in which the commands are transferred. The logic further facilitates processing the commands if the commands are directed to the MID and redriving the commands via the second connection onto the high speed bus. | 12-25-2008 |
20090119466 | SYSTEMS FOR PROVIDING PERFORMANCE MONITORING IN A MEMORY SYSTEM - Systems for providing performance monitoring in a memory system. The memory system includes a memory controller, a plurality of memory devices, a memory bus and a memory hub device. The memory controller receives and responds to memory access requests. The memory bus is in communication with the memory controller. The memory hub device is in communication with the memory bus. The memory hub device includes a memory interface for transferring one or more of address, control and data information between the memory hub device and the memory controller via the memory bus. The memory hub device also includes a memory device interface for communicating with the memory devices. The memory hub device further includes a performance monitor for monitoring and reporting one or more of memory bus utilization, memory device utilization, and performance characteristics over defined intervals during system operation. | 05-07-2009 |
20090245008 | SYSTEM AND METHOD FOR PROVIDING VOLTAGE POWER GATING - A system and method for providing voltage power gating. The system includes a device for providing voltage power gating. The device includes logic circuitry, a mechanism for receiving a control signal associated with the logic circuitry and a selector. The control signal indicates an active state or an idle state of the logic circuitry. The selector enables a power source to the logic circuitry in response to the control signal indicating the active state. The selector also disables the power source to the logic circuitry in response to the control signal indicating the idle state. Thus, the power source is dynamically eliminated from the logic circuitry on the device when it is in the idle state. | 10-01-2009 |
20110099419 | SOLID STATE DRIVE WITH FLASH SPARING - A method for flash sparing on a solid state drive (SSD) includes detecting a failure from a primary memory device; determining if a failure threshold for the primary memory device has been reached; and, in the event the failure threshold for the primary memory device has been reached: quiescing the SSD; and updating an entry in a sparing map table to replace the primary memory device with a spare memory device. | 04-28-2011 |
20130151914 | FLASH ARRAY BUILT IN SELF TEST ENGINE WITH TRACE ARRAY AND FLASH METRIC REPORTING - A mechanism is provided for a flash array test engine. The flash array test engine includes a circuit. The circuit is configured to generate test workloads in a test mode for testing a flash device array, where each of the test workloads includes specific addresses, data, and command patterns to be sent to the flash device array. The circuit is configured to accelerate wear in the flash device array, via the test workloads, at an accelerated rate relative to general system workloads that are not part of the test mode. The circuit is configured to vary a range of conditions for the flash device array to determine whether each of the conditions passes or fails and to store failure data and corresponding failure data address information for the flash device array. | 06-13-2013 |
20130191700 | BIT ERROR RATE BASED WEAR LEVELING FOR SOLID STATE DRIVE MEMORY - According to exemplary embodiments, a system, method, and computer program product are provided for BER-based wear leveling in a SSD. A block-level BER value for a block in the SSD is determined. An adjusted PE cycle count for the block is incremented or decremented based on the block-level BER value. Wear leveling is then performed in the SSD based on the adjusted PE cycle count. | 07-25-2013 |
20130339573 | OPTIMIZING WRITE PERFORMANCE TO FLASH MEMORY - Embodiments relate to optimizing write performance of a flash device. Aspects include receiving a request to evict a plurality of pages from a main memory and determining a block size for the flash device. Aspects also include grouping the plurality of pages from the main memory into a move specification block, wherein a size of the move specification block is the block size and writing the move specification block to the flash device. The block size being determined based on one or more operational characteristics of the flash device. | 12-19-2013 |
20140019646 | Service Channel For Connecting A Host Computer To Peripheral Devices - A computer system having a host adapter is provided. The host adapter includes a primary port that follows a primary communication protocol. The primary port is connectable to at least one peripheral device. The host adapter includes a service port that follows a service communication protocol to monitor and send recovery commands to the peripheral device. The service port is decoupled and separate from the primary port and connectable to the at least one peripheral device. | 01-16-2014 |
20140088920 | PERFORMANCE EVALUATION OF SOLID STATE MEMORY DEVICE - Embodiments relate methods and computer program products for performance testing of a solid state memory devices. The method includes operating a first solid state memory device for a period of time and capturing state information of the first solid state memory device after the period of time. The method also includes storing the state information in a control file and loading the control file onto a second solid state memory device. Once the control file has been loaded into the second solid state memory device the state information can be adapted to fix any issues due to physical variation. Performance testing can then be preformed on the second solid state memory device without preconditioning the second solid state memory device. | 03-27-2014 |
20140089629 | SOLID STATE MEMORY DEVICE LOGICAL AND PHYSICAL PARTITIONING - Embodiments relate to solid state memory device including a storage array having a plurality of physical storage devices and the storage array includes a plurality of partitions. The solid state memory device also includes a controller comprising a plurality of mapping tables, wherein each of the plurality of mapping tables corresponds to one of the plurality of partitions. Each of the plurality of mapping tables is configured to store a physical location and a logical location of data stored in its corresponding partition. | 03-27-2014 |
20140095773 | SOLID STATE MEMORY DEVICE LOGICAL AND PHYSICAL PARTITIONING - Embodiments relate to solid state memory device including a storage array having a plurality of physical storage devices and the storage array includes a plurality of partitions. The solid state memory device also includes a controller comprising a plurality of mapping tables, wherein each of the plurality of mapping tables corresponds to one of the plurality of partitions. Each of the plurality of mapping tables is configured to store a physical location and a logical location of data stored in its corresponding partition. | 04-03-2014 |
20140101499 | BIT ERROR RATE BASED WEAR LEVELING FOR SOLID STATE DRIVE MEMORY - According to exemplary embodiments, a system, is provided for bit error rate (BER)-based wear leveling in a solid state drive (SSD). A block-level BER value for a block in the SSD is determined. An adjusted PE cycle count for the block is incremented or decremented based on the block-level BER value. Wear leveling is then performed in the SSD based on the adjusted PE cycle count. | 04-10-2014 |
20140143617 | FLASH INTERFACE ERROR INJECTOR - A flash interface error injector for end-of-life testing of a flash-based array includes a plurality of error injection logic blocks that are implemented by one or more processors. Each of the plurality of error injection logic blocks corresponds with a respective flash channel. The flash injector also includes a bit flip probability logic that identifies one or more bits to be flipped. | 05-22-2014 |
20140143618 | FLASH INTERFACE ERROR INJECTOR - A flash interface error injector for end-of-life testing of a flash-based array includes a plurality of error injection logic blocks that are implemented by one or more processors. Each of the plurality of error injection logic blocks corresponds with a respective flash channel. The flash injector also includes a bit flip probability logic that identifies one or more bits to be flipped. | 05-22-2014 |