Patent application number | Description | Published |
20120211867 | SIDE-MOUNTED CONTROLLER AND METHODS FOR MAKING THE SAME - A die package having a vertical stack of dies and side-mounted circuitry and methods for making the same are disclosed, for use in an electronic device. The side-mounted circuitry is mounted to a vertical surface of the stack, as opposed to a top surface or adjacent of the stack to reduce the volume of the NVM package. | 08-23-2012 |
20120215958 | Variable Impedance Control for Memory Devices - This document generally describes systems, devices, methods, and techniques for variably controlling impedance for a memory device where multiple NVM units (e.g., NVM dies) are accessible over a shared bus. Impedance can be varied using switches that are configured to switch between a NVM unit and an impedance terminal. Switches can be adjusted during operation of a memory device so that a memory controller is connected over a shared bus to a selected single NVM unit and one or more impedance terminals. Impedance terminals can be configured to provide a relatively small load (a smaller load than an NVM unit) that is impedance matched (alone or in combination with other impedance terminals and/or a NVM unit) with a source impedance on a shared bus that is provided by a memory controller. | 08-23-2012 |
20120216079 | Obtaining Debug Information from a Flash Memory Device - This document generally describes systems, devices, methods, and techniques for obtaining debug information from a memory device. Debug information can include a variety of information associated with a memory device that can be used for debugging the device, such as a sequence of operations performed by the memory device and information regarding errors that have occurred (e.g., type of error, component of memory device associated with error). A memory device can be instructed by a host to obtain and provide debug information to the host. A memory device can be configured to obtain particular debug information using a variety of features, such as triggers. For instance, a memory device can use a trigger to collect debug information related to failed erase operations. | 08-23-2012 |
20120224425 | Using Temperature Sensors with a Memory Device - In one implementation, a method for performing memory operations includes receiving, at a memory device, a request to read data from one or more non-volatile memory cells; and retrieving stored temperature information associated with the non-volatile memory cells, wherein the temperature information is associated with a temperature at approximately at a time when the data was written to the non-volatile memory cells. The method can further include reading, by the memory device, the data from the non-volatile memory cells. The method can also include processing the read data based on, at least, the retrieved temperature information; and providing the processed data. | 09-06-2012 |
20120290864 | ASYNCHRONOUS MANAGEMENT OF ACCESS REQUESTS TO CONTROL POWER CONSUMPTION - Systems and methods are disclosed for asynchronous management of access requests to control power consumption. In some cases, by asynchronously managing power within a system, multiple dies of a NVM can simultaneously draw current in order to match the power demand. In particular, an arbiter of the system can receive multiple requests to draw current, where each request may be associated with a different die of the NVM. In some embodiments, the arbiter can determine the servicing order using the time of arrival of the request (e.g., a first-in, first-out scheme). In other embodiments, the arbiter can simultaneously service multiple requests so long as the servicing of the multiple requests does not exceed a power budget. | 11-15-2012 |
20130007333 | Controller Interface Providing Improved Signal Integrity - In one implementation, a memory device includes non-volatile memory and a memory controller communicatively coupled to the non-volatile memory over a first bus. The memory device can also include a host device interface through which the memory controller communicates with a host device over a second bus, wherein the host device interface includes an impedance calibration circuit that is adapted to calibrate a signal transmitted over the second bus by host device interface so that a source impedance associated with the signal matches, within a threshold value, a load impedance associated with the host device over the second bus. | 01-03-2013 |
20130007347 | Booting a Memory Device from a Host - In one implementation, a method includes receiving, at a memory device, an instruction to boot the memory device, wherein the memory device includes non-volatile memory accessible by a controller of the memory device; and, in response to receiving the instruction to boot the memory device, obtaining, by the memory device, firmware from a host device, wherein the host device is separate from and communicatively coupled to the memory device. The method can also include booting the memory device using the firmware from the host device, wherein the memory device boots separately from the host device, and the host device performs operations using data or instructions stored in the non-volatile memory and obtained through communication with the memory controller of the memory device. | 01-03-2013 |
20130007348 | Booting Raw Memory from a Host - In one implementation, a method includes receiving, at a memory device, an instruction to boot the memory device, wherein the memory device includes non-volatile memory; and, in response to receiving the instruction to boot the memory device, obtaining, by the memory device, one or more trim values from the host device, wherein the trim values define one or more parameters for accessing the non-volatile memory, and the host device is separate from and communicatively coupled to the memory device. The method can also include booting the memory device using the trim values from the host device, wherein the memory device boots separately from the host device, and the host device performs operations using data or instructions stored in the non-volatile memory and obtained by providing commands to the memory device. | 01-03-2013 |
20130007562 | Controller Interface Providing Improved Data Reliability - In one implementation, a memory device includes non-volatile memory, a memory controller communicatively coupled to the non-volatile memory over a first bus, and a host interface through which the memory controller communicates with a host device over a second bus. The memory device can also include a signal conditioner of the host interface adapted to condition signals to adjust a signal level of signals received over the second bus based on signal level data received from the host device, wherein the signal level data relates to a voltage level of signals generated by the host device to encode data transmitted across the second bus. | 01-03-2013 |
20130036254 | DEBUGGING A MEMORY SUBSYSTEM - In one implementation, a memory subsystem includes non-volatile memory, a memory controller that is communicatively connected to the non-volatile memory over a first bus, a host interface through which the memory controller communicates with a host controller over a second bus, and a joint test action group (JTAG) interface that provides the host controller with access to state information associated with the memory controller. The memory subsystem can be configured to be coupled to a board-level memory device that includes the host controller. | 02-07-2013 |
20130036255 | TESTING MEMORY SUBSYSTEM CONNECTIVITY - In one implementation, a memory subsystem includes a plurality of non-volatile memory dies, a memory controller that is communicatively connected to each of the non-volatile memory dies over one or more first busses, a host interface through which the memory controller communicates with a host over a second bus, and a joint test action group (JTAG) interface through which the host performs a boundary scan of the memory subsystem including, at least, the non-volatile memory dies and the memory controller. The memory subsystem can be configured to be a subunit of a board-level memory device that includes the host. | 02-07-2013 |
20130111298 | SYSTEMS AND METHODS FOR OBTAINING AND USING NONVOLATILE MEMORY HEALTH INFORMATION | 05-02-2013 |
20140115352 | ASYNCHRONOUS MANAGEMENT OF ACCESS REQUESTS TO CONTROL POWER CONSUMPTION - Systems and methods are disclosed for asynchronous management of access requests to control power consumption. In some cases, by asynchronously managing power within a system, multiple dies of a NVM can simultaneously draw current in order to match the power demand. In particular, an arbiter of the system can receive multiple requests to draw current, where each request may be associated with a different die of the NVM. In some embodiments, the arbiter can determine the servicing order using the time of arrival of the request (e.g., a first-in, first-out scheme). In other embodiments, the arbiter can simultaneously service multiple requests so long as the servicing of the multiple requests does not exceed a power budget. | 04-24-2014 |